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Biological Sciences×

Newcastle University, Full Time Masters Degrees in Biological Sciences

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World-class microbiological research takes place in Newcastle in medical sciences, biological sciences, and civil engineering and geosciences. Read more
World-class microbiological research takes place in Newcastle in medical sciences, biological sciences, and civil engineering and geosciences. We welcome MPhil research proposals in all three of these fields. We are well funded and this creates a vibrant and dynamic environment for postgraduate study.

We offer MPhi supervision in:

Medical sciences

The Centre of Bacterial Cell Biology researches fundamental aspects of the cell biology and biochemistry of bacteria, providing scientific insights crucial for the discovery and development of new antibiotics, as well as providing solutions to a huge range of industrial and environmental problems. Other research interests include:
-Chromosome replication and segregation
-Transcription and translation
-Protein structure, function and engineering
-Cell envelope, growth and division
-Synthetic biology, development and gene regulation
-Bacterium-host interactions

Biological sciences

The Applied and Environmental Microbiology Group researches:
-Microbial biology in a range of habitats
-Discovery of natural products, eg antibiotics
-Reduction of food spoilage
-Production of biofuels, bioremediation of polluted environments
-Pathogens and host–pathogen interactions in a range of diseases including those in plants and coral reefs

Civil engineering and geosciences

The multidisciplinary research of Civil Engineering and Geosciences contributes fundamental advances in:
-Microbial ecology
-Environmental microbiology
-Environmental engineering and Earth systems
-Biogeochemistry
-Microbiological aspects of engineered and natural environments
-Anaerobic crude oil degradation in petroleum reservoirs
-Engineered biological treatment systems
-The microbial ecology of climatically significant processes such as methane cycling

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Research in biotechnology at Newcastle spans the Faculty of Medical Sciences (FMS) and the Faculty of Science, Agriculture and Engineering (SAgE). Read more
Research in biotechnology at Newcastle spans the Faculty of Medical Sciences (FMS) and the Faculty of Science, Agriculture and Engineering (SAgE). We invite proposals for MPhil and PhD projects in biotechnology across the fields of medical sciences, biological, agricultural and environmental sciences, and marine science and technology.

We offer MPhil supervision in the following research areas:

Medical sciences

In medical sciences our research focuses on translational medicine, from drug discovery and development to effective product commercialisation and process optimisation. Our key areas are:
-The development of drugs for the treatment of cancer and psychiatric disorders
-Novel antibiotic innovation
-Design and development of integrated electrochemical and bio-microelectromechanical (bio-MEMS) sensors for application to point-of-care diagnosis of disease processes and sensor technologies for real-time, high content intracellular analysis using polymer-based nanosensor systems

Biological, agricultural and environmental sciences

In biological, agricultural and environmental sciences our research focuses on:
-The search and discovery of commercially significant natural products
-The production of crops with novel traits
-The fundamental role played by micro-organisms in the turnover of pollutants and the production of high value novel compounds, including pharmaceuticals and pesticides.

Marine science and technology

Our work has led to pioneering advancements in developing novel antibiotics and omega-3 oils from plankton. We also explore the industrial applications of marine organisms such as the development of environmentally friendly antifouling coatings.

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Our Animal Behaviour MRes is a research-based course with a taught component that is equivalent to an MSc. It provides a springboard into a career that involves a working knowledge of scientific research. Read more
Our Animal Behaviour MRes is a research-based course with a taught component that is equivalent to an MSc. It provides a springboard into a career that involves a working knowledge of scientific research.

The study of animal behaviour is an exciting and theoretically rigorous area of the biological sciences with possible applications in conservation, animal welfare, biomedical science and agriculture. The Centre for Behaviour and Evolution at Newcastle University brings together world experts in Behavioural Ecology, Comparative Cognition, Neuroethology and Animal Welfare.

Experts at Newcastle have discovered, among other things, that bees learn better when exposed to caffeine; that starlings who were hungry as babies become heavier as adults; and that mice have pain faces. You too can be part of this exciting research community.

The course is designed for graduates with a BSc in the life sciences, psychology or anthropology. It can be taken either as a stand-alone qualification or as an entry route onto a PhD.

