msc research topics in biochemistry

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Biochemistry Research for Students (Preparation and Ideas)

In most universities, a senior biochemistry research project is a must before you complete your biochemistry coursework. But that’s not all. At various points of your study, whether studying pure biochemistry or related courses like molecular biology, examiners will require you to write a biochemistry research essay, term paper, or thesis.

To show you are focused on your studies and understand biochemistry better, come up with interesting biochemistry topics, and structure your work perfectly. A biochemistry research paper should capture the examiner’s interest and allow you to prove the content extensively. Ensure the topic is also manageable and compliant with your research environment.

With that, you will get things done in the nick of time without compromising on the quality of your work. No examiner will have a problem with a research essay, assignment, or dissertation that has sense and follows the academic rules. In fact, well-proposed biochemistry research ideas attract lots of funding, and you might be lucky to have a breakthrough in your early career.

Most of the biochemistry topics for research ideas revolve around:

Structure and functioning of various body cells.
Biochemical reactions in humans and plants.
Heredity in living organisms.
Pharmacology and pharmacognosy.
DNA, RNA, and proteins in plants and animals.
Molecular nature of all the bio-molecules.
Micro-organisms.
Enzymes, bioenergetics and thermodynamics.

Interesting Topics in Biochemistry

Many students struggle to think of interesting topics for their courses, and that’s not exceptional in biochemistry. You’ll notice that most of the topics’ interests depend on what a student is passionate about. Here are some interesting biochemistry topics to check out:

Understanding the role of microbial itaconic acid production during fungi synthesis.
Membrane biology and ion transport process in the innate immune response.
Inhibition of sprouty2 in periodontal ligament cells and their extensive biological effects.
Peptide and protein structure in membranes: what role do they play in cell membrane formation?
Understanding the evolution of microbial infections and related effects in the existing surroundings.
The role of B cell receptors in infections and vaccine production.
Human health and bacteriophages of different kinds: How the two correlate.
AN analysis of biofilm formation: From therapeutics to molecular mechanisms, and everything in between.
Close comparison and analysis of nucleic acids (DNA and RNA) in mice and humans.
Understanding the relationship between NDR1/2 and mob-based proteins in cell cycle damage signaling.

Biochemistry Topics for Presentation

If you have an incoming presentation, you must pick your topics carefully. Presentations can be a challenge at times. While some individuals in the audience might not have extensive knowledge of the subject, you must have a detailed understanding of your topic to score better. Here are some of the best biochemistry presentation topics:

A stepwise understanding of the human immune system and the role played in cell regeneration during an infection.
A deep analysis of different plant pathologies with a focus on phytochemicals present and their roles.
A look at the biochemical process that leads to apoptosis in patients with stage IV breast cancer.
Understanding the close relationship in terms of practice in biochemistry and pathological psychiatry.
Understanding different types of polymorphism and how they affect the DNA of human beings.
How hormone formation in children is dependent on the environment and child’s health condition.
The role of human cloning in the production and consumption of various types of vaccines.
The relationship between human molecular adaptation and diet: Does diet play a role?
Understanding how biological processes are dependent on the functioning of the human central nervous system.
Comparison of mice and human circulatory system: Functioning, susceptibility, capacity, and features.

Hot Topics in Biochemistry

Biochemistry has a vast range of hot topics to explore. Since you might not have the chance to write about everything concerning the course, our suggestions narrow your search efforts. Take a look at some of the hot topics in biochemistry below:

How professional breast cancer detection and screening is changing the lives of university students.
The revolution of tissue clearing techniques for optical microscopy as witnessed for the past five years.
Clinical features of acute copper sulfate poisoning and role of biochemistry in management interventions.
The role of malt in various beer quality and effects on beer stability: Industrial biochemistry of beer making.
Solid and liquid-state fermentation in the production of biochemical supplements for human and animal consumption.
Controlled mixed fermentation as witnessed in pharmaceutical product making over the years and the new normal.
The roles of polyphosphate on the virulence of Erwina caratovora bacteria in a range of plants.
An extensive comparison of the significant aspects of biochemical studies at the college and university level in the last half-century.
Analysis of molecular genetics and its close relationship with muscular dystrophy in men and women.
Supporting evidence on children’s growth and development in countries using genetically modified organisms feeding products.

Project Topics for Biochemistry

Would you like to write a project topic on biochemistry that might change the world? Then you need to work on something that excites and allows you to develop a deep interest in your course. Project topics in biochemistry are not complicated, provided you are willing to challenge yourself and learn. Here are some of them for inspiration.

Breast cancer and obesity in women of younger age; the clinical analysis from a biochemistry perspective.
Understanding biochemistry of biomolecules and amino acids and their clinical application in drugs and supplement making.
The future of artificial intelligence and its relevance to biochemistry: The gradual changes witnessed over the last four years.
Understanding stability of 81 analytes in human blood, serum, and plasma during diagnosis in clinical biochemistry set up.
History of clinical biochemistry and why it matters to modern human medicine.
Transforming the liver function tests with new biochemistry diagnostic simple tools; how to make things result-oriented
The role of clinical biochemistry in helping us understand the human immune system.
Understanding and redefining the role of the human bones: How biochemistry transforms the narrative on human bones predisposition.
A detailed clinical biochemistry analysis during pregnancy: tests associated with pregnancies and early child development.
The rise of clinical biochemistry in the present times, from introductory chemistry of life to foundation on infections and disease interventions.

Biochemistry Research Topics for Undergraduates

Choosing an ideal biochemistry research topic as an undergraduate student taking biochemistry at the college or university level can be a complex process for you. We have ten topics that you can choose to base your research on. Let’s take a look at the best biochemistry research topics for undergraduates’ topics:

Microbial food spoilage, resulting disorders, and the best biochemistry control approach to leverage.
Comparative examination of serum calcium level among males using biochemistry testing techniques.
Phytochemical analysis of specific tomato products available in the market for public health safety.
The oxidative stress status of mice fed on oil bean seed meal and show the same applies to biochemical processes in humans.
How biochemical production of top-quality bar soaps compares with most detergents you see in the market today.
What are the health dangers associated with lead in water consumed in most universities?
Critical analysis of Pterocarpus mildbreadii (oha) seed: A detailed phytochemical review.
How to use biochemistry synthesis pathways to create a compound that prevents reactions from taking place.
Evaluation of bacteria components produced using pure starter culture in a biochemistry culture laboratory setup.
What’s the bacteriological quality of meat products in most butcheries in town?

MCAT Biochemistry Topics

You must always take your Medical College Admission Test seriously if you want to get a chance to join your favorite medical school. The test gives you a chance to show that you’re ready to handle the program and maintain an excellent performance throughout. Since you’re looking to get admission, here are the best MCAT biochemistry topics you might want to consider:

Application of mathematical concepts and techniques in biochemistry and their role in general medicine.
How catabolic and anabolic enzyme reactions contribute to cell functionality: Data-based enzymatic reasoning and graphical representations.
Chemical and physical foundations of biological systems that help us appreciate human anatomy.
How critical analysis and reasoning skills acquired in biochemistry play a significant role in medical schools.
How multiple biosynthetic pathways like the citric acid cycle and glycolysis influence human health and functionality?
A look at the psychological, social, and biological foundations of behaviors in relation to human biomolecules.
Understanding the biochemical basis of human psychology.
Critical analysis of biochemistry study areas and how they transform medicine.
Understanding the relationship between Omega-3 fatty acids and blood glucose levels in adults.
How fruits and vegetables regulate blood sugar in patients with diabetes: Biochemical pathways and mechanisms.

Current Biochemistry Topics

There’s no better way to show that you’re a sharp and informed student than knowing what’s happening in the biochemistry academic and practical world. Knowing current biochemistry topics is one way to showcase your awareness. We have compiled this list to help you create a top-quality research paper. Here we go!

How do hydrocarbons in amino acids impact biochemical reactions when the human body gets subjected to medication?
Why biochemistry research is promising when it comes to developing the best methods of initiating new medications to patients.
Understanding the covid-19 vaccines chemical properties and reactions in adult men and women.
Explaining various reactions to vaccines in the trial stage and how biochemistry has helped achieve the desired vaccines effectiveness.
What are the roles of biochemically developed rotavirus vaccines in acute gastroenteritis among infants?
How to best preserve plant extracts meant for experiments in biochemistry? Plant biochemistry and biotechnology research.
The relationship between different types of brain cancer with radiation exposure and genetics.
Understanding measles among infants and the most effective biochemistry based vaccine remedy
The role of biochemistry in governing cell motility during various stages of development.
The role of microscopy, scanning, and serum medical examinations in biochemistry.

Get Biochemistry Writing Help

Are you confused about the best biochemistry project topics to work on? The above topics are an ideal starting point. But completing your assignment with the huge workload that comes with biochemistry is a significant problem. Worry not because you can now get biochemistry writing help from us.

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MSc by Research in Biochemistry

Entry requirements
Funding and Costs

College preference

How to Apply

About the course

This programme aims to train you in cutting-edge laboratory research applying techniques in bionanotechnology, biophysics, computational biology, microscopy, molecular biology, structural biology and systems biology to a broad range of fields including cell biology, chromosome biology, drug discovery, epigenetics, host-pathogen interactions, membrane proteins, ion channels and transporters, and RNA biology.

You will be admitted directly to a particular research area led by departmental members who will be appointed MSc by Research supervisors. Students who have been admitted to a particular research supervisor will not normally do laboratory rotations. You will be based in a research lab and undertake research on a subject agreed with your supervisor.

There are no taught courses examined by written papers, but you will have access to a wide range of lecture courses at foundation or preliminary level, as appropriate. If you have changed fields, this will enable you to fill in gaps in your background knowledge. There is also a wide range of courses and workshops which you can attend to acquire skills that will be necessary for the pursuance and presentation of your research, as well as your professional development as a research scientist.

The MSc by Research in Biochemistry is normally a two year course, though if you have an appropriate background in research, you may be able to complete it in one year.

Research at the Department of Biochemistry is divided into five main themes:

cell biology, development and genetics
chromosomal and RNA biology
infection and disease processes
microbiology and systems biology
structural biology and molecular biophysics .

Supervision

For this course, the allocation of graduate supervision is the responsibility of the Department of Biochemistry and it is not always possible to accommodate the preferences of incoming graduate students to work with a particular member of staff. Under exceptional circumstances a supervisor may be found outside the Department of Biochemistry. Information about supervisors connected with this course can also be found at the Department of Biochemistry website.

You will typically meet with your supervisor on a weekly or fortnightly basis. In addition, your supervisor may appoint a senior member of the laboratory as your day-to-day supervisor. Most laboratories also have weekly meetings where members present and discuss their results with other members of the laboratory.

You will begin your course as a probationary research student and near the end of your first year you will apply to transfer to MSc by Research status. This involves writing a short report on your research progress and statement of future research plans and giving a presentation. This will be assessed by two independent experts, who interview you as part of the process. Continuation in the programme is subject to passing the Transfer of Status exam.

If you wish, you may attempt to transfer to DPhil status instead of MSc by Research status at the end of your first year. To transfer to DPhil status, you are required to follow the same procedure as probationary research students on the DPhil in Biochemistry and must have supporting statements from your supervisor(s) and college.

The length of the programme depends on the following factors as judged by your supervisor(s) and assessors:

focus and rate of student researcher development and progress
achievement of acceptable focus and scope of thesis
publication quality research
length of available funding.

The final stage of the research programme is submission of your MSc thesis, which needs to be done within three years.

Your thesis is assessed by two independent experts (one of which will be external to the University of Oxford), who conduct a viva examination with you.

Graduate destinations

Approximately 80% of the department’s alumni who completed in the years 2015 to 2019 have pursued a career within academic or industrial research. Other graduates hold positions within a variety of different sectors including Patent Law, Management Consultancy, scientific publishing and teaching.

Changes to this course and your supervision

The University will seek to deliver this course in accordance with the description set out in this course page. However, there may be situations in which it is desirable or necessary for the University to make changes in course provision, either before or after registration. The safety of students, staff and visitors is paramount and major changes to delivery or services may have to be made in circumstances of a pandemic, epidemic or local health emergency. In addition, in certain circumstances, for example due to visa difficulties or because the health needs of students cannot be met, it may be necessary to make adjustments to course requirements for international study.

Where possible your academic supervisor will not change for the duration of your course. However, it may be necessary to assign a new academic supervisor during the course of study or before registration for reasons which might include illness, sabbatical leave, parental leave or change in employment.

For further information please see our page on changes to courses and the provisions of the student contract regarding changes to courses.

Entry requirements for entry in 2024-25

Proven and potential academic excellence.

The requirements described below are specific to this course and apply only in the year of entry that is shown. You can use our interactive tool to help you evaluate whether your application is likely to be competitive .

Please be aware that any studentships that are linked to this course may have different or additional requirements and you should read any studentship information carefully before applying.

Degree-level qualifications

As a minimum, applicants should hold or be predicted to achieve the following UK qualifications or their equivalent:

a first-class or strong upper second-class undergraduate degree with honours.

The qualification above should be achieved in one of the following subject areas or disciplines:

biochemistry
cell biology
molecular biology
mathematics
computation.

Please note that entrance is very competitive and most successful applicants have a first-class degree.

A previous master's degree is not required in order to be considered for the programme.

For applicants with a degree from the USA, the minimum GPA sought is 3.5 out of 4.0.

If your degree is not from the UK or another country specified above, visit our International Qualifications page for guidance on the qualifications and grades that would usually be considered to meet the University’s minimum entry requirements.

GRE General Test scores

No Graduate Record Examination (GRE) or GMAT scores are sought.

Other qualifications, evidence of excellence and relevant experience

You are expected to have a good understanding of your proposed area of research and be familiar with the recent published work of your proposed supervisor(s)
Research or work experience in an area related to your proposed MSc by Research project would be an advantage
A track record demonstrating an interest in research, including the ability to master technical/computational skills, and plan and execute experiments effectively, is likely to advantage your application
Publications are not required, but it may strengthen your application if you have already published your work in a scientific journal

English language proficiency

This course requires proficiency in English at the University's standard level . If your first language is not English, you may need to provide evidence that you meet this requirement. The minimum scores required to meet the University's standard level are detailed in the table below.

Minimum scores required to meet the University's standard level requirement
Test	Minimum overall score	Minimum score per component
IELTS Academic (Institution code: 0713)	7.0	6.5
TOEFL iBT, including the 'Home Edition' (Institution code: 0490)	100	Listening: 22 Reading: 24 Speaking: 25 Writing: 24
C1 Advanced*	185	176
C2 Proficiency	185	176

*Previously known as the Cambridge Certificate of Advanced English or Cambridge English: Advanced (CAE) † Previously known as the Cambridge Certificate of Proficiency in English or Cambridge English: Proficiency (CPE)

Your test must have been taken no more than two years before the start date of your course. Our Application Guide provides further information about the English language test requirement .

Declaring extenuating circumstances

If your ability to meet the entry requirements has been affected by the COVID-19 pandemic (eg you were awarded an unclassified/ungraded degree) or any other exceptional personal circumstance (eg other illness or bereavement), please refer to the guidance on extenuating circumstances in the Application Guide for information about how to declare this so that your application can be considered appropriately.

You will need to register three referees who can give an informed view of your academic ability and suitability for the course. The How to apply section of this page provides details of the types of reference that are required in support of your application for this course and how these will be assessed.

Supporting documents

You will be required to supply supporting documents with your application. The How to apply section of this page provides details of the supporting documents that are required as part of your application for this course and how these will be assessed.

Performance at interview

Interviews are normally held as part of the admissions process.

The main round of interviews is held in January and in early February. Additional interviews may be held at later dates subject to the availability of places.

Applications are reviewed by a panel of academics associated with the course. A short-list of applicants is confirmed, based on assessment of achieved or predicted undergraduate degree grade, academic references, personal statement and CV.

Interviews are in person or by video link, take approximately 30 minutes, and are conducted by a panel of two or more interviewers. Applicants are asked to talk about any research project(s) that they may have pursued and questioned on aspects of their research training to date, understanding of the proposed area of study and motivation for undertaking a research degree.

How your application is assessed

Your application will be assessed purely on your proven and potential academic excellence and other entry requirements described under that heading.

References and supporting documents submitted as part of your application, and your performance at interview (if interviews are held) will be considered as part of the assessment process. Whether or not you have secured funding will not be taken into consideration when your application is assessed.

An overview of the shortlisting and selection process is provided below. Our ' After you apply ' pages provide more information about how applications are assessed .

Shortlisting and selection

Students are considered for shortlisting and selected for admission without regard to age, disability, gender reassignment, marital or civil partnership status, pregnancy and maternity, race (including colour, nationality and ethnic or national origins), religion or belief (including lack of belief), sex, sexual orientation, as well as other relevant circumstances including parental or caring responsibilities or social background. However, please note the following:

socio-economic information may be taken into account in the selection of applicants and award of scholarships for courses that are part of the University’s pilot selection procedure and for scholarships aimed at under-represented groups ;
country of ordinary residence may be taken into account in the awarding of certain scholarships; and
protected characteristics may be taken into account during shortlisting for interview or the award of scholarships where the University has approved a positive action case under the Equality Act 2010.

Initiatives to improve access to graduate study

This course is taking part in a continuing pilot programme to improve the selection procedure for graduate applications, in order to ensure that all candidates are evaluated fairly.

For this course, socio-economic data (where it has been provided in the application form) will be used to contextualise applications at the different stages of the selection process. Further information about how we use your socio-economic data can be found in our page about initiatives to improve access to graduate study.

Processing your data for shortlisting and selection

Information about processing special category data for the purposes of positive action and using your data to assess your eligibility for funding , can be found in our Postgraduate Applicant Privacy Policy.

Admissions panels and assessors

All recommendations to admit a student involve the judgement of at least two members of the academic staff with relevant experience and expertise, and must also be approved by the Director of Graduate Studies or Admissions Committee (or equivalent within the department).

Admissions panels or committees will always include at least one member of academic staff who has undertaken appropriate training.

Other factors governing whether places can be offered

The following factors will also govern whether candidates can be offered places:

the ability of the University to provide the appropriate supervision for your studies, as outlined under the 'Supervision' heading in the About section of this page;
the ability of the University to provide appropriate support for your studies (eg through the provision of facilities, resources, teaching and/or research opportunities); and
minimum and maximum limits to the numbers of students who may be admitted to the University's taught and research programmes.

Offer conditions for successful applications

If you receive an offer of a place at Oxford, your offer will outline any conditions that you need to satisfy and any actions you need to take, together with any associated deadlines. These may include academic conditions, such as achieving a specific final grade in your current degree course. These conditions will usually depend on your individual academic circumstances and may vary between applicants. Our ' After you apply ' pages provide more information about offers and conditions .

In addition to any academic conditions which are set, you will also be required to meet the following requirements:

Financial Declaration

If you are offered a place, you will be required to complete a Financial Declaration in order to meet your financial condition of admission.

Disclosure of criminal convictions

In accordance with the University’s obligations towards students and staff, we will ask you to declare any relevant, unspent criminal convictions before you can take up a place at Oxford.

Academic Technology Approval Scheme (ATAS)

Some postgraduate research students in science, engineering and technology subjects will need an Academic Technology Approval Scheme (ATAS) certificate prior to applying for a Student visa (under the Student Route) . For some courses, the requirement to apply for an ATAS certificate may depend on your research area.

You will have access to:

experimental facilities, as appropriate to your research
IT support from both the Department of Biochemistry and University IT Services
library services such as the Radcliffe Science Library and the Cairns Library .

The provision of project-specific resources will be agreed with the relevant supervisor during the planning stages of the research project.

The Department of Biochemistry has in-house research facilities, including advanced fluorescence microscopy , advanced proteomic s, NMR spectroscopy , molecular biophysics , and crystallography .

There is the possibility to use facilities in other departments across the division and to access remote facilities at the Rutherford Appleton Laboratory, DIAMOND Light Source and Harwell Science and Innovation Campus.

Departmental seminars and colloquia bring students together with academic and other research staff in the department to hear about on-going research, and provide an opportunity for networking and socialising.

Biochemistry

The Department of Biochemistry comprises over 45 research groups and around 400 researchers and support staff, including more than 100 graduate students.

Oxford's Department of Biochemistry is a vibrant research and teaching department and benefits from state-of-the-art research facilities in its stunning purpose-built building occupied since 2008.

Research in the department is very broad and encompasses all aspects of modern molecular and cellular biochemistry, from atomic resolution biophysics to cell biology and imaging. The quality of research is outstanding, as demonstrated by an impressive publications output and the international standing of many of the department's researchers.

Research students reading for their DPhil or MSc by Research in the Department of Biochemistry are admitted to one of several programmes, either by the department or one of Oxford’s Doctoral Training Centres (DTCs).

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The University expects to be able to offer over 1,000 full or partial graduate scholarships across the collegiate University in 2024-25. You will be automatically considered for the majority of Oxford scholarships , if you fulfil the eligibility criteria and submit your graduate application by the relevant December or January deadline. Most scholarships are awarded on the basis of academic merit and/or potential.

For further details about searching for funding as a graduate student visit our dedicated Funding pages, which contain information about how to apply for Oxford scholarships requiring an additional application, details of external funding, loan schemes and other funding sources.

Please ensure that you visit individual college websites for details of any college-specific funding opportunities using the links provided on our college pages or below:

Please note that not all the colleges listed above may accept students on this course. For details of those which do, please refer to the College preference section of this page.

Further information about funding opportunities for this course can be found on the department's website.

Annual fees for entry in 2022-23


Home	£9,500
Overseas	£31,480

Further details about fee status eligibility can be found on the fee status webpage.

Information about course fees

Course fees are payable each year, for the duration of your fee liability (your fee liability is the length of time for which you are required to pay course fees). For courses lasting longer than one year, please be aware that fees will usually increase annually. For details, please see our guidance on changes to fees and charges .