The taught component of the course includes training in research approaches relevant to the area of animal behaviour. You have the flexibility to develop your own bespoke course by selecting a set of three complementary modules. The modules Comparative Cognition (MMB8043), Applied Ethology (ACE8074) and Sensory Systems (MMB8019) in particular are recommended for this course. You will also participate in training in general research principles, and other professional and key skills.

The core module on the biological study of behaviour introduces the central questions related to animal behaviour research (adaptive consequences, proximate mechanisms, development, and evolutionary history) and the research methods associated with each. Other relevant modules focus on comparative cognition, on sensory systems (including neuroethology) and on applied ethology for animal welfare. Research-led seminars, delivered by members of the Centre for Behaviour and Evolution cover a wide range of taxa (insects to humans), topics (olfaction to cooperation), and methodologies.

Your research project comprises the major element of the course. This project will involve 24 weeks of research in an area of animal behaviour under the supervision of an expert academic researcher in the field.

The course allows you to experience an internationally competitive research area, predominantly in academia but also potentially in industry. Graduates from our programme have gone on to competitive PhD studentships, as well as jobs in research and in zoos.

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Bioscience research at Newcastle is part of the Institute for Cell and Molecular Biosciences. We integrate traditional bioscience disciplines to investigate the steps from genotype to phenotype. Read more
Bioscience research at Newcastle is part of the Institute for Cell and Molecular Biosciences. We integrate traditional bioscience disciplines to investigate the steps from genotype to phenotype. Our research also incorporates chemistry, biophysics and eukaryotic-microbial models.

We offer MPhil supervision in all of our main research areas. You will join a vibrant research community of about 100 postgraduate research students in the Institute. You will work in one of our established research groups alongside postdoctoral researchers, senior students and staff. You will be encouraged to present your work in the Institute and at scientific meetings.

Our staff are successful in attracting postgraduate funding from diverse sources, such as:
-UK Research Councils, including a BBSRC Doctoral Training Partnership
-Industrial CASE awards
-Charities
-UK and international government initiatives

Our results in the Research Excellence Framework 2014 were exceptional. We were ranked 1st for research output amongst all UK submitted university biosciences departments (UoA5 - Biological Sciences Unit of Assessment). In the overall scores, the Institute for Cell and Molecular Biosciences (UoA5) was 5th out of 44 UK submissions.

Our research is divided into four themes, each linked to a research group.

Facilities

Research in the Institute for Cell and Molecular Biosciences is supported by a wide range of facilities, including services and equipment for:
-Cell imaging
-High throughput technologies
-Bioinformatics and proteomics
-Transcriptomics and X-ray crystallography
-Proteomics and biological mass spectrometry

Underpinning our status as a world leading research institute was the construction of the Centre for Bacterial Cell Biology (CBCB) that was opened in 2010.

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This course provides specialist skills in core systems biology with a focus on the development of computational and mathematical research skills. Read more
This course provides specialist skills in core systems biology with a focus on the development of computational and mathematical research skills. It specialises in computational design, providing essential computing and engineering skills that allow you to develop software to program biological systems.

This interdisciplinary course is based in the School of Computing Science and taught jointly with the Faculty of Medical Sciences and the School of Mathematics and Statistics. The course is ideal for students aiming for careers in industry or academia. We cater for students with a range of backgrounds, including Life Sciences, Computing Science, Mathematics and Engineering.

Computational Systems Biology is focused on the study of organisms from a holistic perspective. Computational design of biological systems is essential for allowing the construction of complex and large biological systems.

We provide a unique, multidisciplinary experience essential for understanding systems biology. The course draws together the highly-rated teaching and research expertise of our Schools of Computing Science, Mathematics and Statistics, Biology, and Cell and Molecular Biosciences. The course also has strong links with Newcastle's Centre for Integrated Systems Biology of Ageing and Nutrition (CISBAN).

Our course is designed for students from both biological and computational backgrounds. Prior experience with computers or computer programming is not required. Students with mathematical, engineering or other scientific backgrounds are also welcome to apply.

The course is part of a suite of related programmes that also include:
-Bioinformatics MSc
-Synthetic Biology MSc
-Computational Neuroscience and Neuroinformatics MSc

All four programmes share core modules, creating a tight-knit cohort. This encourages collaborations on projects undertaking interdisciplinary research.