Course fees cover your teaching as well as other academic services and facilities provided to support your studies. Unless specified in the additional information section below, course fees do not cover your accommodation, residential costs or other living costs. They also don’t cover any additional costs and charges that are outlined in the additional information below.

Continuation charges

Following the period of fee liability , you may also be required to pay a University continuation charge and a college continuation charge. The University and college continuation charges are shown on the Continuation charges page.

Where can I find further information about fees?

The Fees and Funding section of this website provides further information about course fees , including information about fee status and eligibility and your length of fee liability .

Additional information

There are no compulsory elements of this course that entail additional costs beyond fees (or, after fee liability ends, continuation charges) and living costs. However, please note that, depending on your choice of research topic and the research required to complete it, you may incur additional expenses, such as travel expenses, research expenses, and field trips. You will need to meet these additional costs, although you may be able to apply for small grants from your department and/or college to help you cover some of these expenses.

Living costs

In addition to your course fees, you will need to ensure that you have adequate funds to support your living costs for the duration of your course.

For the 2024-25 academic year, the range of likely living costs for full-time study is between c. £1,345 and £1,955 for each month spent in Oxford. Full information, including a breakdown of likely living costs in Oxford for items such as food, accommodation and study costs, is available on our living costs page. The current economic climate and high national rate of inflation make it very hard to estimate potential changes to the cost of living over the next few years. When planning your finances for any future years of study in Oxford beyond 2024-25, it is suggested that you allow for potential increases in living expenses of around 5% each year – although this rate may vary depending on the national economic situation. UK inflationary increases will be kept under review and this page updated.

Students enrolled on this course will belong to both a department/faculty and a college. Please note that ‘college’ and ‘colleges’ refers to all 43 of the University’s colleges, including those designated as societies and permanent private halls (PPHs).

If you apply for a place on this course you will have the option to express a preference for one of the colleges listed below, or you can ask us to find a college for you. Before deciding, we suggest that you read our brief introduction to the college system at Oxford and our advice about expressing a college preference . For some courses, the department may have provided some additional advice below to help you decide.

The following colleges accept students on the MSc by Research in Biochemistry:

Balliol College
Corpus Christi College
Exeter College
Green Templeton College
Hertford College
Jesus College
Lady Margaret Hall
Linacre College
Lincoln College
Magdalen College
Merton College
New College
Oriel College
Pembroke College
The Queen's College
Reuben College
St Anne's College
St Catherine's College
St Cross College
St Edmund Hall
St Hilda's College
St Hugh's College
St John's College
St Peter's College
Somerville College
University College
Wadham College
Wolfson College
Worcester College
Wycliffe Hall

Before you apply

We strongly recommend you consult the Medical Sciences Graduate School's research themes to identify the most suitable course and supervisor .

Our guide to getting started provides general advice on how to prepare for and start your application. You can use our interactive tool to help you evaluate whether your application is likely to be competitive .

If it's important for you to have your application considered under a particular deadline – eg under the December deadline in order to be considered for Oxford scholarships – we recommend that you aim to complete and submit your application at least two weeks in advance . Check the deadlines on this page and the information about deadlines and when to apply in our Application Guide.

Application fee waivers

An application fee of £75 is payable for each application to this course. Application fee waivers are available for the following applicants who meet the eligibility criteria:

applicants from low-income countries;
refugees and displaced persons;
UK applicants from low-income backgrounds; and
applicants who applied for our Graduate Access Programmes in the past two years and met the eligibility criteria.

You are encouraged to check whether you're eligible for an application fee waiver before you apply.

Readmission for current Oxford graduate taught students

If you're currently studying for an Oxford graduate taught course and apply to this course with no break in your studies, you may be eligible to apply to this course as a readmission applicant. The application fee will be waived for an eligible application of this type. Check whether you're eligible to apply for readmission .

Do I need to contact anyone before I apply?

Please refer to the list of supervisors and projects to identify areas of research that interest you as well as the contact details of potential supervisors. You are strongly encouraged to make contact with your proposed supervisor(s) in advance of applying. If you need help getting in touch with any of the research group leaders, please contact the department using the contact details provided on this page.

Completing your application

You should refer to the information below when completing the application form, paying attention to the specific requirements for the supporting documents .

For this course, the application form will include questions that collect information that would usually be included in a CV/résumé. You should not upload a separate document. If a separate CV/résumé is uploaded, it will be removed from your application .

If any document does not meet the specification, including the stipulated word count, your application may be considered incomplete and not assessed by the academic department. Expand each section to show further details.

Proposed field and title of research project

Under 'Proposed field and title of research project' enter the advertised research project codes of at least one, and up to three chosen supervisors. You should list them in order of preference or indicate equal preference. The project code is shown when you expand the section beneath each supervisor's name on the department's webpage. You should not use this field to provide your own research proposal.

Proposed supervisor

Under 'Proposed supervisor name' enter the names of at least one, and up to three, academics who you would like to supervise your research. You should list them in order of preference or indicate equal preference. The supervisors that you choose should correspond with the projects that you indicated in the previous section.

Referees Three overall, academic preferred

Whilst you must register three referees, the department may start the assessment of your application if two of the three references are submitted by the course deadline and your application is otherwise complete. Please note that you may still be required to ensure your third referee supplies a reference for consideration.

References should generally be academic though a maximum of one professional reference is acceptable where you have completed an industrial placement or worked in a full-time position. Your references will support intellectual ability, academic achievement, motivation, and your ability to work in a group.

Official transcript(s)

Your transcripts should give detailed information of the individual grades received in your university-level qualifications to date. You should only upload official documents issued by your institution and any transcript not in English should be accompanied by a certified translation.

More information about the transcript requirement is available in the Application Guide.

Statement of purpose/personal statement: A maximum of 500 words

You should provide a statement of your research interests, in English, describing how your background and research interests relate to the programme. If possible, please ensure that the word count is clearly displayed on the document.

The statement should focus on academic or research-related achievements and interests rather than personal achievements and interests.

This will be assessed for:

your reasons for applying;
evidence of motivation for and understanding of the proposed area of study;
the ability to present a reasoned case in English;
capacity for sustained and focused work; and
understanding of problems in the area and ability to construct and defend an argument.

It will be normal for students’ ideas and goals to change in some ways as they undertake their studies, but your personal statement will enable you to demonstrate your current interests and aspirations.

Start or continue your application

You can start or return to an application using the relevant link below. As you complete the form, please refer to the requirements above and consult our Application Guide for advice .

Application Guide Apply

ADMISSION STATUS

Closed to applications for entry in 2024-25

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Friday 1 December 2023 Latest deadline for most Oxford scholarships

A later deadline shown under 'Admission status' If places are still available, applications may be accepted after 1 December . The 'Admissions status' (above) will provide notice of any later deadline.

Key facts
	Full Time Only
Course code	RM_BC1
Expected length	1 to 3 years
Places in 2024-25^	See note
Applications/year*	60
Expected start
English language

^Included in 2024/25 places for the DPhil in Biochemistry *Three-year average (applications for entry in 2021-22 to 2023-24)

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202 Interesting Biochemistry Research Topics For Any Taste

Science-related courses are not everyone’s favorite. The few passionate and enthusiastic minds that delve into this field can also attest to its technical nature. With the intensive research, one has to perform biochemistry; it is no secret that professional assistance is inevitable. We have collated a list of the crème de la crème biochemistry research paper topics for your inspiration. Keep reading this post to the end to identify them and use one of them in your project today!or buy thesis online

What Are Biochemistry Research Topics?

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Biochemistry is a science-related field with roots in chemistry and biology – deals with the organic chemistry of compounds and processes occurring in organisms. This field seeks to understand biology within the context of chemistry.

Therefore when we talk about biochemistry research topics, we are dealing with all the relevant aspects of biochemistry. Such issues tend to identify problems in this field and try to bring out working solutions or recommendations in the end. Like any other research topic, these also seek to explore researched and least researched areas of biochemistry and add knowledge to the field.

Although most college and university students perceive this to be a daunting task, it is the reverse of it all. Biochemistry is something that we apply in our everyday life, and thus we can easily find such topics. Nonetheless, here are some concrete places you can begin your search from:

The biochemistry books on your library shelf Reputable online sites that major in biochemistry Articles, journals, conference papers, and orations on biochemistry Latest news headlines Previous theses and research papers on biochemistry

With all these sources, you are as prepared as a soldier for battle. Nothing can stop you from writing biochemistry topics that will yield top grades. For those who wish to have something to start them off, here are 202 of the best biochemistry project topics!

How chemical processes related to living organisms
Discuss the process of information flow through biochemical signaling
How does chemical energy flow through metabolism?
The role of biochemical processes in giving rise to the complexity of life
How biochemistry transformed botany and genetics in the 20 th century
Various health dangers of sodium chloride in food
The role of laboratory technicians in advancing research in biochemistry
How developing nations are making strides in the field of biochemistry
The impact of coronavirus on the study and application of biochemistry
The efficacy of catalysts and enzymes in biological reactions
Phytochemical analysis of the various dyes sold in the market today
How bleaching agents interact with the human skin
Effects of technological advances on the study of biochemistry in universities
The rate of employment among biochemistry graduates in the United States
Discuss the chemical compositions of potassium permanganate
An evaluation of the chemical processes involved in the extraction of oxygen from the air
Effects of methanol on the human lungs and liver
Factors that necessitate the oxidation of various metals
How factories can contribute to the Standard Development Goals on clean energy
Chemical activities involved in the rusting of metals
Why does steel remain stainless as compared to other metals?
The role of practical experiments in understanding biochemistry
How to detect Mycobacterium Ulcerans on the human skin
Discuss the environmental reservoirs of most biological enzymes and catalysts
Risks associated with researching in a biochemistry lab
The effect of ecological conditions on extracts used in the lab
Evaluate the alkaloidal isolates of a plant
Analyze the various anti-inflammatory medicinal plants found in the tropical regions
Investigate the process of producing pro-inflammatory eicosanoids
What is the therapeutic action of anti-inflammatory medicinal plants?
The impact of herbal preparations on treating skin diseases
How to destabilize Lysozyme activity
The impact of various temperature ranges on enzyme activity
What is the role of alpha crystalline in a concentration?
Factors that necessitate insulin resistance in human bodies
Biochemistry experiments that have helped in treating cardiovascular diseases
What is the relationship between T2DM and a high level of hepcidin?
Factors that necessitate the regulation of iron homeostasis
Evaluate the pathogenesis of diabetes and its complications
The impact of maternal serum on pregnant women
How to determine the amount of protein in the urine
Discuss the release of placental toxic factors and their impact on blood circulation
Evaluate the toxicological effects of Desmodium Adscendens in rats
The impact of high doses of the freeze-dried extracts on biochemical reactions
How to preserve plant extracts for biochemical experiments
Discuss the various pathogenic risks associated with breast cancer
An analysis of the multi-factorial diseases among women in the United States
Biological factors that necessitate promoting tumor growth
Evaluate the role of immunoglobulin G receptors in the study of clinical malaria
How to determine the antigen-binding capabilities of the receptors
A biochemical perspective of the gene encoding process for receptors
Molecular methods of investigating variations in genes: A case study of PCR
Biological processes that cause the inflammation of the intestinal mucosa
The role of Rotaviruses in causing Acute gastroenteritis (AGE) among children
How iron Chelators affect the various bloodstream forms of Trypanosoma Brunei
Discuss how clinicians determine the effectiveness of a particular drug
Evaluate the emergence of drug resistance among pregnant mothers
Alternative forms of therapy to drug toxicity in humans
How iron Chelators deferoxamine exhibits itself in Trypanosoma Brunei
Factors that inhibit cell growth and interfere with the activity of iron-dependent enzymes
Discuss the vitro effects of phenolic acids
The impact of variant frequencies in biochemical reactions
Biochemical processes that may lead to severe coronary malfunctions
Genetic factors associated with variability in individuals
How do different people respond to various vaccines during the clinical trials stage
The method of initiating a new drug in a patient
Evaluate the biochemical properties of the coronavirus
The role of sewage sources and disposal points in contributing to the survival of pathogens
How to determine relative molecular weights in the lab
The susceptibility of bacteria to antibiotics
Compare and contrast herbal preparations and scientific research processes
How to isolate pathogens from various food sources
Discuss the efficacy of using the indicator bacteria strains
How electron microscopy helps in isolating viruses and bacteria
The interrelationship between cellular and molecular biology
Discuss the genetic models for understanding regulatory mechanisms for homeostasis
What are the tools that regulate the cell population?
How to deal with pathologic disorders: A case study of Osteoporosis
Biochemical inferences to metastatic bone disease
How to discover embryonic malformations in pregnant women
Factors that disrupt signaling pathways and transcription factor networks
Evaluate various bone tissue from humans and animals
A technological analysis of genetic and proteomic processes
Discuss the various strides made in vivo molecular imaging
The role of scanning and electron microscopy in biochemistry
Effects of high-resolution micro-computed tomography in determining the accuracy of biochemical experiments
How to detect defects in cell biology: A case of soft tissue sarcoma
Investigate the advancements made in cell growth regulation
Discuss the epigenetic and genetic regulation of oncogenes
Analyze the factors that regulate the cell cycle
How to control the segregation of chromosomes
Why scientists need to govern cell motility
Discuss the relationship between nuclear structure and chromatin structure
Explore how the nucleus organizes nucleic acid metabolism architecturally
How to determine the atomic matrix of an RNA
What causes the nuclear lamina to have interconnected structures?
Discuss the process of DNA replication in a laboratory
What makes the RNA transcription process a complex one?
How to package DNA into active or silenced chromatin
How changes in the RNA and DNA cause diseases such as cancer
Discuss the kinetic characterization of the homeostasis process
How to determine the structure of new clotting factors
Effects of platelets in the identification of genetic risk markers
Why enzymes are necessary for almost every aspect of biochemistry
Discuss the process of recognizing a substrate by an enzyme
Evaluate the quantitative and structural approach to the study of enzymes
How to determine if selenium contains enzymes
Analyze the co-factors and enzymes involved in the coagulation cascade
Why structural biology should be a core research discipline in colleges
Analyze the X-ray structures of iron-binding in proteins
Factors that lead to the clotting of blood in humans
What are the DNA-protein complexes that are necessary for replication?
Discuss the regulation mechanisms of the transcriptional process
The role of synthetase – tRNA complexes
Discuss the assembling and regulation procedures of the DNA replication fork
How a synthetase distinguishes among dozens of tRNA species
The process of repairing DNA double-strand breaks
What goes on in the RNA transcription process?
The necessity of recombination in predicting the stability of genomes
Discuss the molecular processes involved in carcinogenesis
How to design new anti-tumor agents
Experimental approaches to determining the instability of genomes
Discuss site-directed mutagenesis of protein components
Biochemical analysis of DNA synthesis
Evaluate the properties of eukaryotic RNA polymerases
The role of transcription factors in biochemistry
What goes on in ATP-dependent chromatin remodeling?
Discuss the various structural proteins that comprise the chromatin
How to regulate transcription initiation and elongation
Factors that affect post-transcriptional regulation of gene expression
How to determine the active sweet components of artificial sweeteners
A comparative analysis of serum calcium levels in geriatric men
How to extract nutrients from plants
Evaluate the nutritional profile of vegetables: A case of spinach
How to produce starch from cassava
Evaluate the phytochemical properties of soap
Factors that lead to microbial food spoilers
How to determine biochemical parameters in the laboratory
A critical examination of Escherichia Coli in fecal pollution
Discuss the chemical compositions of water near a lead industry
Physic-chemical properties of yams and arrowroots
The impact of supplementing the body with vitamins
Effects of having fluorides in drinking water on the teeth
The implication of acid rain to surrounding building structures
Discuss the process of methanol leaf extraction
The role of high-fat diets in causing obesity and heart diseases
Concepts of analytical biochemistry
Biotechnology and applied biochemistry
How to produce deodorants using pawpaw leaves
What causes the spontaneous flow of active polar gels?
Discuss gene encoding in sorghum and cassava
What causes destabilization in lysosomes?
Evaluate some of the physicochemical processes that occur in living organisms
Discuss the conditions that necessitate antibacterial activity of Thymus Vulgaris
What are the optimum conditions for aqueous and ethanol extracts?
How Cadmium affects humans and the surrounding environment
Evaluate the fungal pathogens associated with tomatoes spoilage
The role of taxonomic groupings in biochemistry
How to produce protease using Aspergillus Flavus
The process of extracting medicinal components of plants
Effects of ethanol in causing corrosion
The role of watermelon in fighting viral activities
Plant science and medicine
Structure of molecules
Chemicals responsible for the immune system
Cells accountable for body defense
Why are pathogens dangerous?
Energy release from bonds
Structure of organelles
How coordination occurs in various components of cells
How the conversion of glucose occurs
Process of heat generation
Chemical effects of diseases
Functions of bio elements
The study of respiration
How to extract energy from food
Compounds necessary for body growth and development
How to diagnose diseases using various biochemical procedures
Why plant sugars are necessary for the process of photosynthesis
How carbon dioxide enters the leaves through stomata
The role of mitochondria, nucleus, Golgi bodies, and endoplasmic reticulum in the study of cell biology
Discuss the functioning of various molecules of life
Discuss the role of food additives in changing the way bacteria grows and develops
How to determine mutation in the structure of the DNA of bacteria
Discuss the process of deciding on a pregnancy test through urine samples
How to detect potential genetic defects in the fetus
Discuss the chromosomal abnormalities that lead to Down syndrome
How the absence of enzymes in the body leads to metabolic disorders
How biochemists insert the gene for human insulin into bacteria during genetic engineering
The process of creating genetically identical organisms through cloning
Evaluate the procedure of replacing a disease-causing gene through gene therapy
Analyze the various properties and reactions of compounds in animals
How to utilize compounds for body growth and development
The study of plant biochemistry: A case study of respiration and Glycolysis
How the structure of molecules affect metabolic reactions
Describe the process of speeding up reactions by enzymes
Discuss how catabolism and anabolism lead to the breaking down of larger molecules
What are the various mechanisms of reactions that cause pollution?
What are some of the emerging ethical and legal trends in biochemistry?
How the study of biochemistry supports our understanding of diseases and health
Discuss the contribution of biochemistry to innovative information and technological revolution
The role of biochemistry in determining policies and legal standards: A case study of coronavirus

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35+ Amazing Biochemistry Project Topics To Boost Your Skills

Biochemistry is a rapidly-evolving field that has made incredible strides in understanding the molecular processes that underpin life. As such, there are a wealth of exciting and novel research projects available to students interested in pursuing a career in biochemistry.

In this blog, we’ll take a deep dive into some of the most cutting-edge biochemistry project topics that are currently being explored in labs around the world. We’ll explore everything from the latest techniques in synthetic biology and metabolic engineering to new drug design strategies, and discuss how these projects are helping to advance our understanding of the underlying biology.

What is Biochemistry?

Table of Contents

Biochemistry is the branch of science that studies the chemical processes and substances that occur within living organisms. It focuses on the chemical reactions and interactions that take place at the molecular level, including the structure and function of biomolecules such as proteins, carbohydrates, lipids, and nucleic acids.

Biochemists work to understand the mechanisms that govern the behavior of these biomolecules, and how they contribute to the overall functioning of living systems. They investigate everything from the synthesis and breakdown of complex biomolecules to the regulation of metabolic pathways and the interactions between different cellular components.

The knowledge gained from biochemistry research has numerous applications, including the development of new drugs and therapies, the design of new materials and biomolecules, and the optimization of industrial processes. Biochemistry also has important implications for understanding human health and disease, as many diseases are caused by abnormalities in biochemical processes.

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Significance of Biochemistry Project Topics

Biochemistry projects are significant for a number of reasons, including:

Advancing scientific knowledge

Biochemistry projects provide opportunities for researchers to make new discoveries and gain a deeper understanding of the underlying biochemical mechanisms that govern living systems. This knowledge can be applied to a wide range of fields, from drug design to agriculture to environmental science.

Developing new technologies

Biochemistry projects often involve the development of new technologies and techniques, such as genetic engineering or protein synthesis. These technologies can have wide-ranging applications and may lead to the development of new products or processes.

Improving human health

Biochemistry projects can have a significant impact on human health by leading to the development of new drugs or therapies. For example, biochemists may investigate the molecular mechanisms underlying a particular disease and develop a drug that targets those mechanisms, leading to more effective treatments.

Addressing environmental challenges

Biochemistry projects can also be used to address environmental challenges, such as developing new methods for cleaning up pollutants or improving the efficiency of renewable energy sources.

Providing opportunities for education and career development

Biochemistry projects can provide valuable educational opportunities for students at all levels, from high school to graduate school. They can also lead to career opportunities in academia, industry, and government, as biochemists are in high demand in many fields.

6 Elements Of Biochemistry Project You Must Know

Biochemistry projects typically involve several key elements, including:

Background research

Before beginning a biochemistry project, it’s important to thoroughly research the topic to gain a solid understanding of the current state of knowledge in the field. This may involve reading scientific literature, attending lectures or seminars, and consulting with experts in the field.

Hypothesis development

Once background research is complete, researchers typically develop a hypothesis to guide their investigations. This hypothesis should be testable and based on the available evidence.

Experimental design

Biochemistry projects often involve conducting experiments to test the hypothesis. This may involve designing experiments to test the effects of different variables or to compare different treatments. Experimental design should be carefully thought out to ensure that the results are meaningful and informative.

Data collection and analysis

Once experiments are underway, data must be collected and analyzed to determine whether the hypothesis is supported or not. This may involve using statistical methods to analyze data and draw conclusions from the results.

Conclusion and interpretation

After the data is analyzed, researchers must draw conclusions from the results and interpret what they mean in the context of the hypothesis. This may involve developing new hypotheses or refining existing ones based on the results.