Project work

Your five month research project gives you a real opportunity to develop your knowledge and skills in depth in Systems Biology. You have the opportunity to work closely with a leading research team in the School and there are opportunities to work on industry lead projects. You will have one-to-one supervision from an experienced member of the faculty, supported with supervision from associated senior researchers and industry partners as required.

The project can be carried out:
-With a research group at Newcastle University
-With an industrial sponsor
-With a research institute
-At your place of work

Placements

Students have a unique opportunity to complete a work placement with one of our industrial partners as part of their projects.

Previous students have found placements with organisations including:
-NHS Business Services Authority
-Waterstons
-Metropolitan Police
-Accenture
-IBM
-Network Rail
-Nissan
-GSK

Accreditation

We have a policy of seeking British Computer Society (BCS) accreditation for all of our degrees, so you can be assured that you will graduate with a degree that meets the standards set out by the IT industry. Studying a BCS-accredited degree provides the foundation for professional membership of the BCS on graduation and is the first step to becoming a chartered IT professional.

The School of Computing Science at Newcastle University is an accredited and a recognised Partner in the Network of Teaching Excellence in Computer Science.

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This course provides you with a balance of molecular biology, engineering, computing and modelling skills necessary for a career in synthetic biology. Read more
This course provides you with a balance of molecular biology, engineering, computing and modelling skills necessary for a career in synthetic biology. Computational design of biological systems is important as the field of synthetic biology grows. This allows the construction of complex and large biological systems.

While laboratory approaches to engineering biological systems are a major focus, the course specialises in computational design. This provides you with essential computing and engineering skills to allow you to develop software to program biological systems.

Our course is designed for students from both biological and computational backgrounds. Prior experience with computers or computer programming is not required. Students with mathematical, engineering or other scientific backgrounds are also welcome to apply. It is ideal if you are aiming for careers in industry or academia.

We provide a unique, multidisciplinary experience that is essential for understanding synthetic biology. The programme draws together the highly-rated teaching and research expertise of our Schools of Computing Science, Mathematics and Statistics, and Biology, as well as the Medical Faculty and the Institute of Human Genetics.

Research is a large component of this course. The emphasis is on delivering the research training you will need in the future to meet the demands of industry and academia effectively. Newcastle's research in life sciences, computing and mathematics is internationally recognised.

The teaching staff are successful researchers in their field and publish regularly in highly-ranked systems synthetic biology journals.

Our experienced and friendly staff are on hand to help you. You gain the experience of working in a team in an environment with the help, support and friendship of fellow students.

Project work

Your five month research project gives you real research experience in Synthetic Biology. You will have the opportunity to work closely with a leading research team in the School and there are opportunities to work on industry led projects. You will have one-to-one supervision from an experienced member of the faculty, supported with supervision from associated senior researchers and industry partners as required.

The project can be carried out:
-With a research group at Newcastle University
-With an industrial sponsor
-With a research institute
-At your place of work

Accreditation

We have a policy of seeking British Computer Society (BCS) accreditation for all of our degrees, so you can be assured that you will graduate with a degree that meets the standards set out by the IT industry. Studying a BCS-accredited degree provides the foundation for professional membership of the BCS on graduation and is the first step to becoming a chartered IT professional.

The School of Computing Science at Newcastle University is an accredited and a recognised Partner in the Network of Teaching Excellence in Computer Science.

Read less
Our Systems Biology MRes is a research-based course with a taught component that is equivalent to an MSc. It provides a springboard into a career that involves a working knowledge of scientific research. Read more
Our Systems Biology MRes is a research-based course with a taught component that is equivalent to an MSc. It provides a springboard into a career that involves a working knowledge of scientific research.

The course is designed for graduates with a BSc in the life sciences or other science disciplines, and for intercalating and fully qualified MBBS or BDS students. It can be taken either as a stand-alone qualification or as an entry route onto a PhD or MD.

The taught component of the course includes subject-specific content in the area of systems biology. You have the flexibility to develop your own bespoke course by selecting additional, complementary modules. You will also participate in training in general research principles, and other professional and key skills.

Subject-based modules aim to develop a new generation of creative, innovative scientists and engineers, whose expertise spans the biological and physical domains. It introduces you to systems biology approaches that enable you to understand and manipulate complex biological systems, particularly the vulnerability of such systems to stress.

Your research project comprises the major element of the course. This project will involve 24 weeks of research in an area of systems biology under the supervision of an expert academic researcher in the field.

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Our Evolution and Human Behaviour MRes is a research-based course with a taught component that is equivalent to an MSc. It provides a springboard into a career that involves a working knowledge of scientific research. Read more
Our Evolution and Human Behaviour MRes is a research-based course with a taught component that is equivalent to an MSc. It provides a springboard into a career that involves a working knowledge of scientific research.

The course is designed for graduates with a BSc in the life sciences, psychology or anthropology. Fully qualified or intercalating MBBS or BDS students can also apply. It can be taken either as a stand-alone qualification or as an entry route onto a PhD or MD.

The taught component of the course includes training in research approaches relevant to the area of Evolution and Human Behaviour. You have the flexibility to develop your own bespoke course by selecting a set of three complementary modules. Recommended modules, include:
-Comparative Cognition (MMB8043)
-Sensory Systems (MMB8019)
-The Biological Basis of Psychiatric Illness and its Treatment (MMB8010)

You will also participate in training in general research principles, and other professional and key skills.
The core module on the biological study of behaviour introduces the central questions related to Evolution and Human Behaviour research (adaptive consequences, proximate mechanisms, development, and evolutionary history) and the research methods associated with each. Other relevant modules focus on:
-Comparative cognition
-Sensory systems
-Psychiatric disorders and their treatment

Research-led seminars delivered by members of the Centre for Behaviour and Evolution cover evolutionary psychology areas such as:
-Human mate choice
-Altruism and cooperation
-Food choices and obesity
-Comparative and developmental psychology of cognition

Your research project comprises the major element of the course. This project will involve 24 weeks of research in an area of Evolution and Human Behaviour under the supervision of an expert academic researcher in the field.

The course allows you to experience an internationally competitive research area, predominantly in academia but also potentially in industry. Graduates from our programme have gone on to competitive PhD studentships, as well as jobs in psychology and in research.

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The Bioinformatics MSc combines foundational skills in bioinformatics with specialist skills in computing programming, molecular biology and research methods. Read more
The Bioinformatics MSc combines foundational skills in bioinformatics with specialist skills in computing programming, molecular biology and research methods. Our unique, interdisciplinary course draws together highly-rated teaching and research expertise from across the University, equipping you for a successful career in the bioinformatics industry or academia.

This interdisciplinary course is based in the School of Computing Science and taught jointly with the School of Biology, School of Mathematics and Statistics, Institute of Cell and Molecular Biosciences and the Institute of Genetic Medicine. It is designed for students from both biological science and computational backgrounds. Prior experience with computer programming is not required and we welcome applications from students with mathematical, engineering or other scientific backgrounds.

Our graduates have an excellent record of finding employment (around 90%). Recent examples have included:
-Bioinformatician at the Medical Research Council
-Technical consultant at Accenture
-Bioinformatics technician at Barcelona Supercomputing Centre

Our course structure is highly flexible and you can tailor it to your own skills and interests. Half of the course is taught and the remainder is dedicated to a research project.

As research is a large component of this course, our emphasis is on delivering the research training you will need to meet the demands of industry and academia now and in the future. Our research in bioinformatics, life sciences, computing and mathematics is internationally recognised. We have an active research community, comprising several research groups and three research centres.

You will be taught by academics who are successful researchers in their field and publish regularly in highly-ranked bioinformatics journals. Our experienced and helpful staff will be happy to offer support with all aspects of your course from admissions to graduation and developing your career.

The course is part of a suite of related programmes that include:
-Synthetic Biology MSc
-Computational Neuroscience and Neuroinformatics MSc
-Computational Systems Biology MSc

All four courses share core modules. This creates a tight-knit cohort that has encouraged collaborations on projects undertaking interdisciplinary research.

Delivery

Semester one combines bioinformatics theory and application with the computational and modelling skills necessary to undertake more specialist modules in semester two. We provide training in mathematics and statistics and, for those without a biological first degree, we will also provide molecular biology training. Some of these modules are examined in January at the end of semester one.