Communication

Finally, biochemistry projects typically involve communicating the results to others. This may involve writing a scientific paper, giving a presentation at a conference or seminar, or publishing findings in a scientific journal. Effective communication is critical to ensure that the results are understood and can be used to inform future research.

How to Choose Biochemistry Project Topics

Choosing a biochemistry project topic can be challenging, but there are several strategies you can use to identify a promising area of investigation. Here are a few tips:

Identify your interests

Start by thinking about the areas of biochemistry that interest you the most. This could be anything from protein synthesis to metabolic pathways to genetic engineering. By focusing on an area of interest, you are more likely to be motivated and engaged throughout the project.

Consider current research

Look at the latest research in biochemistry to identify areas that are currently being investigated. This can help you identify areas where there is a gap in knowledge or where new techniques or technologies are being developed.

Identify a research question

Once you have identified an area of interest, develop a research question that can guide your investigation. This should be a clear and specific question that can be answered through experimentation or analysis of existing data.

Consult with your advisor

T alk to your advisor or a mentor in the field to get their input on potential project topics. They may be able to provide valuable insights into areas that are particularly promising or areas where there is a need for further investigation.

Consider practical considerations

Finally, consider practical considerations such as the availability of resources or the feasibility of conducting experiments in a particular area. You want to choose a project topic that is challenging but achievable given the time and resources available.

Here in this section we will explain more than 35 biochemistry project topics that will boost your skills which are as follows:

Protein folding and misfolding

Investigating the molecular mechanisms underlying protein folding and misfolding, and how this can lead to diseases such as Alzheimer’s and Parkinson’s.

Enzyme kinetics

Studying the kinetics of enzyme-catalyzed reactions, and how factors such as temperature and pH affect enzyme activity.

Metabolic pathways

Investigating the regulation of metabolic pathways in living systems, and how this can be used to develop new drugs or therapies.

Lipid metabolism

Exploring the mechanisms underlying lipid metabolism, including the synthesis and breakdown of lipids, and how this relates to metabolic disorders such as obesity and diabetes.

Molecular imaging

Developing new methods for visualizing molecules and molecular processes in living systems, including the use of fluorescent tags and advanced microscopy techniques.

Studying the function and regulation of proteins on a large scale, including the use of mass spectrometry to identify and quantify proteins in complex mixtures.

DNA damage and repair

Investigating the molecular mechanisms underlying DNA damage and repair, and how this relates to cancer and other diseases.

Genetic engineering

Developing new methods for manipulating genes and genomes, including the use of CRISPR-Cas9 and other genome editing technologies.

Glycobiology

Studying the structure and function of carbohydrates and their role in biological processes, including the development of new glycan-based therapies.

Investigating the physical properties of biological molecules and their interactions, including the use of techniques such as X-ray crystallography and nuclear magnetic resonance (NMR) spectroscopy.

Bioinformatics

Developing new computational methods for analyzing biological data, including the use of machine learning and other artificial intelligence techniques.

RNA biology

Studying the structure and function of RNA molecules, including their role in gene expression and regulation.

Cell signaling

Investigating the molecular mechanisms underlying cell signaling pathways, and how these pathways can be manipulated to treat diseases.

Cancer metabolism

Exploring the metabolic changes that occur in cancer cells, and how these changes can be targeted for therapy.

Drug discovery

Developing new drugs and therapies based on a better understanding of biological processes and molecular mechanisms.

Biomaterials

Developing new materials for use in biomedical applications, including drug delivery, tissue engineering, and biosensors.

Studying the metabolic pathways involved in energy production in living systems, including the development of new methods for producing biofuels.

Protein-protein interactions

Investigating the molecular mechanisms underlying protein-protein interactions, and how these interactions can be manipulated for therapeutic purposes.

Mitochondrial biology

Studying the function and regulation of mitochondria, including their role in energy production and metabolism.

Nanobiotechnology

Developing new nanoscale materials and devices for use in biological applications, including drug delivery and sensing.

Structural biology

Investigating the structure and function of biological molecules at the atomic level, including the use of X-ray crystallography and cryo-electron microscopy.

Biochemistry of aging

Exploring the molecular mechanisms underlying aging and age-related diseases, and how these processes can be targeted for therapeutic interventions.

Protein engineering

Developing new methods for engineering proteins with specific functions or properties, including the use of directed evolution and computational design.

Plant biochemistry

Studying the biochemical processes that occur in plants, including photosynthesis, respiration, and secondary metabolite biosynthesis.

Biomolecular simulations

Using computational simulations to model and predict the behavior of biological molecules and systems.

Drug metabolism

Investigating the metabolic pathways involved in drug metabolism, including the role of enzymes such as cytochrome P450, and how this can affect drug efficacy and toxicity.

Epigenetics

Studying the mechanisms by which gene expression is regulated, including the role of epigenetic modifications such as DNA methylation and histone acetylation.

Synthetic biology

Developing new biological systems or organisms with specific functions, including the engineering of biosensors, bioreactors, and biocomputers.

Neurochemistry

Investigating the chemical processes that occur in the nervous system, including the mechanisms underlying neurotransmitter synthesis and release.

Environmental biochemistry

Studying the biochemical processes that occur in the environment, including bioremediation, nutrient cycling, and the degradation of pollutants.

Membrane biochemistry

Investigating the structure and function of biological membranes, including the transport of molecules across membranes and the role of membrane proteins.

Studying the molecular mechanisms underlying the immune system, including the production and function of antibodies and the role of cytokines and chemokines in immune response.

Microbial biochemistry

Investigating the biochemistry of microorganisms, including their metabolism, growth, and adaptation to different environments.

Metabolomics

Studying the metabolic profile of biological systems, including the use of mass spectrometry and other analytical techniques to identify and quantify metabolites.

Nutritional biochemistry

Investigating the role of nutrients and other dietary factors in human health and disease, including the metabolism of macronutrients such as carbohydrates, fats, and proteins.

Enzyme engineering

Developing new methods for engineering enzymes with specific functions or properties, including the use of directed evolution and protein engineering techniques.

Metalloprotein biochemistry

Studying the role of metal ions in biological processes, including the function of metalloproteins such as hemoglobin, myoglobin, and cytochrome c.

These are just a few examples of the many potential biochemistry project topics. The field of biochemistry is vast and constantly evolving, offering many exciting avenues for investigation and discovery. The key is to identify an area of interest and develop a research question that can guide your investigation.

What To Consider When Choosing Biochemistry Project Topics

When choosing a biochemistry project topic, there are several factors to consider. Here are a few things to keep in mind:

Your interests

Choose a topic that you find interesting and engaging. This will help keep you motivated throughout the project and ensure that you enjoy the research process.

Feasibility

Consider the feasibility of your project in terms of time, resources, and equipment. Make sure that you have access to the necessary materials and equipment, and that you have enough time to complete the project within your timeframe.

Choose a topic that has not been extensively studied before, or one that builds on previous research in a new and innovative way. This will help your project stand out and contribute to the field of biochemistry.

Choose a topic that is relevant to current issues in the field of biochemistry, such as emerging research trends or topics of public health importance.

Collaborations

Consider opportunities for collaboration with other researchers or organizations in the field. Collaborations can enhance your project and provide new perspectives on your research question.

Ethical considerations

Consider ethical issues related to your project, such as the use of human or animal subjects, and ensure that your research follows ethical guidelines and regulations.

How To Make Your Biochemistry Project Worth It

Making your biochemistry project worth it involves several key steps:

Set clear goals

Identify the specific goals and objectives of your project, and ensure that they align with your research question and hypothesis. This will help keep your project focused and ensure that you are making progress towards a specific outcome.

Develop a solid research plan

Create a detailed research plan that outlines the methods and techniques you will use to gather data, analyze results, and draw conclusions. This will help ensure that your project is well-structured and that you are collecting high-quality data.

Utilize appropriate methods and techniques

Use appropriate methods and techniques for data collection and analysis that are relevant to your research question. This will help ensure that your results are reliable and accurate.

Collaborate with other researchers

Communicate your findings.

Communicate your research findings effectively through scientific publications, presentations, or other forms of outreach. This will help ensure that your research has a broader impact and contributes to the field of biochemistry.

Reflect on your experience

Reflect on your research experience and identify areas for improvement or future research questions. This will help ensure that your project has lasting value and can inform future research in the field.

This is the end of this post which is about Biochemistry Project Topics. On the other hand, undertaking a biochemistry project is an excellent opportunity for students to gain valuable experience in scientific research and contribute to the field of biochemistry.

By selecting the right project topic, developing a solid research plan, and effectively communicating your findings, you can make a meaningful contribution to the field and enhance your skills and knowledge in biochemistry. Furthermore, in this post we mentioned more than 35 Biochemistry Project Topics so that you can enhance your skills.

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Biochemistry Final Year Project Research Topics

Biochemistry Project Topic: Choosing undergraduate research in biochemistry is like putting your whole study in to the research. Biochemistry project topics demands practical experiments with real specimen and samples which must result to a desire result. Project topics in biochemistry would have to be backed up by research proposal which presents the typology which the research will yield in the end of the research. Without exceptions, biochemistry project topics are also subject to screening by the project supervisors or the project coordinator. Research topics in biochemistry are usually born through cross examination, experiments and close examination of sample specimen that have been on watch for a period of time. Drafting biochemistry project topics for research is one of the most realistic and daring moves undergraduates of this department would have made.

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90 Captivating Biochemistry Project Topics: Your Path to Discovery

Discover captivating biochemistry project topics that delve into the secrets of life’s molecular mysteries. Explore enzyme magic, disease unraveling, and future-shaping science adventures. Unveil the hidden world of biochemistry and its potential to transform our understanding of health, the environment, and beyond.

Picture this: A world where the tiniest building blocks create the grand tapestry of life. Biochemistry, the captivating realm where molecules dance and genes whisper secrets, is your ticket to explore this wonderland.

For students, it’s not just a subject but a journey—a hands-on adventure that unveils the magic behind life’s chemistry. In this article, we’re going to embark on that adventure and discover a treasure trove of biochemistry project topics.

These projects are like portals to a world where scientific curiosity reigns supreme, where questions sprout, and answers bloom. So, are you ready to don your lab coat and embark on a biochemical quest that’ll leave you in awe? Let’s dive right in!

Table of Contents

Selecting the Right Biochemistry Project

Embarking on the selection of an optimal biochemistry project demands a strategic approach, harmonizing individual interests, competencies, and the prospective societal impact of the chosen endeavor. Here is a systematic guide to navigate the discernment of a biochemistry project:

Ascertain Personal Interests

Commence with a meticulous exploration of personal interests within the expansive sphere of biochemistry. Whether it be the intricate world of enzymology, the nuances of molecular biology, or the complexities of metabolism, a nuanced understanding of individual passions forms the bedrock for a judicious project selection.

Evaluate Proficiency Levels

Undertake a comprehensive self-assessment of prevailing skills and knowledge. Opt for a project that not only aligns seamlessly with current competencies but also presents opportunities for the cultivation and refinement of skills.

Review Available Resources

Deliberate on the array of resources within the laboratory setting, encompassing state-of-the-art equipment, specialized chemicals, and mentorship. Opt for a project that seamlessly integrates with the available resources, ensuring a streamlined execution of research initiatives.

Define Project Scope

Precisely articulate the scope of the project, delineating whether it involves a concise and targeted experiment, an extensive literature review, or a more protracted and intricate research study. A meticulous delineation of the project scope is paramount for effective project management.

Consider Real-world Impact

Ponder the potential real-world ramifications of the selected project. Assess its efficacy in addressing specific challenges, contributing substantially to existing knowledge, or presenting practical applications. Projects with tangible real-world implications invariably accrue added significance.

Seek Guidance from Mentors

Solicit counsel from seasoned mentors, esteemed professors, or advisors steeped in the nuances of biochemistry. Their sagacious insights and wealth of experience can furnish invaluable guidance, steering attention toward projects that seamlessly align with both individual capabilities and broader research objectives.

Stay Informed on Current Research

Cultivate a keen awareness of the latest advancements and trends in biochemistry. This ongoing cognizance facilitates the identification of cutting-edge topics and nascent areas meriting further exploration.

Explore Collaborative Opportunities

Delve into the prospect of collaborative endeavors, involving peers or distinguished researchers. Collaborative initiatives inject a diversity of perspectives, additional resources, and invariably contribute to the overall success and richness of the project.

Balance Complexity and Feasibility

Strike a discerning balance between the intellectual stimulation inherent in selecting a project of commensurate complexity and ensuring its feasibility within the allocated timeframe and the constraints of available resources.

Consider Intrinsic Motivation

Conclude the selection process by accounting for intrinsic motivation. Opt for a project that resonates not only with academic and professional objectives but also kindles a profound passion for the subject matter.

The quintessential biochemistry project seamlessly converges individual aspirations, competencies, and available resources, culminating in a rewarding and triumphant research expedition.

Biochemistry Project Topics

Check out biochemisty project topics:-

Unlocking the Secrets of Enzymes: How pH Influences Their Magical Chemistry
Enzymes on Steroids: Turbocharging Catalysis Through Molecular Biology Tricks
Metal Ions: The Maestros of Enzyme Activation and Drama Queens of Inhibition
Enzymes in the Spotlight: Backstage Pass to Intriguing Cellular Signaling Dances
Eco-Friendly Cleanup Crew: Enzymes Tackling Environmental Pollutants Rock Concert
Cooking Up Bioactive Goodness: Enzymatic Synthesis Takes Center Stage
Beyond the Basics: Allosteric Enzymes’ Jazz Improv in the Biochemical Orchestra
Thermophilic Enzymes vs. Regulars: A Biochemical Smackdown
Enzymes in Industry: Where Challenges Meet Innovations in Process Choreography
Enzyme Inhibition: The Intriguing Dance of Biochemical Brakes
Tumor Metabolism: Biochemical Detectives on the Trail of Cancer’s Sneaky Plans
Xenobiotics: Metabolic Heroes in a Biochemical Detox Adventure
Metabolic Symphony: When Immune Cells Pick Up the Biochemical Baton
Metabolic Wonders in Extremophiles: The Biochemical Marvels of Thriving in Extremes
Metabolic Syndrome Unveiled: Biochemical Clues and the Search for Super Solutions
Dietary Lipids and Hearts: A Biochemical Love Story with Twists and Turns
Metabolic Jigsaw: Systems Biology Pieces Together the Puzzle
Stem Cells’ Biochemical Playlist: Controlling Fate in a Regenerative Melody
Biochemical Rollercoaster: Exploring Metabolic Twists in Neurodegenerative Rides
Metabolic Engineering: Brewing Bioproducts in the Biochemical Lab

Molecular Biology

CRISPR-Cas Systems: Gene Editing Rockstars Shaping the Biochemical Playlist
Non-coding RNAs: The Untold Storytellers in the Biochemical Tale
Telomeres: The Biochemical Hourglasses of Aging Secrets
DNA Repair: The Biochemical Superheroes Fixing Our Genetic Typos
Next-Gen Sequencing: Biochemical Adventures in the Land of Genomic Giants
Ribozymes: The Biochemical Maestros Conducting Cellular Harmony
Protein Misfolding Diseases: The Biochemical Mysteries of Alzheimer’s and Parkinson’s
CRISPRi and CRISPRa: Gene Expression Biochemical DJs at the Cellular Party
Transcription Factors: Biochemical Architects Shaping Cellular Skyscrapers
Synthetic Biology: Biochemical Ingenuity Crafting Biological Marvels

Protein Structure and Function

Membrane Proteins: The Biochemical Architects Crafting Cellular Fortresses
Chaperones: Biochemical Bodyguards Folding Proteins in VIP Style
Protein Misfolding: The Biochemical Drama Behind Diseases’ Curtain
Post-Translational Marvels: Biochemical Artists Decorating Protein Canvases
Enzyme Catalysis: A Biochemical Symphony Conducted by Molecular Maestros
Disordered Proteins: Biochemical Rebels Shaping Cellular Destiny
Protein-Protein Tango: Biochemical Dances in the Cellular Ballroom
X-ray Crystallography: Biochemical Sleuths Decoding Structural Mysteries
Structural Bioinformatics: Biochemical Blueprints in the Digital Age
Protein Therapeutics: Biochemical Heroes in the Biomedical Saga

Cell Signaling

Kinases’ Biochemical Ballet: Dance of Cellular Signaling Choreographers
Wnt and Notch: Biochemical Soap Opera of Developmental Twists and Turns
G Protein-Coupled Receptors (GPCRs): Biochemical Heartthrobs in Drug Discovery
Cancer’s Biochemical Telegram: Intracellular Signaling’s Sneaky Morse Code
Reactive Oxygen Species: Biochemical Fireworks and Cellular Drama
Nutrient-Sensing Pathways: Biochemical Maestros in the Metabolic Orchestra
Neuronal Signal Dance: Biochemical Rhythms in Neurological Choreography
Autophagy and Signaling: Biochemical Harmony in Cellular Cleanup
JAK-STAT Biochemical Play: Immune Responses Unveiled
MAPK Signaling: Biochemical GPS Navigating Cells Through Stressful Terrain

Biochemical Analysis Techniques

Mass Spectrometry’s Biochemical Circus: Profiling Molecules in the Metabolic Big Top
Circular Dichroism Spectroscopy: Biochemical Light Shows in Protein Spectacles
Single-Cell RNA Sequencing: Biochemical Voyages into Cellular Diversity
NMR: Biochemical Spyglass Peering into Biomolecular Secrets
High-Throughput Screening: Biochemical Blockbusters in Drug Discovery
Microarrays: Biochemical Canvas Painting the Genomic and Proteomic Picture
Capillary Electrophoresis: Biochemical Sleuth Tracking Molecules’ Electric Steps
Surface Plasmon Resonance: Biochemical Love Stories Between Molecules
Live Cell Imaging Technologies: Biochemical Fluorescent Tales
Biochemical Assays: Counting Molecules and Telling Tales in the Cellular Biochemical Book

Medical Biochemistry

Biomarkers: Biochemical Trailblazers in Alzheimer’s Early Detection
Personalized Medicine: Biochemical Tailoring of Drug Treatments
Inflammation’s Biochemical Symphony: Notes from Cardiovascular Disease
Oxidative Stress Unveiled: The Biochemical Villain in Diabetes
Cancer’s Biochemical Calling Card: Metabolic Markers Shouting Prognosis
Autoimmune Diseases: Biochemical Conspiracies and the Body’s Internal Wars
Pharmacogenomics: Biochemical Dialogues Between Genetics and Drug Response
Antimicrobial Resistance: The Biochemical Battle of the Bugs
Lipidomics in Cardiovascular Health: Biochemical Tales of Lipids in Harmony
Gut Microbiome’s Biochemical Opera: Microbes and Metabolic Health

Environmental Biochemistry

Heavy Metal Jamboree: Biochemical Dance of Soil Cleanup Strategies
Microbial Cleanup Crew: Biochemical Heroes Battling Pollutants
Plants vs. Pollution: Biochemical Strategies in the Air Quality Battlefield
Ecoenzymes: Biochemical Maestros Conducting Environmental Symphonies
Biochemical Detectives: Indicators Telling Tales of Water Quality Adventures
Biofilms: The Biochemical Drama of Microbial Communities
Soil Health: Biochemical Checkups for Agricultural Vitality
Nutrient Cycling’s Biochemical Globe Trot: A Terrestrial Odyssey
Bioremediation Biochemistry: The Enzymatic Cleanup Crew for Petroleum Spills
Wastewater Biochemistry: The Biochemical Ballet of Water Treatment

Nutritional Biochemistry

Micronutrient Adventure: Biochemical Secrets of Nutrient Absorption in the Gut
Dietary Fiber Fiesta: Biochemical Explorations of Gut Microbiota Interactions
Nutrigenomics: Biochemical Storytime of How Genes Respond to Our Diets
Antioxidant Extravaganza: Biochemical Heroes in Foods Saving the Day
Omega-3 Fatty Acids: Biochemical Romance with Heart Health
Vitamin D’s Biochemical Sunlight: Illuminating Bone Health Secrets
Phytochemicals Unveiled: Biochemical Potions and Plant Superpowers
Protein Quality Jamboree: Biochemical Dance of Muscles and Molecules
Iron Metabolism: Biochemical Quest for Anemia Solutions
Gut Microbiome’s Biochemical Buffet: A Feast of Nutrient-Microbe Interactions

Benefits of Biochemistry Projects

Check out the benefits of biochemistry projects:-

Master the Art of Juggling: Picture yourself in a circus, juggling multiple balls at once. That’s what managing a biochemistry project can feel like. Stay organized, keep those balls in the air, and don’t drop them!
Goal-Getter Mindset: Set your project goals like treasure maps. The clearer the map, the easier it is to navigate the challenges along the way. X marks the spot, right?
MacGyver Moves: Think of your biochemistry project like an episode of the classic TV show “MacGyver.” Be resourceful, and when you’re faced with a challenge, channel your inner MacGyver to find creative solutions.
Team Power: Biochemistry projects are often team efforts. It’s like assembling the Avengers – effective communication and teamwork can save the day.
Resourceful Explorer: Imagine you’re on a desert island with limited supplies. Use what you have wisely. Resourcefulness can turn scarcity into success.
Adapt Like a Chameleon: In the wild world of biochemistry, expect the unexpected. Be the chameleon that changes colors to blend in. Adapt to surprising results and equipment mishaps.
Time Juggler: Imagine your time as a circus act – you need to juggle your research, classes, and a social life. Create a well-rehearsed routine to ensure nothing hits the ground.
Literature Detective: Biochemistry is like being a detective in a thrilling mystery novel. Keep up with the latest clues (research papers) to stay ahead of the game.
Wise Yoda Mentors: Everyone needs a Yoda to guide them. Seek out mentors who can provide wisdom and Jedi-like insight into your research journey.
Self-Care Ninja: Think of self-care as your secret ninja training. Rest, relaxation, and a good work-life balance are your ninja tools to stay strong.
Funding Quest: Securing funding is like going on a treasure hunt. Write grant proposals with the flair of an adventure novel and uncover hidden treasure chests of funding.
Data Sorcerer: Become a wizard with data. Develop magical data analysis skills to conjure meaningful results from the chaos of raw data.
Never Say Die: Picture yourself in an epic movie. No matter how tough the journey, you’re the hero who never gives up. Remember, every obstacle is a plot twist in your story.
Communication Showstopper: Biochemistry is your stage, and you’re the star of the science show. Communicate your discoveries like an Oscar-winning performance.
Mini-Celebrations: Along your research adventure, celebrate like a champion when you reach small milestones. It’s like leveling up in a video game.
Failure to Success: Every great scientist has a ‘blooper reel.’ Instead of fearing failure, consider it part of your journey to success.
Science Socialite: Network like you’re at the coolest party in town. Connect with fellow scientists for support, collaboration, and fun science chats.
Stay in the Sci-Loop: Imagine biochemistry as a never-ending roller coaster of discovery. Stay on the ride by staying up to date with the latest research and technologies.
Feedback Chameleon: When you receive feedback, morph into a chameleon and adapt to improve your work.
Fuel the Fire: Keep the flames of curiosity burning. Your enthusiasm is the secret sauce that makes your project sizzle!

Remember, every challenge you face in your biochemistry project is an opportunity for adventure and growth. Embrace the journey, and you might discover hidden treasures of knowledge and innovation along the way!

What are the 5 examples of biochemistry?

Check out the 5 examples of biochemistry:-

1. Enzyme Extravaganza

Picture this: enzymes as the maestros of cellular symphonies! They conduct biochemical reactions with flair, especially in the belly orchestra where they jam out to break down our meals into a gastronomic masterpiece.

2. DNA Dance Party

Enter the DNA replication disco! Enzymes are the DJs, orchestrating the groove as the DNA molecule unwinds and replicates like dance partners ensuring a flawless genetic dance-off for the next cellular generation.

3. Cellular Respiration Rendezvous

Cellular respiration is like the energetic salsa of cells! Enzymes spice things up, breaking down glucose into ATP—the energy currency. It’s a rhythmic biochemical dance, with glucose taking center stage and ATP stealing the show.

4. Protein Synthesis Soiree

Get ready for the protein synthesis shindig! DNA is the DJ, spinning the tunes for the transcription of mRNA and translation into proteins. Enzymes and cellular machinery join the party, ensuring every move is a perfectly choreographed biochemical boogie.

5. Photosynthesis Picnic

Join the botanical biochemistry picnic! Imagine sunlight as the DJ, guiding the conversion of CO2 and H2O into glucose and oxygen. Enzymes and biochemical reactions add the flavor to this outdoor feast, showcasing nature’s dance of chemical magic.

These biochemistry tales bring the molecular world to life, where enzymes play the lead role in the grand biochemical theater of existence!

What are the seminar topics in biochemistry?

Check out the seminar topics in biochemistry:-

CRISPR-Cas9: Gene Editing Extravaganza in Biochemistry

Get ready for a gene-editing fiesta! CRISPR-Cas9 is like the rockstar of biochemistry, where we wield the power to edit genes and shape the future of life’s playlist.

Metabolomics Marvels: Biochemical Adventures Unleashed

Join us on a biochemical rollercoaster! Metabolomics is our map for a wild adventure, navigating through metabolic twists and turns, uncovering the mysteries of diseases along the way.

Proteomics Unleashed: Tracking Biomarkers in the Biochemical Wilderness

Buckle up for a biochemical safari! It’s a wild ride where we hunt for biomarkers, exploring the biochemical wilderness to redefine how we understand and conquer diseases.

RNAi Revolution: Silencing Genes for a Biochemical Symphony

Imagine being a maestro of genes! RNAi is our musical score, orchestrating a biochemical symphony where genes take a backstage, creating harmony for groundbreaking disease treatments.

Structural Bioinformatics: Designing Drug Adventures in Biochemical Escape Rooms

Picture this as a biochemical escape room challenge! Structural bioinformatics is our key to solving protein puzzles, and in the end, we design our own adventure, creating the next blockbuster in drug discovery.

Epigenetics Unraveled: Dancing with Genes in Health and Disease

Get ready to hit the dance floor! Epigenetics is our dance partner, twirling and swaying with genes, influencing health, disease, and offering us a backstage pass to innovative interventions.

Synthetic Biology Playground: Building Biochemical Castles

Let’s be the architects of the biochemical playground! Synthetic biology is our sandbox, where we use molecular Legos to construct castles of innovation, shaping the future of life sciences.

Glycomics Adventure: Navigating the Sweet Side of Biochemical Complexity

Imagine this as a sweet exploration! Glycomics is our Willy Wonka tour, navigating the sugary landscapes of complexity, discovering the sweet spots that define the biological world.

Neurochemistry Unveiled: A Molecular Rollercoaster Ride

Buckle up for a wild ride! Neurochemistry is our rollercoaster, zooming through the twists and turns of neurotransmission, neurodegenerative disorders, and the thrilling potential of groundbreaking therapies.

Molecular Imaging Extravaganza: Peeking into the Biochemical Kaleidoscope

Get your front-row tickets to the biochemical circus! Molecular imaging is our extravaganza, a mesmerizing spectacle that lets us peek into the kaleidoscope of life’s dynamic dance at the molecular level.

These seminar topics promise not just knowledge but a full-fledged biochemical adventure – ready to dive in?

In wrapping up, the world of biochemistry is like a treasure chest filled with captivating secrets waiting to be unlocked. These project topics, whether you’re diving deep into enzyme mysteries, deciphering the biochemical code of diseases, or shaping the future with synthetic biology and personalized medicine, are all exciting journeys in this scientific realm.

Biochemistry acts as the ultimate translator, bridging the gap between life’s basic ingredients and their profound roles in our bodies, ecosystems, and even global challenges.

These projects, ranging from genes and proteins to groundbreaking climate solutions and groundbreaking drug discoveries, are your keys to unveiling the hidden beauty and complexity of the biochemical world.

Every topic offers an adventure, where you become the explorer of life’s intricacies and the potential architect of a healthier, greener future. So whether you’re a student, a researcher, or just a curious mind, these biochemistry project topics are your invitation to embark on a quest to unravel the enchanting world of biochemistry and apply this knowledge for the betterment of our world. Happy exploring!

Frequently Asked Questions

How can i overcome challenges in my biochemistry project.

Challenges are opportunities to learn. Seek guidance from teachers and adapt your approach.

Are there any famous scientists who started with biochemistry projects?

Yes, many renowned scientists began their journey with biochemistry projects. It’s a valuable learning experience.

MSc by Research Biochemistry and Molecular Biology

Key Information

Entry requirements.

Brayford Pool

Start Dates in October and January

Programme Overview

Biochemistry and molecular biology offer an understanding of the biological and chemical processes that allow life to thrive, giving us the tools we need to solve key challenges in cell biology, pathology, pharmacology, physiology, and genetics. This programme provides students with the opportunity to conduct research into a range of human health problems and diseases through interventions at the molecular and biochemical level.

Students benefit from training courses provided by the University aimed at developing key skills in research. Under the guidance and advice of their academic supervisors, students will also develop their ability to effectively communicate their research and thesis.

Beyond learning how to conduct research and the specialist skills that students are expected to develop within their subject discipline, the process of studying for a research degree can provide transferable skills in problem-solving, time management, independent and team work, and communication.

Key Features

Conduct independent, original, and academically significant research

Benefit from training courses to develop key research skills

Supervision and support from an advisory panel of academic staff

Present at talks and seminars to showcase your work

Enrol in January or October each year

A life sciences student working in a lab

How You Study

This research programme relies on independent study and research, supervised by an advisory panel of academic staff. The nature of this research will be specific to the subject area, but is expected to investigate a novel question and provide a novel contribution to science.

Due to the nature of postgraduate research programmes, the majority of time is spent in independent study and research, but you might also attend seminars and other research activities. Students will have meetings with their academic supervisor at least once a month, but the precise frequency of these will vary depending on in-dividual requirements, subject area, staff availability, and stage of programme.

Research Groups and Topics

Research within the Department of Life Sciences is conducted within five research groups. The key to success on a postgraduate research programme is to find a research topic that you are passionate about and identify a supervisory team that has expertise in this area. The first thing that all prospective students should do is directly contact a member of staff from one of these areas that you feel is best aligned with your chosen research area to discuss the application process further.

Animal Behaviour, Cognition, and Welfare

This group comprises a team of internationally-renowned researchers working at the forefront of, and interface between, animal behaviour, cognition, health, and welfare.

Cancer and Ageing

This group pursues a collaborative approach to increase understanding of disease characteristically associated with ageing at the molecular level, to improve prevention, diagnosis, and treatment.

Diabetes, Metabolism, and Inflammation

This research group is focused on innovative research in the area of diabetes and related cardiometabolic and associated inflammatory disorders.

Evolution and Ecology

This research group works to understand the evolution and ecology of populations, species, and communities, across all levels of biological organisation, from genes through to ecosystems.

Microbiology and Biotechnology

This group is working to answer fundamental questions relating to the characterisation, evaluation, and testing of microorganisms and viruses.

How you are assessed

Students will have at least one formal meeting with their supervisors each month where progress will be discussed. After three months students are expected to provide an outline of their research proposal, which will be evaluated.

The MSc by Research is awarded based on the quality of the students thesis and their ability to present and successfully defend their research to a panel of examiners. They are expected to demonstrate how their research findings have contributed to knowledge, or developed existing theory or understanding.

How to Apply

Postgraduate Research Application Support

Find out more about the application process for research degrees and what you'll need to complete on our How to Apply page, which also features contact details for dedicated support with your application.

Make an Enquiry

To find out more about postgraduate research study in life sciences, you can contact our postgraduate research leads Dr Jenny Dunn and Dr Tom Pike. Both have broad research interests within animal behaviour and ecology.

Jenny's research mainly focuses on understanding the drivers and impacts of parasite infection, mostly in wild birds. Tom is primarily interested in the evolution and maintenance of visual and olfactory signals, from the perspective of both the signallers and the receivers.

To support your experience within the postgraduate research community, new students are encouraged to enrol in October or January. In addition to meeting peers across the University who are starting their research programme at the same time, there is access to a central training programme designed around the first three months of study, and targeted support aligned to each stage of the postgraduate research journey.

However, applications are welcome at any point throughout the year, and enrolment can also take place at any relevant point. Alternative enrolment dates should be agreed with your supervisors on an individual basis.

Entry Requirements 2024-25

First or upper second class honours degree in a relevant subject.

If you have studied outside of the UK, and are unsure whether your qualification meets the above requirements, please visit our country pages for information on equivalent qualifications.

https://www.lincoln.ac.uk/studywithus/internationalstudents/entryrequirementsandyourcountry/

Overseas students will be required to demonstrate English language proficiency equivalent to IELTS 6.0 overall, with a minimum of 5.5 in each element. For information regarding other English language qualifications we accept, please visit the English Requirements page.

https://www.lincoln.ac.uk/studywithus/internationalstudents/englishlanguagerequirementsandsupport/englishlanguagerequirements

If you do not meet the above IELTS requirements, you may be able to take part in one of our Pre-session English and Academic Study Skills courses. These specialist courses are designed to help students meet the English language requirements for their intended programme of study.

https://www.lincoln.ac.uk/studywithus/internationalstudents/englishlanguagerequirementsandsupport/pre-sessionalenglishandacademicstudyskills

If you are an overseas student, you may require an ATAS (Academic Technology Approval Scheme) certificate in order to enrol on this course.

https://www.gov.uk/guidance/academic-technology-approval-scheme

Programme Fees

You will need to have funding in place for your studies before you arrive at the University. Our fees vary depending on the course, mode of study, and whether you are a UK or international student. You can view the breakdown of fees for this programme below. Research students may be required to pay additional fees in addition to cover the cost of specialist resources, equipment and access to any specialist collections that may be required to support their research project. These will be informed by your research proposal and will be calculated on an individual basis.

Funding Your Research

Loans and Studentships

Find out more about the options available to support your postgraduate research, from Master's and Doctoral Loans, to research studentship opportunities. You can also find out more about how to pay your fees and access support from our helpful advisors.

Two students working on a laptop in a study space

Career Development

A research programme provides the opportunity to become a true expert in your chosen field, while developing a range of valuable transferable skills than can support your career progression. A research-based degree is also the most direct pathway to an academic career. Research degrees are a great chance to expand your network and meet diverse people with similar interests, knowledge, and passion.

The University’s Doctoral School provides a focal point for Lincoln’s community of researchers, where ideas and experiences can be developed and shared across disciplines. It also oﬀers support and training to help equip you for both academic and non-academic careers.

Doctoral School

Research at Lincoln

Through our research, we are striving to change society for the better. Working with regional, national, and international partners, our academics are engaged in groundbreaking studies that are challenging the status quo. We also understand the importance of providing the best possible environment for pursuing research that can support our communities and make a tangible difference to the world around us.

Prioritising Face-to-Face Teaching

At the University of Lincoln, we strive to ensure our students’ experience is engaging, supportive, and academically challenging. Throughout the Coronavirus pandemic, we have adapted to Government guidance to keep our students, staff, and community safe. All remaining Covid-19 legal restrictions in England were lifted in February 2022 under the Government’s Plan for Living with Covid-19, and we have embraced a safe return to in-person teaching on campus. Where appropriate, face-to-face teaching is enhanced by the use of digital tools and technology and may be complemented by online opportunities where these support learning outcomes.

We are fully prepared to adapt our plans if changes in Government guidance make this necessary, and we will endeavour to keep current and prospective students informed. For more information about how we are working to keep our community safe, please visit our coronavirus web pages .

Alternatively, use our A–Z index

MSc Biochemistry at The University of Manchester

Attend an open day

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Discover more about Biology at Manchester

MSc Biochemistry / Overview

Year of entry: 2024

View full page

We require a minimum of an Upper Second class honours degree with an average of at least 65% (or overseas equivalent) in:

biological sciences
biomedical sciences

with sufficient evidence of the relevant units taken.

We are generally unable to consider applicants with a background in chemistry unless they can demonstrate sufficient study of biology/biochemistry units. We are also generally unable to consider applicants with a medical (MBChB/MBBS/MD) or pharmacy degree for this programme unless they are able to demonstrate that they have significant laboratory or research experience. If your undergraduate degree is in chemistry, medicine or pharmacy, please contact us prior to making an application, providing details of your biology-related lab skills and experience.

Full entry requirements

Please apply via our online application form . See the application and selection section for details of the supporting documents we require.

We recommend that you apply as early as possible. We reserve the right to close applications if the course is full.

Course options

	Full-time	Part-time	Full-time distance learning	Part-time distance learning
MSc	Y	N	N	N

Course overview

Take a research-focusedmaster's course where you will learn through seminars, workshops, small group tutorials and research placements.
Your research placement will be in the laboratory of a leading biochemist where you will perform experiments on a dedicated and orginal biochemistry project and develop your skills in relevant lab techniques, data management, as well as the various forms of science communication to present your project.
Study at a university ranked 7th in the UK for Biological Sciences (QS World University Rankings 2024).
Prepare for a career in the biosciences industry or academic research.

Are you an international student considering a master’s before progressing onto a self-funded PhD? Learn more about applying for our Integrated PhD programme .

For entry in the academic year beginning September 2024, the tuition fees are as follows:

MSc (full-time) UK students (per annum): £14,000 International, including EU, students (per annum): £34,500

Further information for EU students can be found on our dedicated EU page.

The fees quoted above will be fully inclusive for the course tuition, administration, and computational costs during your studies.

All fees for entry will be subject to yearly review and incremental rises per annum are also likely over the duration of courses lasting more than a year for UK students (fees are typically fixed for International students, for the course duration at the year of entry). For general fees information please visit: postgraduate fees. Always contact the department if you are unsure which fee applies to your qualification award and method of attendance.

Self-funded international applicants for this course will be required to pay a deposit of £1,000 towards their tuition fees before a confirmation of acceptance for studies (CAS) is issued. This deposit will only be refunded if immigration permission is refused. We will notify you about how and when to make this payment.

Policy on additional costs

All students should normally be able to complete their programme of study without incurring additional study costs over and above the tuition fee for that programme. Any unavoidable additional compulsory costs totalling more than 1% of the annual home undergraduate fee per annum, regardless of whether the programme in question is undergraduate or postgraduate taught, will be made clear to you at the point of application. Further information can be found in the University's Policy on additional costs incurred by students on undergraduate and postgraduate taught programmes (PDF document, 91KB).

Scholarships/sponsorships

Contact details, courses in related subject areas.

Use the links below to view lists of courses in related subject areas.

Biochemistry
Biological Sciences

Regulated by the Office for Students

The University of Manchester is regulated by the Office for Students (OfS). The OfS aims to help students succeed in Higher Education by ensuring they receive excellent information and guidance, get high quality education that prepares them for the future and by protecting their interests. More information can be found at the OfS website .

You can find regulations and policies relating to student life at The University of Manchester, including our Degree Regulations and Complaints Procedure, on our regulations website .

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Biochemistry and Molecular Biology | Master

Researching the foundations of life: The internationally oriented master’s degree program in Biochemistry and Molecular Biology focuses on the fundamental components of organisms and their modes of action, and opens up perspectives in pioneering fields of biotechnology.

THE PROGRAM AT A GLANCE
	Biochemistry and Molecular Biology
	Master of Science
	4 semesters
	120
	English
	Winter semester or summer semester
	Golm

PROGRAM FLYER (PDF 783KB)
PROGRAM PAGES

Program Content

This master’s program offers you both the opportunity to perform basic research and to pursue more application-related projects.

In the field of biochemistry, you will focus on the dynamics and processes of protein synthesis and function, as well as their interactions at the intra- and extracellular levels. These processes are becoming relevant for such practical applications as diagnosis and therapy for neurodegenerative illnesses and tumorigenesis. Molecular biology, in contrast, studies molecular processes at the level of cells and organisms, opening up new prospects in genome research, cellular and systems biology, and plant and animal physiology.

In addition to the discussion of the latest research questions in biochemistry and molecular biology, you will gain comprehensive, in-depth knowledge of the structure and use of biological databases, be able to use Internet-supported resources, and be in a position to apply methods from systems biology in the analysis and interpretation of high-throughput data. Furthermore, you will learn various techniques for data analysis, and become acquainted with new methods in nanobiotechnology.

Stefan Hoffmann, Graduate

„I am earning my doctorate in molecular biotechnology at the Department for Biochemistry and Molecular Biology, because the department offers a great variety of research topics, techniques and experience and Potsdam is a great place to live.“

Course Objective and Future Career Options

The master’s program allows you to expand and deepen the skills, specialized knowledge, and methodological skills that you attained in your bachelor’s studies. You will gain an overview of the current status of research in the fields of biochemistry, molecular biology, genetics, genomics, systems biology, and biotechnology. You will also gain a thorough understanding of the essential concepts in these fields. You will be able to formulate scientific problems on your own, select appropriate methods and techniques, and thus successfully work on complex projects and publish the results. If you are pursuing a career in academia, there is the option of Doctoral studies.

The skills you acquire in the master’s program qualify you for work in research, teaching, and development, for example at universities and other scientific institutions, as well as biotech or biomedical companies, and also in administration and management.

Prerequisites for Admission to the Master’s Program

In general, the prerequisite for master’s studies at the University of Potsdam is an academic degree, such as a bachelor’s degree. Your first degree should be in a subject that is relevant to your course of study, for example in the biosciences, biochemistry, biotechnology, or biomedicine. To be admitted to the program, you must provide documentation of your knowledge of molecular biology and biochemistry in the form of at least 60 credit points/ECTS.

Because this degree program is taught in English, very good English skills are required, corresponding at least to the B2 level of the Common European Reference Framework for Languages. Applicants whose native language is not German must demonstrate sufficient German language proficiency corresponding to Level A2 (CEFR).

You can read more about the subject-specific admission requirements in the respective Admission Regulations .

Program Structure

In the four-semester master’s program, you earn a total of 120 credit points, consisting of the following modules and your master’s thesis. For additional information on specific modules, please consult the subject-specific Degree Regulations or the Departmental Advisory Office .

CONTENT AND CREDIT POINTS (CP)

Mandatory Modules	12 CP
Orientation Modules (3x lecture, seminar, 6-week research project)	33 CP
Advanced Research Practical	5 CP
Elective Modules	40 CP
Master's Thesis	30 CP

Dr. Marianne Grafe

tutoribb u uni-potsdam p de

Advantages at a Glance

Studying at the largest department in the Faculty of Science enables you to do more than just participate in taught courses on cutting-edge topics. The program’s practical orientation provides great opportunities for first-hand research involvement because of our extensive network of extramural institutes and research institutions, such as the Max Planck Institute for Molecular Plant Physiology (MPIMP) , the Max Planck Institute of Colloids and Interfaces (MPIKG) , and the Fraunhofer Institute for Biomedical Engineering (IBMT) .

Application

Are you interested in studying for the English-language master’s degree in Biochemistry and Molecular Biology at the University of Potsdam? Then you should take the next step on the application pages to find out more about current application and enrollment procedures.

Important Links

Departmental Student Advisor
Study and Examination Regulations
Admission Regulations

This description is based in part on information from the Discipline-Specific Regulations for Study and Examinations for the Master’s Program in Biochemistry and Molecular Biology at the University of Potsdam dated January 20, 2016 (AmBek No. 6/16, p. 545).

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210 Biochemistry Research Topics For Your Class

Biochemistry research topics demand practical experiments with samples and specimens that yield the desired results. Before approval, a title in this field must start with a proposal representing the typology that the study will eventually produce. Project coordinators or supervisors must screen the topics that students choose without exceptions. Therefore, topic ideas must arise from careful cross-examination of sample specimens and experiments that researchers have watched for some time.

What is Biochemistry?

As the name suggests, biochemistry is the fusion of chemistry and biology in living organisms. Nobody can overstate the essence of biochemistry because it explains the causes of illnesses in animals and humans. Also, biochemistry continues to help researchers and scientists determine how molecules like proteins and vitamins function within the body.

Writing excellent papers in the fields of biochemistry requires admirable knowledge and a good understanding of this scientific branch. Luckily, the internet has many resources with materials that students can research their topics. But students should select their topics carefully and structure their papers properly to impress educators to award them top grades.

Biochemistry Paper Outline

A good biochemistry paper comprises several sections that enable the audience to understand the topic and its information. Here’s is an outline of a quality biochemistry paper.

Title page : The title page comes first in a research paper, providing an overview of the study. This page should include the running head, paper title, student’s name and affiliations, and page number. Students should format this page depending on their writing style, whether MLA, APA, or Chicago. Intro : The introduction is the second section of a biochemistry research paper. And this part should have an abstract and an introduction. Nevertheless, this part places the work into context for the audience. It also tells the readers why the study is relevant. Literature review : In this section, the student examines the materials they consulted during research. A good paper comprises a comprehensive assessment to show that the author read several published works on the issue. It also shows why the current study is essential and different. Methodology : Here, the writer explains their methods to gather and analyze the information they convey to the audience. This section is essential because it enables the audience to evaluate the validity of the research. Researchers can use experiments, observation, case studies, and documentary methods in their research. Analysis and discussion : In this section, the writer conveys the results of their research work. They also expound on their methodology. This part can include tables and figures that are easy-to-understand and precise. Conclusion : This part of a biochemistry paper summarizes the research while suggesting further studies on the topic. Reference : This section lists the materials that the writer consulted during the research. Including a bibliography makes the work authentic.

College and university learners must pick interesting topics to enjoy working on their research projects. Without exciting topic ideas, learners can struggle to work on their papers from the beginning to the end. That’s why this article lists some of the best and popular topics in this scientific field. However, you should remember there is always a possibility to custom dissertation from our professional helpers team.

Remarkable Biochemistry Research Paper Topics

Maybe you’re looking for a topic that will leave the educator no option but to award you the best grade in your class. If so, consider the following ideas for your research paper.

Can watermelon help in the fight against viral activities?
Explain how ethanol causes corrosion
How scientists extract the medicinal components of a plant
Taxonomic groupings’ role in biochemistry
Investigating the fungal pathogens that science associates with tomato spoilage
The impact of Cadmium on humans and the environment
The optimum conditions for ethanol and aqueous extracts
How drinking water fluorides affect your teeth
How acid rain impacts building structures
The methanol leaf extraction process
How high-fat diets cause heart diseases and obesity
The analytical biochemistry concepts
Applied biochemistry and biotechnology- What’s the correlation?
How to use pawpaw leaves to produce deodorants
The active polar gels spontaneous flow and the causes
Analyzing gene encoding in cassava and sorghum
Destabilization’s causes in lysosomes
Evaluating physicochemical processes in living organisms
Investigating conditions that facilitate Thymus Vulgaris’ antibacterial activity

These are great topics that will impress your professor to award you a good grade. Nevertheless, prepare yourself to research any of these ideas extensively before writing.

Interesting Biochemistry Topics

When choosing a topic in this field, a vital consideration is ensuring that it’s exciting to hold the reader’s attention. Also, the learner should pick a topic they are interested in to write a winning piece. Here are exciting ideas to consider in biochemistry.

Comprehensive analysis of infectious diseases’ evolutionary biology
Photosynthesis and its functions
Reviewing plant disease management using modern technology
How oxytocin affects psychopathic disease treatment
Analyzing the factors causing genetic mutation
How addictive substances affect the human genes
Living organisms and their cell structures
The development of cellular technology
Gestation period and its function in mammals
Cellular biology functions in recognizing and identifying genetics
Studying chemical reactions in the body using hormones
Alzheimer’s disease and therapeutic advances in treating it
The regulation mechanisms of stem cell biology
Cancerous cells and their biology
Genetic mapping and linkage analysis
The nucleic acid structure
Coronavirus and epidemiology
Cellular membranes’ functions and their essence in life forms
Analyzing the capabilities of prokaryotic and eukaryotic cells
Studying the apoptosis significance in faulty cells’ growth
Understanding the role of microbial itaconic acid and the production of fungi synthesis
Analyzing MOBs and NDR1/2 relationship in signaling a defective cell cycle
Documenting and mapping morphogen signaling pathways and regulation of biological responses
Vaccines and diseases- Understanding B cell receptors targeting
Bacteriophages and human health
Microbial biofilm formation- Molecular mechanisms therapeutics
Comparing protein folding and design between humans and mice
Investigating the evolution of microbial diseases
The role of structural determinants of protein in human health
Analyzing ion transport and membrane biology in innate immune response
How protein-membrane structure and function affect drug distribution
Why is protein-membrane design so important?
Cellular basis and mapping biochemical glucose transport of the insulin action and resistance
Comprehending the role of peptide and protein structure in membranes
The essence of platelet function and dysfunction on injuries
Understanding Sprouty 2 inhibition impacts on periodontal ligament cells
How placental toxic factors’ release affects blood circulation
Determining the protein amount in urine
How maternal serum affects pregnant women
Evaluating diabetes’ pathogenesis and its impact
What necessitates iron homeostasis regulation?
The relationship between high hepcidin level and T2DM
How biochemistry experiments have facilitated cardiovascular illnesses treatment
Factors necessitating insulin resistance in the body
Ways to identify mycobacterium Ulcerans on the skin
Environmental reservoirs of biological catalysts and enzymes
The risks of biochemistry lab research
Ecological conditions’ impact on lab extracts
Evaluating alkaloidal isolates in plants
Analyzing anti-inflammatory medical plants in tropical regions
Investigating pro-inflammatory eicosanoids’ production
Anti-inflammatory medicinal plants- Understanding their therapeutic action
How herbal preparations affect skin disease treatment
Destabilizing the Lysozyme activity
How temperature ranges affect enzyme activity
Alpha crystalline role in a concentration

These are exciting topics to consider for a biochemistry paper. However, they require an extensive investigation to draft a winning essay.

Current Topics in Biochemical Research

Maybe you want to write about something latest. In that case, consider these current topic ideas.

Investigating the role of peptide and protein function in membranes
Analyzing the biological impact of periodontal ligament cells
Critical analysis of microbial diseases’ evolution
Understand the regulatory mechanisms in genetics
B cells receptors role in vaccines and diseases
The biology and pathology of cancer
What regulates the population of cells?
Factors that scientists associate with new drug initiation to a patient
Phenolic acids and their vitro effects
Evaluating the effects of maternal serum on women during pregnancy and children
Alkaloidal isolates effects of plants
Chemical composition effects of potassium permanganate
Preliminary investigation on Citrus Sinensis Seed and Coat screening
Metalloenzymes and metalloproteins- The contrast
Aspirin chemical quantity analysis
Exploring Polyphosphate role on Erwinia Caratovora Virulence
Reviewing the human genome mapping and its impact on disease prevention
Why information matters in predicting the protein dihedral angles
Central dogma exceptions
Investigating the functions and structure of amino acids
Why protein Kinase matters in cancer and drug resistance
Malignancies biology and skeletal complications
Studying cellular structure and function
Biology and cancer pathology
Biology and coagulation disease
Understanding physical biochemistry
Intestinal microbes- What is their role in human health and diseases
Developing and characterizing chemical compounds targeting colon, pancreatic, and lung cancers
Using microarray technology in describing P623 and P73 regulated genes in cancer
The genetics of cancer molecules: Understanding the genomics-based method for gene expression and association studies
Lipid metabolism in mitochondrial and metabolic diseases
Genetic regulatory and epigenetic mechanisms
Functional nucleic acid and protein interactions
Structural biology and enzymology
Understanding measles in infants and biochemistry-based vaccination
Biochemistry’s role in controlling cell motility in different developmental stages
Why scanning serum medical examinations and microscopy matter in biochemistry
How various brain cancers relate to genetics and radiation exposure
How to preserve plant extracts for biochemistry experiments
Biochemical-based rotavirus vaccines’ role in acute gastroenteritis in children
Explain trial stages vaccine reactions and the role of biochemistry in achieving the desired results
How amino acids hydrocarbons affect biochemical reactions after subjecting the human body to medication
The essence of biochemistry research in developing ways to initiate new treatments in patients
Understanding the chemical properties of the COVID-19 vaccines and reactions in males and females

Biochemistry research projects on these topics can help learners unearth the latest information in their study field. What’s more, students can use them to showcase their awareness and impress educators.

Cool Biochemistry Topics

Selecting a topic that you’re comfortable working with will simplify your project completion. Here are excellent biochemistry paper topics to consider for comfortable research and writing experience.

Immunoglobulin G Receptors and their role in a clinical malaria study
The effects and process of destabilizing Lysozyme activity
The flow of chemical energy through metabolism
Phosphates structure as the necessary synthesis from alcohol
Bacteria membranes and their dynamics
DNA synthesis complexities in the definition
Assessing the chemical quality in Aspirin production
A comprehensive investigation of hepatitis B prevalence
A review of Amyloid diseases
Muscular dystrophy and molecular genetics analysis
Analyzing the latest high blood pressure medications
How variant frequencies affect biochemical reactions
Explain the phenolic acids’ vitro effects
What inhibits cell growth while interfering with iron-dependent enzymes’ activity?
Explain ways to determine iron Chelators deferoxamine presence in Trypanosoma Brunei
Alternative therapy forms to drug toxicity
Evaluating drug resistance in pregnant women
How clinicians determine a drug’s effectiveness
The effects of iron Chelators on different Trypanosoma Brunei’s bloodstream forms
Explain the Rotaviruses’ role in causing acute gastroenteritis in children
Understanding the biological processes responsible for intestinal mucosa inflammation
Molecular ways to investigate gene variations
Evaluating the toxicological impacts of Desmodium Adscendens in mice
How high freeze-dried extracts affect biochemical reactions
Pathogenic risks that scientists associate with breast cancer
Analyzing the multi-factorial diseases among females
The biological factors promoting tumor growth
Evaluating the immunoglobulin G receptors’ role in a clinical malaria study
Determining the binding capabilities of the receptors’ antigen
Receptors’ gene encoding process- A biochemical perspective

These ideas can be excellent topics for biochemistry research papers. However, learners should spend sufficient time researching their ideas to develop winning papers.

Hot Topics in Biochemistry

Perhaps, you want to write about a hot issue in this academic field. In that case, this section has a burning idea that you can explore.

Non-enzymatic and enzymatic protein role
The Stability, interactions, and structure in protein
How effective is population health in improving aggregate health performance in emerging economies?
Is amyloid disease transmissible?
Describe protein quantification
Define frequency modulation and controlled signaling
The potential and challenges of recombinant spider silk and its implications in biomedical applications
The use of biomedical means by athletes seeking unfair advantage
How human genome mapping can affect society and medicine
Analyzing biochemistry advancements and their effects on new medications
Reviewing the reactions and structure of phosphates and esters and their synthesis
Purification and expression of proteins’ responses at different ENTH levels
Evidence for or against animal disease models and scientific values in seeking disease cures
Investigating B lymphocyte cell line and aggregation from temperature sensitivity and chicken
The role of polyphosphate on Erwinia caratovora’s virulence
Molecular functions and cellular dissection in the latest high blood pressure medications
Comparing biochemical studies over the last century
Analyzing DNA synthesis complexes in the definition
Analyzing molecular genetics in a single causative gene and muscular dystrophy
Investigating complex biochemical compounds’ revelations in the DNA mapping study
Detecting soft tissue sarcoma
How to determine new clotting factors’ structure
How to confirm the presence of enzymes in selenium
Ethanol chemical compositions and their impact on the human liver and lungs
Rusting metals and their chemical properties
Alpha-crystalline’s role in a concentration
Why iron homeostasis needs regulation
Investigating the RNA’s atomic matrix
What does RNA transcription involve?
Coagulation disease’s biology

These are excellent biochemistry project topics for learners at various study levels. Nevertheless, students must research them extensively before writing.

Topics for Biochemistry Science Fair Projects

Picking a science fair project title can be cumbersome because the task is more demanding than writing a research paper. Here are brilliant ideas to consider for this project.

An electrolysis experiment
How to grow and use bacteria
Separating compound mixtures and their impact
Impact soft and hard water
Exploring different ways to extinguish fires without water
How temperature affects various liquids and their density
The effects and role of ethanol in erosions
The importance and impact of salt on melting points
Evaluating gasoline properties
Investigating the structure of enzymes
Anti-tumor agents and their design
The forms of x-ray of iron-binding in protein
Biochemistry and the necessary enzymes
Detecting invisible spills using backlight
How ultraviolet radiation affects bacteria growth
Plants crossbreeding
How smock pollution can affect plants’ transpiration rates
The DNA-protein complexes and their role in replication
How Ph and minerals’ concentration affect water and soil samples
How sunspots affect weather patterns

These biochemistry project topics are great ideas for a science fair. Nevertheless, they require time, effort, and research to convey relevant and quality information.

Easy Biochemistry Research Topics List

Maybe you need a simple topic to write about and score the top grade quickly. If so, here’s a list of easy ideas to consider for your paper.

How eukaryotic and prokaryotic cells create energy
The role of sunlight as the cells’ energy source
Analyzing cell membranes and protection mechanisms in living cells
Why investigating defective cells impact is important
Studying genetic materials role in differentiating cells
Organisms’ structure and physiological properties
Understanding cell’s composition and its functions
How cancer affects the cell growth
Current trends in molecular biochemistry
The microtubules’ role in the nervous system
Protein biosynthesis mechanics

All these are easy topics for academic papers. However, they still require some research before writing.

Get Professional Homework Help Online

Having a topic alone may not be enough to draft a winning paper. You also need skills, experience, and time to write a good essay. Unfortunately, some learners lack what it takes to compose a brilliant piece. That’s why we offer our affordable thesis writing service .

Once you seek our help, our trusted expert will research your topic and write a high-quality paper. Thus, you will beat the submission deadline and score the top grade in your class. Our service is cheap, reliable, and professional. Many learners have used it to excel academically. Contact us for quality help with your biochemistry paper.

We have 132 MSc Degrees in Biochemistry

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Master your future with our postgraduate degrees at the UCL Faculty of Mathematical and Physical Sciences. The faculty has world-leading expertise across a wide breadth of disciplines encompassing the logical, experimental and mathematical study of our Universe; we offer a range of programmes in emerging as well as more traditional academic areas. You'll benefit from front-line research that feeds directly into our taught graduate programmes and access to first-class facilities within the faculty.

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The School of Biological Sciences offers thirteen on-campus taught masters programmes spanning the breadth of the Biological Sciences, taught by world-leading academics. Biological Sciences has one of the largest concentrations of biologists in the United Kingdom, with cutting-edge research in a wide range of disciplines. Our postgraduate teaching derives from our research strengths, and you will be taught by scientists of international repute. As the modern inheritors of our 400-year-old reputation for excellence, our staff and students contribute to a vibrant academic community whose visions are shaping tomorrow’s world.

Columbian College of Arts and Sciences

GW’s Columbian College is a magnet for top scholars and a catalyst for learning and discovery. With more than 90 doctoral and master’s programs, we offer a transformative experience, connecting students with some of the most influential leaders and institutions while partnering with public and private organizations in the nation’s capital and around the globe. Hone your expertise in subjects as diverse as statistics, fine arts, public policy, art therapy, forensic sciences, and LGBT health policy and practice.

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Swansea University Medical School

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Biochemistry - MSc

University of oulu master’s programmes.

Biochemistry deals with fundamental questions, and the focus is always on the larger context: how can this knowledge be used to improve people's lives? In addition to theoretical knowledge, the master’s degree in Biochemistry offers strong hands-on laboratory skills and training of modern methods by teachers active in research. Read more

MScR Biomedical Science

University of buckingham medicine and allied health.

Postgraduate research degree at the Institute of Biomedical and Bioscience Research (IBBR). Read more

Drug Discovery, Design and Synthesis MSc

University of sussex school of life sciences.

Antibiotic resistance, ageing populations and possible future pandemics – medicinal chemists are working on solutions to the major global challenges of our time. Read more

Analytical Toxicology MSc

King’s college london faculty of life sciences & medicine.

The Analytical Toxicology MSc is a unique study course that integrates theoretical and practical aspects of analytical science with clinical and forensic toxicology. Read more

Applied Genomics - MSc

Imperial college london medicine.

Learn how big data and experimental research can be harnessed to revolutionise biological sciences and biomedicine. Read more

MSc Biomedical Science

University of sheffield school of biosciences.

Receive advanced academic and technical training within one of our designated pathways and become a highly skilled, multidisciplinary biomedical scientist, ready to make a difference in the rapidly evolving field of biomedicine across academia, healthcare and industry. Read more

Bioanalytical Chemistry and Pharmaceutical Analysis MSc

Fresenius university of applied sciences masters opportunities.

Analytical science is becoming increasingly significant: Fast and precise analytical methods are more important than ever in research, quality control, and production monitoring. Read more

MSc Clinical Biochemistry

Manchester metropolitan university faculty of science & engineering.

Our best defence against disease isn’t a new therapy, wonder drug or technological miracle. It’s knowledge. On our MSc Clinical Biochemistry degree, you will gain the technical skills and in-depth understanding to explore, harness and add to that knowledge. Read more

MSc Biochemistry

The university of manchester faculty of biology, medicine and health.

Our MSc Biochemistry course will give you research experience and professional skills in contemporary biochemistry, opening up a future career in industry or academic research. Read more

Advanced Biochemistry MSc

University of strathclyde strathclyde institute for pharmacy & biomedical sciences.

You'll be studying an MSc in Advanced Biochemistry at the Strathclyde Institute of Pharmacy & Biomedical Sciences that's a leading centre for research focused on developing new medicines, better medicines and better use of medicines. Read more

MSc by Research Biochemistry and Molecular Biology

University of lincoln school of life sciences.

Develop your understanding of how biological systems work at the molecular level and the mechanisms that underpin a wide range of cellular processes. Read more

Biochemistry - MSc (by Research)

University of kent school of biosciences.

Undertake cutting-edge research in contemporary biochemistry and gain expertise in areas such as biochemistry, biophysics, structural biology and synthetic biology, industrial biotechnology, cellular architecture and dynamics, and infectious diseases. Read more

MSc Clinical & Diagnostic Biochemistry

University college dublin ucd school of medicine.

Curricular information is subject to change. Read more

Master of Biophysics, Biochemistry and Biotechnology (Leuven)

Ku leuven faculty of science.

The Master of Biophysics, Biochemistry and Biotechnology is an international, interdisciplinary study programme. Read more

Biochemistry MSc, PgDip

University of edinburgh school of biological sciences.

This programme offers you an academically-challenging and career-developing study of biological systems at the molecular and cellular level. Read more

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Master's programme in Biochemistry with specialization in protein chemistry

120 credits cr.
Gå till denna sida på svenska webben

Proteins are the building blocks of life. They play a central role in various disease processes and can also be used for therapeutic purposes. If you want to learn more about these fascinating molecules then the master’s program in Biochemistry with Specialization in Protein Chemistry is for you.

The master’s program in Biochemistry with Specialization in Protein Chemistry will provide a detailed understanding of proteins, from their physical properties and structures, to how they behave, interact and function in complex environments. You will study current techniques which are used to understand proteins, their folding, structure, cellular localization, interactions and functions.

You will learn the basics principles of recombinant protein production, protein engineering and protein purification, as well biophysical characterisation and structure determination of proteins by for instance x-ray crystallography, NMR and cryo-EM. Moreover, you will also get to dive into the world of biological membranes, which consist of both proteins and lipids, as wells as to study how protein expression can be modified and studied in live eukaryotic cells.

The fast-paced courses in this program are taught in small groups and they include significant lab time, allowing you to develop the lab skills that Stockholm University graduates are renowned for, and which employers expect. Writing reports, giving presentatations and reading papers will be second nature to you when you have finshed the program.

The teaching is problem-based, meaning you will also be challenged to develop skills like self-sufficiency and creative thinking, which will help your career outside the lab. It is real science for the real world.

While attending the Biochemistry with Specialization in Protein Chemistry program you will be surrounded by internationally recognised biochemistry researchers, including some of the people who choose the Nobel Prize winners. In addition, you will be able to attend the Nobel lectures of the prize winners themselves.

The program is also structured in a way which makes it possible to study abroad for one semester (the third). One of our exchange partners is University of Illinois at Urbana-Champaign, which many of our students take advantage of since it is a great experience personally and because of its focus on biomolecular science.

Information for admitted students autumn 2024

Congratulations! You have been admitted at Stockholm University and we hope that you will enjoy your studies with us.

In order to ensure that your studies begin as smoothly as possible we have compiled a short checklist for the beginning of the semester.

Follow the instructions on whether you have to reply to your offer or not. universityadmissions.se

Checklist for admitted students

Activate your university account

The first step in being able to register and gain access to all the university's IT services.

Registration can be done in different ways. Read the instructions from your department below.

Read all the information on this page

Here you will find what you need to know before your course or programme starts.

Your seat may be withdrawn if you do not register according to the instructions provided by your department.

Information from your department

On this page you will shortly find information on registration, learning platform, etc.

Welcome activities

Stockholm University organises a series of welcome activities that stretch over a few weeks at the beginning of each semester. The programme is voluntary (attendance is optional) and includes Arrival Service at the airport and an Orientation Day, see more details about these events below. Your department may also organise activities for welcoming international students. More information will be provided by your specific department.

su.se/welcomeactivities

Find your way on campus

Stockholm University's main campus is in the Frescati area, north of the city centre. While most of our departments and offices are located here, there are also campus areas in other parts of the city.

New student

During your studies

Student unions

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Pre-departure information

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Programme overview

The program is 120 ECTS and starts at the end of August each year. The program consists of six mandatory courses (of a total of 60 ECTS) and a mandatory independent master thesis project of 30, 45 or 60 ECTS.

You will also be able to take university level electives of 0-30 ECTS depending on the length of the master thesis project. This will enable you to broaden your horizons even further by studying a different branch of chemistry to become interdisciplinary, if you wish. You could also study abroad for one semester.

Fall semester

Advanced Methods in Biochemistry, 7.5 ECTS (KB7014) Protein structure and function I, 7.5 ECTS (KB7020) Protein structure and function II, 15 ECTS (KB8028)

Spring semester

Spectroscopy of biological molecules, 7.5 ECTS (KB8023) Structure and Dynamics of Biological membranes, 7.5 ECTS (KB7000) Proteins in eukaryotic cells, 15 ECTS (KB8027)

60 ECTS independent degree project (KB9026).

15 ECTS elective courses and 45 ECTS independent degree project (KB9025).

30 ECTS elective courses and 30 ECTS independent degree project (KB9024).

Independent project

The independent project is your chance to really focus on research and to study something you are really interested in. The project can be performed in a research group at Stockholm University, at another university or at a research organisation.

Here are all the research groups at the Department of Biochemistry and Biophysics!

How to apply

There are two application rounds:

The international application round - This is open from the middle of October until the middle of January
The Swedish - EU/EES application round - This is open from the middle of March until the middle of April

Note! Students from outside EU/EES countries, which require a VISA to come to Sweden for studies, have to apply in the international application. Swedish/EU/EES students are welcome to apply in either application rounds.

You apply for the program through universityadmissions.se

Eligibility

You need a bachelor's degree in natural sciences or equivalent, including at least 60 ECTS in Chemistry, of which at least 15 ECTS should be in biochemistry. You also need an additional 30 ECTS in either chemistry, physics or molecular life sciences, as well as knowledge equivalent to Swedish upper secondary course English 6 or equivalent.

Read more about the entry requirement in English here!

Selection process

The selection will be done based on relevance of previous studies in relation to the programme, and motivation letter (more information about that below).

Note! No interview will be held.

As part of the application for this master's program you will be asked to provide a motivation letter in English. The motivation letter is an important selection criteria and must be uploaded together with your application at the university admissions website (link above). We expect maximum one A4 page. Please address the following in your letter, and add the document to your application on university admissions:

Your full name
E-mail address
The name of the masters program you are applying to
A list of completed courses, including number of credits, which count toward meeting the specific eligibility requirements for the program (see under Eligibility above). Please include courses not completed as well
What inspired you to apply to this particular program
Lab experience (this program require very good laboratory skills)
Why you are a good candidate for this program
What you hope to achieve with your degree
What research questions interest you and how do they relate to the ongoing research at Stockholm University

Upload this letter with your application on to universityadmission.se

More information

Study abroad.

Students participating in the Master's programme in Biochemistry with specialization in protein chemistry are highly recommended to join one of our study abroad programmes.

University of Illinios at Urbana-Champagne, semester 2 and 3

During semester 2 or 3 you will be able to study at the University of Illinois, Urbana-Champange, which many students take advantage of to broaden their experience.

We have long standing cooperation with this university. Many of the courses on offer may be included in your degree and will broaden your knowledge of proteins and their biochemistry.

Please note that you will only be able to do course work at UIUC, internships and thesis work is not possible.

Erasmus traineeship, anywhere within the EU, semester 3 and 4

Many students will start their career at Stockholm University and decide to go abroad for their thesis work. In the past students have done their master thesis in for example Berlin, Copenhagen, Brussels and Amsterdam. The thesis can be performed in lab, research institute or a company. You will be collecting data abroad in order to present at thesis at SU at the end of the period.

https://www.su.se/english/education/go-international/erasmus-traineeship-abroad

@chemistry_stockholmuniversity

Meet our students

Meet henry, masters student in biochemistry.

Biophysical chemistry is the most interesting aspect of chemistry for me as it presents the opportunity to learn about the fundamental molecular principles behind protein dynamics in an interdisciplinary manner.

My name is Henry Annecke and I’m a British student taking the master’s programme in Biochemistry here at Stockholm University — after having studied physics at undergraduate level in Berlin. Applying to the programme was the next logical step for me once I had completed my Erasmus research internship here at the department.

Everyone was friendly and I realised there was a wide range of possibilities available in terms of interesting research groups, fields, and courses.

This programme has been the perfect transition into life sciences, and a lot of students have different backgrounds. During the programme, which has a focus on applicable research skills, we have had various lab work. One highlight of this was a computer based bioinformatic lab in which we analysed protein evolutionary homology. After learning much about protein function it was interesting to see how this fits into an evolutionary perspective and to do so using the latest software. Another highlight was in the Structural Biochemistry course in which we crystallised a protein, collected X-Ray diffraction data on the crystal, and then learnt how to build a 3D protein structure from the data. Seeing how a protein structure is produced from start to finish was really enjoyable.

Generally, the courses are designed with a lot of hands-on time which means you learn a lot. The lecturers themselves have unique approaches to teaching which are both refreshing and engaging, and which encourage independent thought and problem solving. Alongside this the campus and Stockholm itself are great places to be and live so if you’re considering applying, I’d recommend it.

Best of luck!

Meet our teachers

If you want to be part of the solution, you need to understand and speak chemistry.

Daniel Daley left Australia for Sweden in 2002. The plan was to stay for two years, but he liked it too much. Now he is a professor in the Department of Biochemistry and Biophysics.

Hello Daniel, can you please tell me a bit about yourself?

– I grew up in Australia and studied biochemistry at the University of Western Australia. (PS, we have an exchange agreement with them if you want to study a semester there). I became interested in chemistry at high school as I had a really inspiring teacher. It was a long time ago, but I distinctly remember that he was extremely enthusiastic about chemistry – which I found contagious. Initially, I liked the idea of understanding how the human body works. Biochemistry offered me insight on a molecular level. And again, I was drawn in by a good teacher who was able to relate complex biochemical concepts, such as metabolism back to everyday activities, such as running and resting.

What is the best thing about studying chemistry?

– It helps me understand the natural world. After all, many natural phenomena are chemical. How muscles contract, how leaves capture sunlight, how antibiotics work, how detergents work, why coffee tastes good etc.

What is your main motivation?

– I'm a curious person, and I really like the idea of discovery… figuring out something that no-one else has yet seen.

How come you ended up at Stockholm University?

– When I finished my PhD, I wanted to know more about membrane biology so I contacted Gunnar von Heijne (one of the leaders in this field) and asked if I could get some postdoctoral experience in his lab. I came to Stockholm University in 2002, and the idea was to stay for two years and get some experience, but I liked it so much that I stayed.

What was it that you liked about Sweden?

– In many ways, Sweden is the antithesis of Australia, and I enjoyed the contrast. For example, winters and the possibilities to do winter sports. I also enjoyed the opportunity to meet new people and immerse myself in a different culture.

Can you tell me a bit about what you have been doing since 2002?

– I opened the doors to my own lab in 2006, and I started a small research group. Our main interest has been to understand how bacteria make proteins. And we apply this basic knowledge to engineer bacterial cell factories that can make valuable proteins, such as hormones, antibodies and enzymes. Some of our discoveries have been patented and are currently being used in the biopharmaceutical and biotech industries.

Why is a master in biochemistry a good choice of education?

– A masters in biochemistry from Stockholm University will give you a world-class education in protein chemistry. You will be taught in small groups, by leading experts and you will be involved in a lot of 'wet-work'. At the end, you will be extremely competitive for PhD positions or jobs in the industry. There is an increasing need for people with knowledge of protein chemistry as proteins are widely used as medicines, medicinal probes, medicinal targets and industrial enzymes.

Do you have any words of advice to potential chemistry students?

– Read, read, read… and ask lots of questions if you don't understand.

How can chemistry and chemistry research lead to a better and more sustainable society?

– There are many 'big problems' to solve these days, such as global warming. Solutions to this particular problem will revolve around renewable energy sources and will most likely come from chemists. So, if you want to be part of the solution, you need to understand and speak 'chemistry'!

Can you tell me about an ordinary day at work?

– I spend a big chunk speaking to people in my research group, as we discuss their experiments as well as those of others. And I spend another big chunk of my time reading and writing papers and grants. And I am quite heavily involved in teaching and organizing the teaching of biochemistry at Stockholm University.

What do you like to do in your spare time?

– I train my son's football team, I love being out in my kayak, and I enjoy keeping fit (running and going to the gym).

Meet our researchers

Being on the nobel committee is probably one of the best things you can do as a swedish researche.

Gunnar von Heijne is one of Sweden’s most cited researchers in the field of biochemistry and is known for his research on membrane proteins. He has also been a member and chairman of the Nobel Committee for chemistry.

Gunnar von Heijne’s academic career started at the Royal Institute of Technology, where he studied chemical engineering. At the same college, he later became an associate professor of theoretical biophysics. After several years as a researcher at Karolinska Institutet and as a science radio reporter, Gunnar became a professor of theoretical chemistry at Stockholm University.

His research has focused mainly on membrane proteins. In collaboration with the Swedish Foundation for Strategic Research, Gunnar built a world-leading centre for biomembrane research at Stockholm University and he is currently director of the Swedish National Cryo-EM Facility at SciLifeLab in Stockholm.

Hello Gunnar, why and when did your interest in chemistry awake?

”My high school teacher was a huge inspiration, but the fact that I got a scholarship to attend the Berzelius Days also played a role. The Berzelius Days is an arrangement that the Swedish Chemical Society organizes annually for Swedish high school students to encourage further chemistry studies at university. My chemistry teacher, Karin Brandt, was very enthusiastic and encouraging. Funnily enough, Tomas Lindahl (Nobel Prize in Chemistry 2015) had the same chemistry teacher, and she taught him the value of science.”

Read more (in Swedish): Nobelpristagare Tomas Lindahl hyllar Bromma gymnasium

What has been the best thing about studying, teaching and researching chemistry?

Learning to understand and teach about what the world looks like “on a molecular level”. Chemistry is a bridge between physics and biology/medicine. It makes it very exciting since there are so many aspects to a research problem – since the interface with other scientific research is so broad.

What is the best thing about biomembrane research?

It’s a field where a lot has happened during my years as a researcher. Somehow, thinking about how membrane proteins are produced in the cell has suited me well.

What did your involvement in the Nobel Committee mean to you?

Being asked to serve on the Nobel committee is probably one of the best things that can happen to you as a Swedish researcher. The Nobel Prize is known worldwide and puts science in the international spotlight at least once a year. Also, we have much fun on the committee!

How can chemistry and research in chemistry lead to a more sustainable society?

“For example, artificial photosynthesis, green chemistry for a leaner and more environmentally friendly production of various chemicals and the lithium-ion battery. Other examples are new materials such as hydrogen storage or removal of CO2 from combustion gases and environmental chemistry to detect and address various environmental problems.”

What qualities are needed to become a successful chemistry student?

To enjoy science, and preferably a little math too, is a good start!

Read more about Gunnar von Heijne and his many publications here .

Meet our alumni

"i had aha-moments all the time during my studies".

Daniel Martinez Molina's interest in nutrition led him to the Bachelors programme in nutriton - a program given in collaboration between SU and KI. Today, Daniel is the Chief Scientific Officer and head of research at his own company.

Picutre of Daniel Martinez Molina. He has dark hair, glasses and is wearing a grey sweater

Hi Daniel, What made you interested in nutrition?

- My high school teacher in biology was the one who first made me understand how fantastically complex nature is. He wanted his students to understand everything from how the citric acid cycle spun to life in a compost. During a lab about energy consumption in the human body, I became interested in what, how and why things happen.

Why did you apply for a Bachelors programme in Nutriton?

I got tip about the programme from the same biology teacher, as he noticed how I was passionate about the subject. At that time, there were only twelve seats on the programme, so I had to fight to get in. The year I started, the number of spots had increased to 18. We were a great bunch of students who had a strong common interest in nutrition. However, we were quite clearly divided into those who thought public health nutrition was most interesting and those, like me, who preferred molecular nutrition.

"Pretty soon I realized that a solid basic education was necessary to really understand what, how and why processes take place in the body"

What did you think of your studies at SU?

The studies at the different universities were different both in feeling and content. Stockholm University was responsible for the first part of the programme and for me it was a change on several levels. It was the start of my university studies and not only did I move from my childhood home but also to a big city. It probably contributed to that Stockholm University feelt both huge and part of a new adventure. - I remember struggling a bit with motivation during the chemistry studies of the first year, I wanted to jump straight into the subject of nutrition and not read about orbitals. But pretty soon I realized that a solid base in chemistry was necessary to really understand "what, how and why" and not just learn what processes take place in the body by heart.

What did you think of your studies at KI ?

When we switched to studying at Karolinska Institutet, we spent time both in Solna and Huddinge. For me, it was incredibly cool to be able to take with me the knowledge from Stockholm University and understand how chemistry was behind what we read about in, for example, human physiology or during the course nutritional status. If Stockholm University was responsible for the big and exciting, Karolinska in Huddinge was a little smaller and familiar. Familiar in several ways - in those corridors I also met my future wife. The education extends over many subjects.

What did you like most and why?

I was very thirsty for knowledge and got aha-moments all the time. During the first course in biochemistry, it felt like the right one and when I read human physiology I wanted to completely re-saddle and become an anesthesiologist. After studying nutrition, I wanted to start my own company and help athletes get into top shape. However, I never got caught up in epidemiology or courses on public health nutrition.

Was there any opportunity during your studies that was decisive for your future choice?

There were plenty of such, but if I have to choose, it was when a professor of biochemistry, Pär Nordlund, showed what proteins look like. How to determine its structure and then understand its function. After that, there was no turning back. In almost all the body's and cell's processes, it is proteins that do the work. The advanced courses in biochemistry gave me more of this and with structural biology I was able to understand in detail "what, how and why" - a recurring theme for me.

How did you start with research?

Pär Nordlund also offered me the opportunity to do my degree project in his group - it was great. It was followed by a doctoral position and I was very happy. During my doctoral studies, we moved to Karolinska Institutet, but I was still associated with SU and that was where I defended my dissertation four years later. In my doctoral work, I had managed to determine the structure of "my own" protein and was the first person to see what this particular protein looks like. A powerful feeling,

What do you do today?

Today I am head of research at a company that I have founded. We started the company eight years ago, as a spin-off on an invention from our academic research. The method we invented and developed makes it possible to measure how, for example, drugs or toxins interact with proteins in cells. Our method is one of the few that can detect such interactions without having to intervene in the cell or modify the substance being examined. The method can also be used in other areas such as the plant industry to study the effects of insecticides on crops. We also see signs that the method can be applied in healthcare to understand side effects caused by various drugs or to stratify patients.

In what ways do you benefit from your chemistry studies in the career you have chosen?

The deep basic chemistry is there in the background, sometimes I have to dig into my organic chemistry knowledge to understand the results we get. Other times it is statistics we learned during epidemiology. All the labs we did during my studies are also with me. It's been a long time since I was in the lab myself, but the understanding of how to set up an experiment and analyze the results also comes from the years at university.

"With our method, we look at the cell in an unfiltered way. This means that we often get results that are completely new."

What is the best and most challenging part of your profession?

The best thing is that I get to discover new thing! With our method, we look at the cell in an unfiltered way. This means that we often get results that are completely new. Sometimes our results may also explain observations made and reported by others in the literature. I have also been involved in building the company we run today and have a fantastic group of colleagues who really work towards the same goal. I feel like I am learning new things every day and it is very satisfying. At the same time, it is my big challenge because I have to prioritize hard so as not to dig too deep where I stand.

What are your plans for the future?

I am working on establishing a postdoc program at our company - an opportunity for PhD students to come in and do basic research with and around our method. This in collaboration with academic expert groups in the Stockholm and Uppsala area. I am also very much looking forward to focusing on clinical applications of our method, something that I think can be very exciting! - The company is growing and in the future, we will move into new, larger premises. Not entirely new to me, these are the same rooms I spent my doctoral studies in, so in some sense some things are coming full circle for me.

Name: Daniel Martinez Molina

Do: Head of Research and co-founder of Pelago Bioscience AB

Career opportunities

Many of our students use this programme as a stepping stone towards obtaining a PhD and an academic career. However, alumni from the programme have also landed jobs with top pharmaceutical and biotech firms.

Visiting address

Arrhenius laboratory, room M345

Svante Arrhenius väg 16 A-D

Here you will find:

Student administrator

International coordinator

Study advisor

Director of studies

Office hours

Monday, Tuesday and Wednesday 09.00-11.30 and 12.30-15.00

Phone hours

Wednesday 10.00-11.30 and 12.30-15.00

Know what you want to study?

What can I study?

Selected reading

Students at Skinnarviksberget in central Stockholm.

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Meet us online and around the world

Stockholm University arranges regular webinars and participates in educational fairs and events virtually and around the world to meet students and inform them about our study programmes. Meet us and ask what it's like to study with us!

Students of Stockholm University

Every year Stockholm University welcomes thousands of international students from all over the world. Each bringing their own backpack full of experiences, expectations and dreams. Each with their own story.

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Our researchers. Your teachers

As a student at Stockholm University, you will have direct contact with leading researchers in your field and access to the most recent scientific findings. Our researchers. Your teachers. Meet a few of them here.

Hear from our alumni

Are you wondering what former students thought about your programme? Are you curious about what your education can lead to after graduation? Hear from our alumni!

Biochemical Engineering MSc

London, Bloomsbury

Have you ever wondered how the latest life science discoveries, such as a novel stem cell therapy, can move from the lab into commercial scale production? Would you like to know whether it is possible to produce bio-polymers (plastics) and biofuels from municipal or agricultural waste? If you are thinking of a career in the pharma or biotech industries, the Biochemical Engineering MSc could be the right programme for you.

UK tuition fees (2024/25)

Overseas tuition fees (2024/25), programme starts, applications accepted.

Applications closed

Entry requirements

Normal entry requirements are at least a second-class Bachelor's degree from a UK university or the equivalent from an approved overseas institution. Candidates offering recent industrial experience are also encouraged to apply. As with any engineering discipline numeracy skills are important for the quantitative description of biological and physical phenomena. Evidence of numerical ability is requested as either an A level in Mathematics (or in exceptional cases, in Physics) or some mathematics studied at university. The department provides mathematics tutoring for Master's students throughout the year adjusted to a candidate's ability.

The English language level for this programme is: Level 1

UCL Pre-Master's and Pre-sessional English courses are for international students who are aiming to study for a postgraduate degree at UCL. The courses will develop your academic English and academic skills required to succeed at postgraduate level.

Further information can be found on our English language requirements page.

If you are intending to apply for a time-limited visa to complete your UCL studies (e.g., Student visa, Skilled worker visa, PBS dependant visa etc.) you may be required to obtain ATAS clearance . This will be confirmed to you if you obtain an offer of a place. Please note that ATAS processing times can take up to six months, so we recommend you consider these timelines when submitting your application to UCL.

Equivalent qualifications

Country-specific information, including details of when UCL representatives are visiting your part of the world, can be obtained from the International Students website .

International applicants can find out the equivalent qualification for their country by selecting from the list below. Please note that the equivalency will correspond to the broad UK degree classification stated on this page (e.g. upper second-class). Where a specific overall percentage is required in the UK qualification, the international equivalency will be higher than that stated below. Please contact Graduate Admissions should you require further advice.

About this degree

Our MSc programme focuses on the core biochemical engineering principles that enable the translation of advances in the life sciences into real processes or products. Students will develop advanced engineering skills (such as bioprocess design, bioreactor engineering, and downstream processing), state-of-the-art life science techniques (such as molecular biology, vaccine development, and microfluidics) and essential business and regulatory knowledge (such as management, quality control, commercialisation).

The MSc offers distinct routes tailored both for graduate scientists and engineers depending on the first degree of the applicants. The student’s route will be assigned to students by the admissions tutor depending on their previous education.

Who this course is for

This programme is suitable for graduate scientists holding qualifications in applied biology, biochemistry, biotechnology, chemistry, microbiology, pharmacy or other related subjects. Graduate engineers who apply normally hold qualifications in chemical and/or biochemical engineering, process engineering or other related engineering disciplines.

What this course will give you

This programme is suitable for graduate scientists holding qualifications in applied biology, biochemistry, biotechnology, chemistry, microbiology, pharmacy or other related subjects and graduate engineers who hold qualifications in chemical and/or biochemical engineering, process engineering or other related engineering disciplines.

UCL was a founding laboratory of the discipline of biochemical engineering, established the first UK department and is the largest international centre for bioprocess teaching and research. Our internationally recognised MSc programme maintains close links with the research activities of the Advanced Centre for Biochemical Engineering which ensures that lecture and case study examples are built around the latest biological discoveries and bioprocessing technologies.

UCL Biochemical Engineering co-ordinates bioprocess research and training collaborations with more than a dozen UCL departments, a similar number of national and international university partners and over 40 international companies. MSc students directly benefit from our close ties with industry through their participation in the department's MBI Training Programme .

The MBI Training Programme is the largest leading international provider of innovative UCL-accredited short courses in bioprocessing designed primarily for industrialists. Courses are designed and delivered in collaboration with 70 industrial experts to support continued professional and technical development within the industry. Our MSc students have the unique opportunity to sit alongside industrial delegates, to gain deeper insights into the industrial application of taught material and to build a network of contacts to support their future careers.

The foundation of your career

The department places great emphasis on its ability to assist its graduates in taking up exciting careers in the sector. UCL alumni, together with the department's links with industrial groups, provide an excellent source of leads for graduates. Over 1,000 students have graduated from UCL with qualifications in biochemical engineering at Master's or doctoral levels. Many have gone on to distinguished and senior positions in the international bioindustry. Others have followed independent academic careers in universities around the world.

Employability

The rapid advancements in biology and the life sciences create a need for highly trained, multidisciplinary graduates possessing technical skills and a fundamental understanding of both the biological and engineering aspects relevant to modern industrial bioprocesses. Consequently, UCL biochemical engineers are in high demand due to their breadth of expertise, numerical ability and problem-solving skills. The first destinations of those who graduate from the Master's programme in biochemical engineering reflect the highly relevant nature of the training delivered.

Approximately three-quarters of our graduates elect either to take up employment in the relevant biotechnology industries or study for a PhD or an EngD, while the remainder follow careers in the management, financial or engineering design sectors.

Through the MSc in Biochemical Engineering programme, there are multiple opportunities for students to connect, collaborate and create a network that will aid in their professional development. Some of the main opportunities are listed below:

The Modular Training for the Bioprocessing Industries (MBI) programme has been pioneered by the UCL Biochemical Engineering Department. These are short intensive courses designed to equip professionals in the bioprocessing industry with up-to-date skills and knowledge. These have been designed in collaboration with industry. Through the MSc in Biochemical Engineering, students will have the opportunity to join some of the MBI courses and learn alongside industry professionals, with opportunities of connecting with future employers.
UCL Alumni Network access: With access to a vibrant and supportive alumni network, students can connect with accomplished professionals who were once in their shoes. These connections often lead to mentorship, collaboration, and even job opportunities.
The Beakers Society is the UCL Biochemical Engineering postgraduate society that organises a series of social events throughout the year that allow postgraduate students to interact with their peers as well as with the staff.
Innovation Hubs and Start-up Incubators : For those interested in entrepreneurship, UCL provides access to innovation hubs, incubators, and even seed funding. Connecting with like-minded innovators and successful entrepreneurs adds an entrepreneurial edge to the academic experience.
Themed Networking Events: Themed networking events offered by UCL Careers Service may include anything from hackathons to research "speed dating," where students and professionals engage in rapid-fire discussions and collaborations around research topics.

Accreditation

Our MSc is accredited by the Institute of Chemical Engineers (IChemE).

The routes "for Engineers" and Advanced Biochemical Engineering are accredited by the IChemE as meeting the further learning requirements, in full, for registration as a Chartered Engineer (CEng, MIChemE).

The route for Scientists is accredited by the IChemE as meeting the learning requirements, in full, for registration as an Incorporated Chemical Engineer (AMIChemE).

Teaching and learning

The MSc in Biochemical Engineering programme has implemented a range of teaching practice innovations to meet the knowledge and skills needs of the sector. Key practices include problem-based learning, peer assessment, group work, enterprise projects etc. The students will be taught through a combination of lectures, tutorials/case studies, group projects and practicals. Engineering practice is taught by intense laboratory activities throughout the programme covering bioprocess-specific activities, as well as a range of analytical devices and unit operations. The whole bioprocess Pilot Plant Week exercises are also included to develop a hands-on understanding of the challenges of integrating a series of bioprocess operations. A series of teamwork activities are also embedded in the programme (e.g. design projects) to introduce our students to the design cycle and test a range of communication skills. Our students also work closely with staff to shape the curriculum through the student-staff committee.

The programme is delivered through a combination of lectures, tutorials, and individual and group activities. Guest lectures delivered by industrialists provide a professional and social context. Assessment is through unseen written examinations, coursework, individual and group project reports, individual and group oral presentations, and the research or design project.

The MSc in Biochemical Engineering programme is full-time and as such, it is expected that the student would engage with their studies typically for ~40 hours per week during term time. Students will have contact with academic staff for the purposes of learning, teaching, and assessment; mainly in person, but also occasionally online. On average, it is expected that lectures, tutorials, workshops, practicals will be covered in around 15 hours per week. The exact number of contact hours and composition varies throughout the term. The breakdown in relation to optional modules will depend on the choices of the student. Students are expected to attend all teaching events which are organised and timetabled within each module in their programme. Generally, attendance is recorded. Each module broadly corresponds to 10 hours per credit, for example, a 15-credits module has been designed to require 150 hours of study time. This time is made up of formal in-person learning and teaching events such as lectures, seminars, and tutorials, as well as independent study, assessment, revision, and laboratory work (module dependent).

MSc Biochemical Engineering for Scientists (accredited by the IChemE at B-Standard)

The MSc Biochemical Engineering (for Scientists) route is designed to equip science graduates with the essential process of engineering knowledge and biochemical engineering insight in terms one and two that builds upon their relevant earlier learning. These new skills are further developed and applied in practical and group work sessions including major design and enterprise projects in the summer term.

Core Modules (Term 1)

Fluid Flow and Mixing in Bioprocesses (BENG0005)
Bioprocess Synthesis and Process Mapping (BENG0033)
Integrated Downstream Processing (BENG0034)
Advanced Bioreactor Engineering (BENG0090)

Core Modules (Term 2)

Heat and Mass Transfer in Bioprocesses (BENG0015)
Bioprocess Validation and Quality Control (BENG0041)
Biochemical Engineering Laboratory (BENG0096)

Optional Modules (Term 2 - choose one)

Commercialisation of Research Ideas (BENG0008)
Sustainable Industrial Bioprocesses and Biorefineries (BENG0037)
Advanced Safety and Loss Prevention (CENG0020)

Dissertation Element

Bioprocess Design Dissertation (BENG0049)

MSc Biochemical Engineering for Engineers (accredited by the IChemE at F-Standard)

This route is designed to take first-degree chemical and process engineering graduates and equip them with underpinning bioscience knowledge and advanced biochemical engineering insight in terms one and two. These skills are further developed and applied in practical and group work sessions including major research and enterprise projects in the summer term.

Fundamental Biosciences (BENG0043)

Optional Modules (Term 1 - choose one)

Vaccine Bioprocess Development (BENG0028)
Industrial Synthetic Biology (BENG0040)
Bio-microfluidics and Microsystems Engineering (BENG0042)
Bioprocess Systems Engineering (BENG0038)
Energy Systems and Sustainability (CENG0026)
Bioprocess Research Project (BENG0047)

MSc Biochemical Engineering, Advanced Biochemical Engineering (accredited by the IChemE at F-Standard)

Within this route, the Advanced Biochemical Engineering Pathway is designed to take first-degree biochemical engineering graduates and provide Master's level modules encompassing the latest advances in the sector. In terms one and two, your skills are further developed and applied in practical and group work sessions including a major research project in the summer term.

Bio-microfluidics and Microsystems Engineering (BENG0042)
Environmental Systems (CEGE0015)
Process Dynamics and Control (CENG0017)
Water and Wastewater Treatment (CEGE0022)

Please note that the list of modules given here is indicative. This information is published a long time in advance of enrolment and module content and availability are subject to change. Modules that are in use for the current academic year are linked for further information. Where no link is present, further information is not yet available.

Students undertake modules to the value of 180 credits. Upon successful completion of 180 credits, you will be awarded an MSc in Biochemical Engineering.

Accessibility

Details of the accessibility of UCL buildings can be obtained from AccessAble accessable.co.uk . Further information can also be obtained from the UCL Student Support and Wellbeing team .

Fees and funding

Fees for this course.

Fee description	Full-time
Tuition fees (2024/25)	£19,300
Tuition fees (2024/25)	£37,500

The tuition fees shown are for the year indicated above. Fees for subsequent years may increase or otherwise vary. Where the programme is offered on a flexible/modular basis, fees are charged pro-rata to the appropriate full-time Master's fee taken in an academic session. Further information on fee status, fee increases and the fee schedule can be viewed on the UCL Students website: ucl.ac.uk/students/fees .

Additional costs

There are no additional costs for this programme.

For more information on additional costs for prospective students please go to our estimated cost of essential expenditure at Accommodation and living costs .

Funding your studies

For a comprehensive list of the funding opportunities available at UCL, including funding relevant to your nationality, please visit the Scholarships and Funding website .

UCL East London Scholarship

NOW CLOSED FOR 2024/25 ENTRY Value: Tuition fees plus £15,700 stipend () Criteria Based on financial need Eligibility: UK

Students are advised to apply as early as possible due to competition for places. Those applying for scholarship funding (particularly overseas applicants) should take note of application deadlines.

There is an application processing fee for this programme of £90 for online applications and £115 for paper applications. Further information can be found at Application fees .

When we assess your application we would like to learn:

why you want to study Biochemical Engineering at graduate level
why you want to study Biochemical Engineering at UCL
what particularly attracts you to this programme
how your academic, professional and personal background meets the demands of a challenging programme. We are particularly interested in any individual or group research project that you have undertaken.
how will the MSc help you in your future career aspirations

Together with essential academic requirements, the personal statement is your opportunity to illustrate whether your reasons for applying to this programme match what the programme will deliver.

Please note that you may submit applications for a maximum of two graduate programmes (or one application for the Law LLM) in any application cycle.

Got questions? Get in touch

Biochemical Engineering

[email protected]

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MSc in Biochemistry (Research)

Faculty Website: Faculty of Science Department: Department of Biochemistry Programme Level: Postgraduate Programme Name: MSc in Biochemistry (Research) Programme Code: M2003Q

Medium of Facilitation: part-time, Full-Time NQF Level: 9 NQF Credits: 180 SAQA: 74024

Application Start Date : 1 April 2024 Application End Date: 14 March 2025

Campus: Auckland Park Kingsway

Contacts: 011 559 2403 Email: [email protected]

Duration of Study: 2 Years Full-Time and 3 Years Part-Time

Programme Fees

The primary purpose of the MSc dissertation is to provide students with specialised advanced education and training while meeting the requirements of a specific research component so that students can master the required experimental and technological skills and necessary fieldwork competencies such as innovation, decision-making, strategic thinking and organisational skills. A dissertation-based Master of Science degree consists of a comprehensive study of a specialized area in the field of specialisation, reported on and submitted in the form of a dissertation at the end of the programme. The degree demands a high level of intellectual and theoretical knowledge and insight into problems related to the field of study and of critical reasoning, formulation, analysis and evaluation of a specific problem in the field of study.

Admission Requirements

The minimum admission requirement for a master programme is a qualification at NQF Level 8, an honours qualification, a four-year 480 NQF credit bachelor’s qualification (with a minimum of 96 credits at NQF Level 8), or a postgraduate diploma, in the same or a relevant field of study or discipline. The relevant field of study or discipline is determined by the relevant Faculty Board, approved by the Senate Higher Degrees Committee and ratified by Senate. Admission requirements are department specific and approved by the Executive Dean. Admission to a master programme is not automatic even if the applicant is in possession of an appropriate preceding qualification. A department may, subject to approval by the Executive Dean, require a student to successfully complete certain specified components before the master’s degree can be awarded. Students applying for master’s degree studies in general need to have obtained their previous relevant degree with an average mark of at least 65% or equivalent. In exceptional cases a student with a mark between 60% and 64% may apply to be accepted for study provided a motivation from the Supervisor and the Head of Department where the study is to be conducted is submitted to the Executive Dean of the Faculty of Science for approval.

More Information

Extended BSc in Life and Environmental Sciences (Zoology and Chemistry)

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Phagocytosis of yeast (magenta) by a macrophage, together with actin staining (green).

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MSc (Master of Science) Biochemistry, Admission, Entrance Exams, Syllabus, Colleges, and Jobs 2024

Waqar Niyazi

Content Curator

Master of Science [M.Sc] (Biochemistry) - Latest Notifications

29 August, 2024 : IIT JAM 2025 Application Form Out Soon, Check Details Here.

MSc in Biochemistry is a 2-year postgraduate program that allows you to understand the chemical processes related to living organisms. This course contains a mixture of biology and chemistry. To pursue this course you need to clear 10+2+3 with a minimum aggregate score of 45-50% .

You need to qualify the entrance exams too for securing admissions in this course. There are a number of national and college-level entrance exams for which you can apply to lock seats in this course like Amity JEE, GSAT, Pantnagar University Entrance Examination, BHU-PET, and other exams.

MSc Biochemistry Highlights

Course Level	Post Graduate Degree
Course Duration	2 Years
Full-Form	Master of Science in Biochemistry
Eligibility	50% marks in a degree course
Admission Process	Merit and Entrance Exam Based
Course Fee	Up to INR 1 Lakh per annum
Average Salary Offered	Up to INR 5 Lakhs yearly
Job Positions	Associate engineers, research scientists, professors, Microbiologist, Biotechnologists, Pharmacologists, Lab Technician, Consultant, Bioscience Business Specialist
Employment Sectors	Research Centres, Colleges, Universities, Medical equipment manufacturing companies, Pharmaceutical Companies, Hospitals, and Clinics
Top Recruiters	Wockhardt Limited, Piramal Healthcare, Biocon, GlaxoSmithKline, Panacea, and other top recruiting companies

MSc Biochemistry: What is it About?

MSc Biochemistry full form is a Master of Science degree in Biochemistry subject. It is a 2-year post-graduation course that allows you to get detailed knowledge of subjects related to biochemistry and its related domains like cell biology, immunology, microbiology, bioinformatics and etc.

Biochemistry mainly aims to provide an understanding of the structure and functioning of living things.
This course deals with genetic engineering, bioinformatics, and molecular biology.
This program fosters critical thinking and problem-solving skills to prepare candidates for dynamic environments and challenges.
The main focus of this course is to train candidates for the emerging field of biochemistry.
Give exposure to practical and theory subjects.

Why Study MSc Biochemistry?

There are numerous reasons to pursue this course. Few of those reasons are listed below which will definitely convince you to opt for this course:

It provides candidates with diverse and dynamic job opportunities.
You will be exposed to high paid jobs in both the public and private sectors.
More exciting and adventurous opportunities await them in biochemical firms.
You can also avail of scholarships through this course.
Due to advancements and rapid growth in this sector, MSc Biochemistry graduates are in huge demand.
Enhance your communication, technical and problem-solving skills.
You will get to learn technical terms related to your jobs and the protocols correlated to the same.
You can look out for solutions here by experimenting with things.

MSc Biochemistry Admission Process

Admissions in MSc Biochemistry can be procured on the basis of both merit and entrance exam. There are a variety of exam scores that colleges accept for offering admissions. Moreover, once the applications are released, you can easily apply for these courses. To apply for this course you need to follow the below-mentioned steps:

You need to either visit the admission office or the official website of the college to avail the application form.
Then you need to fill the application form by furnishing DOB, contact details, educational qualifications, identity proofs, signatures, and etc.
Lastly and finally, you need to make the final application fee payment.
If you are applying for the college, that is offering admissions on the basis of entrance exams then you need to apply for those entrance exams too.

Also, ensure that you meet the minimum educational eligibility criteria with minimum required marks.

MSc Biochemistry Eligibility

To secure admission in this course, you need to befit the eligibility criteria for the same. Few of those eligibility qualifications are discussed below, you can check here that whether you are qualified for this course or not:

Must have qualified their 10+2 from a recognized board or equivalent.
Should have secured a minimum aggregate score of 50% in the BSc degree course or equivalent.
You might have to appear and qualify national and state level entrance examinations to secure admissions. Make sure that you score above 45% in these entrance examinations to lock your admission seats in good colleges.
Candidates between the age of 17-21 years , can apply for this course.

MSc Biochemistry Entrance Exams

To acquire admissions in the MSc Biochemistry course you have to appear for National and College-level entrance exams like BHU-PET , GSAT , Amity JEE , AIIMS Biochemistry entrance exams, and other exams.

Few of those important entrance exams are discussed below with their important dates and details:

Name of the Exams	Registration Dates (Tentative)	Exam Dates (Tentative)
	December 2023 – May 21, 2024	January 2024 – May 2024
	February 2024 – April 2024	May 15 - 31, 2024
	November 28, 2023 - May 29, 2024	May 2024
	January 2024	May 2024

How to Prepare for MSc Biochemistry Entrance Exams?

To prepare for these entrance exams you need to do very well. Few of the common preparation steps are discussed below:

Prepare a time table to timely finish the syllabus.
Refer to the previous year’s question papers and solved mock test papers.
Go through the topics of Bachelor’s degree subjects.
Mostly, these topics include general science, cell biology, and immunology questions but as per previous year question papers, it also includes questions from metabolism, cancer biology, and bioenergetic related questions.

How to get admission in a good MSc Biochemistry college?

Keep track of updates and notifications of the colleges you are applying for.
Secure good marks and ranks in entrance examinations.
Prepare properly for the entrance examinations.

MSc Biochemistry Syllabus

MSc in Biochemistry is a postgraduate course of 2 years that comprises 4 semesters . The course curriculum comprises subjects related to biotechnology, bioinformatics, immunology, cell biology, and similar.

The semester-wise syllabus of the course is tabled below to give you an idea of the subjects to be taught under the course study. It covers research topics, practical labs, and dissertations too.

Semester 1	Semester 2
Enzymology	Biophysical and Biochemical techniques
Structure and Function of Biomolecules	Molecular Biology I
Bioenergetics and Intermediary Metabolism	Nutritional and Clinical Biochemistry
Cell Biology and Physiology	Plant Biochemistry
Practical Labs	Practical Labs
-	Seminar Session
Semester 3	Semester 4
Basic Biotechnology	Bioinformatics
Introductory Microbiology	Stem Cell and Reproduction
Molecular Biology II	Biostatistics and Research Documentation
Immunology	Practical Labs
Practical Labs	Project Reports
Seminar Session	-

Read More Detailed MSc Biochemistry Syllabus

MSc Biochemistry Top Colleges

Some of the top colleges and universities for MSc in Biochemistry are listed below. Few of these universities are top-ranked as per NIRF , The week , and India Today ranking .

University Name	Location	Average Fee
	Hyderabad	INR 28,000
	Bangalore	INR 1 Lakh
	Pune	INR 1.64 Lakhs
	Uttar Pradesh	INR 2.68 Lakhs
	Gurgaon	INR 2.09 Lakhs
	Mysore	INR 2.42 Lakhs
	Delhi	INR 2,805
	Delhi	INR 20,000
	Delhi	INR 1.05 Lakhs
	Rohtak	INR 22,034

Quick Look into top MSc Biochemistry Colleges

You can apply for any of the colleges as per your choice.

College Comparison

The below-given table shows the major differences between the top MSc biochemistry colleges in India. This table will let you know the key differences between the colleges:

Parameter	Aligarh Muslim University	Amity University
NIRF Ranking	18	151
Location	Uttar Pradesh	Gurgaon
Type of Institute	Central	Private
Overview	Institute offers a number of undergraduate, postgraduate, and doctoral degrees. It holds the best national, and International faculty.	It covers 110 acres of campus land. University also offers distance learning courses too. It offers both undergraduate and postgraduate courses.
Average Fees	Up to INR 2.68 Lakhs	Up to INR 2.09 Lakhs
Average Salary Offered	Up to INR 7 Lakhs per annum	Up to INR 5 Lakhs per annum
Top Recruiters	Facebook, Infosys, Samsung, Tata Motors, eBay, Adobe, IBM, Boston Consultancies, and others.	Reliance Jio, Deloitte, Big Basket, ICICI, Network18, Amazon, Britannia, and alike.

Source: Universities Official Websites

MSc Biochemistry Distance Education

Apart from Pursuing MSc Biochemistry from regular colleges, you can also secure admissions in this course from distance learning mode. This option offers you the opportunity to learn the course study from reputed colleges and universities without migrating from your hometown.

Through distance learning, the study material is provided through postal service, emails, pen drives, and online classes. You need to complete your graduation in Physics, Chemistry, and Biology/Mathematics with a score of a minimum of 45-50% . MSc Biochemistry Distance Education fees range from INR 50,000 to 3 Lakhs per annum .

Some of the top universities offering this course from distance learning are listed below:

University Name	Location	Average Fee
	Mysore	INR 41,000
	Chattisgarh	INR 83,000
	Andhra Pradesh	INR 25,000
	Tamil Nadu	INR 30,250
	Uttar Pradesh	INR 2.4 Lakhs

MSc Biochemistry Distance Education universities

Course Comparison

Msc biotechnology vs msc biochemistry.

MSc in Biotechnology and MSc in Biochemistry are similar courses in some of the terms. MSc Biotechnology deals with the biological systems, living organisms, and the derivatives whereas MSc Biochemistry deals with the chemical processes in living beings. The below-given differentiation will help you make choice in terms of impact, course material, and orientation:

Parameters	MSc Biochemistry	MSc Biotechnology
	Master of Science in Biochemistry	Master of Science in Biotechnology
	2 Years	2 Years
	This course helps in studying the chemical processes in living matter. It basically deals with the structures and functions of cellular components.	MSc in Biotechnology is a course that allows you to refine the skills and knowledge in subjects like cell biology, Immunology, and alike.
	Both Merit-Based and Entrance exam based	Both Merit-Based and Entrance exam based
	Up to INR 1 Lakh per annum	Up to INR 2 Lakhs per annum
	Up to INR 5 Lakhs per annum	Up to INR 5 Lakhs per annum

Depending upon the interest and choice, you can pick the course for persuading your master’s course.

Source: Surveys and College’s Official Websites

MSc Biochemistry Job Prospects and Career Options

There are a number of MSc Biochemistry jobs available in the market. An average salary offered to an MSc biochemistry graduate is up to INR 5 Lakhs per annum . Raise in pay depends upon the skills and experience a graduate holds. Plenty of organizations like GlaxoSmithKline, Abbott Laboratories, Johnson and Johnson, Cipla, Biocon, Bharat Serum, and alike are the top recruiters of this course graduates.

There is a flood of employment areas where you can try to get placed after this course completion. A few of those employment areas are listed below for your reference.

Research Laboratories
Diagnostics Centres
Colleges and Universities
Pharma Companies
Medical Equipment manufacturing Companies
Biotechnology Firms

Lucrative job positions are open to MSc Biochemistry graduates in the field of science, education, marketing, engineering, and alike. Some of those job positions are discussed below with their roles, responsibilities, and highest, lowest, and average salary packages.

Job Profile	Description	Average Salary Offered
Research Scientist	The role of a research scientist is to gather and analyze information. Their main aim is to design work for academic subjects and theories	INR 6.68 Lakhs
Lab Technician	Lab Technician’s responsibility is to perform laboratory procedures. They have to perform clerical functions in labs.	INR 2.38 Lakhs
Pharmacologists	Pharmacologist’s job role is to study and report the ways how medicines and drugs interact with the human body and animal beings.	INR 5.12 Lakhs
Professor	Professors are responsible for shaping the career of the students by preparing lectures for them in the subject and by clearing their doubts.	INR 10 Lakhs

Source: Payscale

MSc Biochemistry Scope

It totally depends on the candidate what choice they wish to make towards their career. Few of the graduates opt for enhancing their skills and experience by gaining more knowledge of the subject.

This course not only exposes you to career options in the jobs sector but also opens you to the option of further studies in the same discipline. Few of the courses that can be pursued after this course are mentioned below:

M.Phil Biochemistry
Ph.D. Biochemistry

View more MSc Biochemistry Job Prospects and Scope

MSc Biochemistry: FAQs

Ques. What is the course duration of MSc Biochemistry?

Ans. MSc Biochemistry is a 2-year post-graduation degree.

Ques. Can an aspirant pursue an MSc Biochemistry course from distance learning mode?

Ans. Yes, an aspirant can pursue this course from distance learning. A good number of colleges and universities are offering this course from the distance education mode.

Ques. What is the mode of examination for applying to this course?

Ans. Entrance exams conducted for this course is through online mode.

Ques. What are the job positions available after completing MSc in Biochemistry?

Ans. There is a pool of lucrative job opportunities available after pursuing MSc in Biochemistry. Few of them are Associate engineers, research scientists, professors, Microbiologist, Biotechnologists, Pharmacologists, Lab Technician, and other similar positions in the same domain.

Ques. Is MSc Biochemistry a professional degree course?

Ans. MSc Biochemistry is mostly a non-popular course among higher secondary students. Therefore, less number of students chose it and this is why finding a good job in this discipline is not that difficult.

Ques. What is the scope after completing MSc in Biochemistry?

Ans. You can either go for higher studies courses like Ph.D. in Biochemistry, M.Phil in Biochemistry or you can opt for the job sector to start your career at an early age.

Ques. Is IGNOU offering this course of MSc Biochemistry?

Ans. No, IGNOU is not offering MSc in the Biochemistry course.

Ques. What is the average fee charged for this course?

Ans. An average fee charged for this course ranges up to INR 1 Lakhs per annum.

Ques. What is the highest salary package you can afford after this course?

Ans. You can expect the average package of INR 5 Lakhs per annum whereas the highest salary package offered in this domain is up to INR 10 lakhs per annum depending upon the skills and experience you hold.

Ques. What DU colleges are offering in this course?

Ans. Yes, Delhi University is offering MSc in Biochemistry course.

About jamia millia islamia

Facilities are bery good here . Very friendly and helpful. We have good facilities professional and experienced ones . Per semester we will have two internal exams . The exam conducting dates and time is very strict. Very sheduled and strict system for that . Exam is not taht much tough . We can go through the previous year qoustion paper and easily pass exam. Someof the faculties are very good in academic and research backgrounds but some of them are not professional in teaching as we can see in every institution

Course Curriculum Overview

I have choosed this course because my bachelors was in botany so i wanto choose a course of lifescience area . And i like biology more than any subject. We have practical sessions everyday from morning to noon . It give more practical knowledge and it would ne helpful for phd and further research. We are doing practical in groups if it is doing individually it will be more beneficial to the student to understand the process and concept

Govt. holkar science college review

Loan/ scholarship provisions.

The first year fee is 22600 and the second-year fee is 23200. Students can apply for the state scholarship program but for the general category, only the medhavi yojna is available. Government will provide a full fee for the course even extra for your daily expenses, ST and sc students will also get the daily expenses monthly by govt. The income of the parent of the child should come under the eligibility criteria otherwise no scholarship will be provided. The students who apply for the Sambal and Medhavi Yojna scholarship programs are free from paying any fees to the college but the students who is taking scholarships from the state government from Mptaas should give the fee later after the year-end the scholarship will be credited to your account. This year the fee whether it is increasing or not, will definitely increase

I chose an MSc in biochemistry. The best thing is that lab work it is completely a different experience than other colleges it gives you a nice experience lab work. The facilities are very good in the college and also in our department The course is good and the difficulty is not much. The faculty of the biochemistry department are very educated and experienced so you will not face any difficulty in the course and your doubts will be solved. There is an exam called mid-sem on the basis of mid-sem you get the marks for the internals.

Welcome to galgotias University

Total amount of fee during your course duration about 1.12 lakh for two years In which tution fee and many more expenses such charges for I'd card included. Currently college also provided a scholarship for those students who score more than 9 cgpa . I don't know the exact amount of scholship

Faculty is well educated.Almostball the faculty member are doctorate.They help student in every possible ways in academics or other. Their is great interaction between faculty and students. Every student would provide mentor which provide guidance for future and many more things

Central University of Kerala through eyes of a North Indian Student

Campus life.

Campus life was pretty slow. People who are introverted will thrive here. Fest is catered to local student only. Outside students aren't able to enjoy as all performances and events well 90% are catered to local students. Technological provisions are of poor quality. Sports facilities are decent but there's no proper football or cricket turf. There is major lack of student-run social groups that promote mingling of students from all backgrounds. Student have formed groups based on their respective domiciles. Library is very small. New library is still under construction. Collection of library is decent.

Faculty are highly approachable. But only few of them teach in a manner helpful for competitive exams and real world applications. Most of them prove unhelpful for recommendations or any mentorship for other jobs and research opportunities. Student themselves have to seek out internships and work without any external help.

Fergusson college

Tution fee for biochemistry is 60000 per year. You can pay it in the installment. I required about 1.50 lack rupees for total course including all fees. I got mudita scholarship of rupees 58000. Campus is provided a job but there is very less possibility to get placement from college.

Bulk of festival are going on in Fergusson college. Sports are also available which increases students ability and platform to students. Most of social groups, clubs, are going on in college which provides information about recent activity which going on

Be honest with everything you do in life

The complete fee depend on in which category you are, for SC category it's 30000 for 1st year. Were you get scholarship /freeships on time if everything is cleared by documents.there are many beneficial scholarships are available on MAHADBT portal so simply apply in whichever you're applicable. For campus employment the provide stipend if you qualify the interview and apptitude round and if your qualified you'll get job roles and other necessary information

Placement Experience

There are placements available at Fergusson college and those who qualify the interview round definitely get the benefits of those placements. The companies that visit for placements are Enzene, syngene, byjus etc. No such percentage is considered of students while interviews it's just your behaviour and efforts while talking in an interview my plan after getting a degree is to join the pharmaceutical industry.

a somewhat honest review of andhra university

the fee structure also depends on the reank the individual has secured in the entrance examination. individuals who have scored a high rank will have to pay a sum amount of 24,200 ; while the students with moderate ranks have to pay 52,200 ; also there is a mnagement quota for students that didn't meet the criteria for admission but are willing to study in the college they have to pay a sum amount of 80,000 there will be no fee hike throughout the course duration. this is excluding the examination fee that is to be paid for every semester as for the examination fee , students have to pas an approximate of 1,500 rupees if the student is eligible for any government scholarships , then there can be a partial reduction or total reduction in the fee depending on the scholarship amount. i have yet to parttake in any placement , but as far as i know the campus provides good employement from famous pharma companies, with an average of 2.7-3L package

the campus life is very exciting and very good in the university the university employs an ANTI-RAGGING POLICY which isn't just words but also true due to this policy the campus life is very good at the start of every academic year there is a freshers fest for the new students and a farewll at the end of the academic year for the pass-out candidates. excluding these the college conducts sports competitions on the national science day every year and every department has it's own annual day celebrations and students acn actively participate in them.

Let's choose the best

There is an digital library in the campus which helps the students to access over a vast variety of books for reference.Even though the campus area isn't large enough,the availed area is utelized by the students to it's fullest for cultural events.There are different clubs available for students which are based on scientific , sociological , physical fields .(NCC,NSS, Students union, different clubs etc.).There are also digital classrooms for students

This course offers knowledge on microbiology and biochemistry field that let's you to pursue a great carrier in research fileds.The curriculum prepares the students for different medical, research and laboratory jobs available after the completion of this course .It gives great aspects in theoretical knowledge but technical knowledge needs to be improved .

Campus Life was much explored by me.I have involved in many arts and sports club activities.I have a membership in the National Service Scheme and I have done a National camp of the same.I have always engaged in sports rather than arts.College had a wide range of accessibility to libraries and books.

I love chemical reactions that's why I mainly chose this course.Teaching was perfect down to the last minute details.Exam timing and schedule was much bored because even if the current semester closes.Exam of the same semester will be conducted on the middle of next semester.

Course curriculum was comprehensive and understanding in relation to practical and thertical aspects. It was over all satisfactory and gained alot of knowledge and learning lot of things apart from aducation . The frequency and the timeing of exams was announced before 2-3 months. Teachers use good teaching methods for

The overall fee structure in the college was average. I think even from a middle class family could afford it easily It is better to choose this college for good education and environment. Overall I can say this is one of my favorite colleges.

My post graduations @YMC

The Tution fee is very affordable for me it costed 3 lakhs overall which included my books and staying cost and I felt this is less and fair good money I received scholarships from Ssp and other portal The campus is so good green campus which is mind relaxing

I think that my course had good scope abroad and this course has good clinical exposure made me more skilled to work in clinical labs and in the teaching experience The quality of education provided here is very good and we have 3 internal exams

My Life in YEN Campus

I choose medical biochemistry because i wanted to work in hospital sectors and also in research labs and i think that our vourse has very good scope abroad since its a 3 year master programme which has good value In the first year we had the basic subjects of medical course like Anatomy,physiology,biochemistry and later for other 2 years we had to move to our respective department where we have clinical exposure and skill based works teaching method with smart board and led is very good where the students have to take regular seminars etc exam is conducted by YMC university under NMC guidance

Internships Opportunities

Internship is given by our college and we are made to work in YMCH hospital which makes us more skilled and good thing is they give stiffened for our work so we are happy to work here And coming to the project work the lecturers are very skilled and they make us to work on some prospective studies and we are exposed to present it in front of SRB for ethical clearance and stuffs and we are much more encouraged to make aphd in future

My beautiful journey in YMC

Yen fiesta is our college fest which is conducted every year and many awareness programs were conducted regularly Classrooms are spacious with proper lights and Acs fans Whiteboards smart boards and led tvs Our college give good importance to sports our college has indoor stadium and big ground

Fee is very affordable by the middle class family and my overall course costed 3 lakhs And our college has so many facilities including mess, College bus,laundry and medical facilities All the Pgs are stiffened with minimum of 15 thousand per month

Life in Yenepoya

The course fee of my course Masters in Medical Biochemistry is Rupees One Lakh per year in the first two years and in the final third year we have a stipend of 15,000/- per month for 10 months, which is pretty much a good deal and really helpful for us students.

The syllabus of this course Masters in Medical Biochemistry is similar to 1st year MBBS syllabus in the first year. We have exams at the end of first and third year and internal exams in between them. There is no university exams in the second year.

Yenepoya is the best option for future

The campus life was very good and enjoyable. The campus was eco-friendly and beautiful. celebrates most of the programs and cultural events. library contains so many collections of the latest books and also its well-developed library. It contains facilities to study, read and do other works. There are very technically developed classrooms with projector and other facilities. There are other programs like arts and sports conducted every year. there are so many associations, clubs and other portals for building a student-efficient

On final year we are getting stifient and at the end we have placements too.placement can be given including at yenepoya medical college.For other courses they are giving placement to other company's.Most of the students with pass mark and skills are getting placement.my plan after getting the degree is to get a better job in hospitals in suggest yenepoya too.

My Experience which made me an Expert

Our campus is full of greenary and garden which makes your mind peaceful and calm with small fountain and garden in it . Our college has multiple sports activities incl football,volleyball,Basketball,ball badminton. There are so many small association which look forwards to help the needy in this society under the name of our college. Many activities and awareness programs are conducted in and around the city

Biochemistry has wide options where we can opt fo clinical research jobs, quality control of lab, Teaching , forensic jobs etc The teachers here are excel in their subject and has very good communication skill they encourage students to come front and speak I suggest to keep the same effort throughout

College where I learned how to study

Campus was nature close and eco friendly. The facilities and technological provisions within the classroom are good . Sports and extracurricular activities offered on campus was also good . Student portal and yengage are there for study purpose for student .

Curriculum was clear and we can understand everything in curriculum. Exams and all are going currectly , no lagging . Nothing is there to suggest the areas for improvement in the course. The frequency and timing of exams are currectly going on .

My campus my experience

Our course is very good and fees is very is less comparing to the other colleges In our priemise.The teaching staff are all very friendly and they will help with every aspect of the our studies and all the exams are going on properly there is no due on it

Our fees structure is total two lakh that is per year One lakh and in third year we are getting stipend fifteen thousand for ten months. Campus employment program is there Campus visit is there some programs they conducting

Life of Yenepoya

It's three year course but we have to pay fees for two year that is one lakh per year and on third year University provide the stipend that is fifteen thousand per month for 10 month .There are many scholarship available commonly post metric .The only thing that disappointed is there is no CL on third year

The main highlights of campus is eco friendly.There are many interesting clubs and programmes.The annual function were held on mid October.There are many social work activities.The Library provide many paid articles.

History of my biochemistry life

It was a very nice campus... The faculty are great. They are very friendly, they help us in critical Situations. The library is nice.. the Book bank facility is available here .. it has a great laboratory... Specially biochemistry lab is great

The campus has a annual social.. in the month of December ..we all are enjoy in a great way.. This campus has a sports group.. annual sports happen in this campus.. group tournament occurs in this campus.this campus has a green bio club

Master of Science [M.Sc] (Mathematics)

Master of science [m.sc] (chemistry), master of science [m.sc] (physics), master of science [m.sc] (computer science), master of science [m.sc] (zoology), bachelor of science [b.sc] (nursing), master of science [m.sc] (biochemistry) colleges in india.

Post Graduate Institute of Medical Education & Research - [PGIMER]

Indian Agricultural Research Institute - [IARI]

Jamia Millia Islamia University-[JMI]

Banaras Hindu University - [BHU]

Acharya Nagarjuna University - [ANU]

Fergusson College

Punjab Agricultural University - [PAU]

Aligarh Muslim University - [AMU]

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Latest Research Topics in Biochemistry (for Degree, Masters Projects and Dissertations)

latest research topics for biochemistry students

We have seen lots of biochemistry research projects and dissertations uploaded on our academic research database in the past couple of years. If you are looking specifically for suitable and new research topics for Biochemistry degree or masters projects and dissertations this compilation should be of some help.

Aphrodisiac Potential of Calotropis procera (Rooster Tree) Stem Aqueous Extract on Some Reproductive Markers in Male Albino Rats

The trade in traditional aphrodisiacs on the street of Nigeria is at all-time high. Several types are on display or advertised by vendors. One of such is Calotropis procera. The aphrodisiac potential of Calotropis procera aqueous stem extract was investigated on some reproductive markers in matured sexually active male albino rats. Read/Download

Effect Of Chronic Exposure To Petroleum Hydrocarbon Pollution On Some Biochemical Parameters Of Individuals Native To Ebocha, Niger Delta

The impact of pollution due to gas flaring on individuals native to Ebocha in Niger Delta Area was investigated. One hundred and five apparently healthy individuals between 21-70years who consented for the study were screened, seventy five individuals from Ebocha and thirty from Nsukka-a control location with no history of petroleum hydrocarbon pollution. Read/Download

In Vitro Antioxidant Activities Of Dichloromethane Extracts Of Strychnos Henningsii G. And Ficus Sycomorus L.

Most of biochemical reactions in the body generates Reactive Oxygen Species (ROS), which are involved in the pathogenesis of oxidative stress-related disorders like diabetes, nephrotoxicity, cancer, cardiovascular disorders, inflammation and neurological disorders when they attack biochemical molecules like proteins, lipids and nucleic acid. Read/Download

Prevalence Of Hypoglycemia In Newborn At Kenyatta National Hospital And The Response To Glucose Supplementation In Low Birth Weight

Hypoglycaemia in neonates is defined as blood glucose concentration below 1.1mmol/l for term neonates. A common abnormality in neonates, it is associated, with neurological damage and death when it occurs in the first few days of life. Read/Download

In Vivo Anti-Inflammatory, Analgesic And Antipyretic Effects Of Dichloromethane Stem Bark Extract Of Acacia Mellifera In Mice And Rat Models

Inflammation is a reaction to irritants that causes an injury to the body. Pain is a physical discomfort caused by injury or illness while pyrexia is an increase in body temperature above the normal range (36.5°C–37.5°C). Commonly used conventional drugs against inflammation, pain and pyrexia are effective but due to long term use, these drugs tend to be costly and are associated with adverse side effects. Read/Download

In Vivo Hypoglycemic Activity And Safety Of Selected Medicinal Plants Used In The Management Of Diabetes Mellitus In Elgeiyo-Marakwet County, Kenya

Diabetes Mellitus is a group of metabolic disorders sharing a common underlying feature of hyperglycemia with disturbances of carbohydrate, protein and fat metabolism. Read/Download

Comparative And Functional Analysis Of Tsetse Fly Aquaporins

Tsetse flies (Glossina sp) are the vector of African trypanosomes, the causative agents of sleeping sickness in man and Nagana in cattle. The insect is strictly hematophagous, taking in significantly high quantities of water during bloodmeals that present a considerable osmotic challenge. Read/Download

Check out Hundreds of more Biochemistry Thesis, Dissertations and Research Projects

Antiplasmodial Activities And In Vivo Safety Of Extracts And Compounds Of Seven Indigenous Kenyan Medicinal Plants Used Traditionally To Treat Malaria

Among human parasitic diseases, malaria is the most important and it has global incidence of 300 to 500 million cases per year with about 1.5 million deaths among African children. Recently the disease has been subjected to massive control efforts with varying degrees of success. Read/Download

Comparison Of Malaria Rapid Diagnostic Tests At Health Facilities And Community Level In Siaya County Kenya

Malaria remains a major public health problem affecting an estimated 40% of the world’s population and resulting in more than 650,000 deaths worldwide every year. The emergence and rapid spread of parasite resistance to affordable, easy to use and widely available anti-malarial drugs such as chloroquine and sulfadoxine-pyrimethamine (SP) has prompted many countries in endemic areas to switch to the more effective artemisinin-based combination therapies (ACTs). Read/Download

Evaluation Of Passive Immunity To Schistosomiasis In Mice Transfused With Hyper-Immune Baboon Serum

Schistosomiasis is a tropical disease caused by worms in the genus Schistosoma. It remains one of the most prevalent parasitic infections and has significant economic and public health consequences. Read/Download

Bioprospecting For Hypoglycemic Activities And Safety Of Selected Traditionally Used Plants In The Management Of Diabetes Mellitus

Diabetes mellitus is a group of metabolic diseases characterized by high blood sugar levels that result from defects in insulin secretion, or action, or both. The disorder completely throws the metabolism of dietary carbohydrates, lipids and proteins into disarray. Read/Download

Analgesic, Antipyretic And Anti-Inflammatory Potential Of Dichloromethanolic Root Extract Of Clutia Abyssinica Jaub And Spach In Rats And Mice Models

Various diseases and injuries are always presented with pain, fever and inflammation. These are considered as symptoms associated with various pathological processes in an animal body. Drugs that are used to alleviate pain, fever and inflammation such as non-steroidal anti-inflammatory drugs exhibit adverse effects for example cardiac abnormalities, peptic ulcers, liver toxicity and kidney failure. Read/Download

Evaluation Of In Vivo Toxicity Of Dichloromethane: Methanolic Leaf Extracts Of Prosopis Juliflora In Rat Models

Prosopis juliflora (Mathenge) is an exotic, evergreen leguminous plant found in the dry Coastal, Rift Valley and Northern parts of Kenya. It is tolerant to extreme environmental conditions, declared a deleterious weed in Kenya and is among top 100 most invasive species worldwide. Read/Download

Identification and Characterization of Variant Surface Glycoprotein (VSG) Genes with diagnostic potential for Trypanosoma brucei rhodesiense

Human African Trypanosomiasis (HAT) is present in 36 sub-Saharan African countries. The disease is easier to treat in early stage than late stage when treatment with melarsoprol is responsible for significant fatality. Read/Download

Anti-Obesity, Cognitive Enhancing, Neurobehavioral, Antioxidant Effects And Phytochemical Profile Of Dichloromethane Leaf Extract Of Gnidia Glauca (Fresen)

Obesity is a chronic metabolic disorder characterized by increased adipose tissue mass due to positive energy balance. The epidemic of obesity is currently on the rise probably due to increasingly sedentary lifestyles combined with easy availability of palatable, high-fat foods. It presents modifiable risk factor for cognitive impairements, anxiety and motor deficits. Read/Download

In Vitro Antioxidant Effects Of Dichloromethane –Methanol Leaf Blend Extracts Of Clutia Abyssinica And Maytenus Obscura

Oxidative stress is a state of imbalance between free radicals and antioxidants in the body. It is the main cause of several disease conditions such as diabetes, different types of cancers, cardiovascular diseases, inflammation and aging. Read/Download

Production Of Hybrid Rice Using Environment Sensitive Genic Male Sterile (Egms) And Basmati Rice Lines

Rice is the third major food crop in Kenya and, its production is estimated at 129,000 tons which is below the annual national demand of 548,000 tons. Kenya rice yields per hectare are very low compared to major producers like China. Basmati (B) varieties, B370 and B217, are preferred by most rice consumers and are cultivated as a cash crop by 98.8% of Mwea rice farmers. Read/Download

Find out More Dissertations, Research Projects and Thesis in Biochemistry


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