Semester two begins with two modules that focus heavily on introducing subject-specific research skills. These two modules run sequentially, in a short but intensive mode that allows you time to focus on a single topic in depth. In the first of the second semester modules you learn how to analyse data arising from post-genomic studies such as microarray analysis, proteomic analysis and RNAseq. All of the semester two modules are examined by in-course assessment - there are no formal examinations in these modules.

Project work

Your five month project gives you an opportunity to develop your knowledge and skills in depth, and to work in a research or development team. You will have one-to-one supervision from an experienced member of staff, supported with supervision from industry partners as required.

The project can be carried out:
-With a research group at Newcastle University
-With an industrial sponsor
-With a research institute
-At your place of work

Accreditation

We have a policy of seeking British Computer Society (BCS) accreditation for all of our degrees, so you can be assured that you will graduate with a degree that meets the standards set out by the IT industry. Studying a BCS-accredited degree provides the foundation for professional membership of the BCS on graduation and is the first step to becoming a chartered IT professional.

The School of Computing Science at Newcastle University is an accredited and a recognised Partner in the Network of Teaching Excellence in Computer Science.

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Our MSc is for students from a variety of backgrounds with varied levels of biotechnology experience. You will develop an understanding of contemporary molecular biology and biotechnology principles and practices. Read more
Our MSc is for students from a variety of backgrounds with varied levels of biotechnology experience. You will develop an understanding of contemporary molecular biology and biotechnology principles and practices. You will also gain the skills and knowledge base required for employment in the biotechnology industry.

This course covers the scientific principles needed to give you an advanced understanding of contemporary industrial biotechnology. It helps you to develop generic practical skills in:
-Handling micro-organisms
-Molecular biological techniques
-Data analysis

You will examine:
-The production of novel biological compounds
-The fundamental role played by micro-organisms in the turnover of pollutants
-The search and discovery of commercially significant natural products
-Use and exploitation of genetically modified organisms (GMO)

The course also explores areas of related interest in biotechnology, such as:
-Bioethics
-Regulatory affairs
-The role of intellectual property and commercialisation

Facilities

The School of Biology has an outstanding range of facilities to support our research and teaching, including:
-Fully equipped teaching and research laboratories
-Lab scale fermentation of novel biological compounds

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Our Ecological Consultancy MSc gives you knowledge, specialised technical skills and professional awareness. It will prepare you for a career as an ecological consultant or in other environmental roles. Read more
Our Ecological Consultancy MSc gives you knowledge, specialised technical skills and professional awareness. It will prepare you for a career as an ecological consultant or in other environmental roles. The course has a professional focus, preparing you for the workplace.

We equip you with key skills which will enable you to pursue careers in ecology, including:
-Geographic Information Systems (GIS) and remote sensing
-Experimental and survey design
-Wildlife surveying
-Wildlife legislation and natural history
-Environmental Impact Assessment

Graduates of this course have an excellent track record of gaining employment in the environmental sector. Within one year of graduation 18 of the 19 students from the 2011-12 cohort were employed, most in the environmental sector and the majority with ecological consultancy companies.

Examples of recent graduate destinations include students now working in ecological jobs for:
-Wardell-Armstrong
-Mott MacDonald
-BSG Ecology
-E3 Ecology

We provide a link to cutting-edge research that feeds into ecological consultancy, e.g.:
-Research projects on black grouse and wind farms. Paper in review with the Journal of Applied Ecology
-Noise and bird behaviour. Paper in revision in PLOS ONE
-Contracts for the Scottish Bird Wind Farm Steering Group. The class of 2013-14 helped collect data for one of these contracts. They were authors on the paper which is being written up on the data they collected.

Placements

Each Ecological Consultancy project runs in conjunction with an industrial client. These tend to be consultancies or NGOs, e.g.:
-E3 Ecology
-BSG Ecology
-Baker Consultants
-Denny Ecology
-Mott MacDonald
-RSPB
-Natural England
-IUCN
-Northumberland Natural History Society
-Durham Wildlife Trust

Ecological consultants contribute to the course via informal talks. For example, E3 Ecology run a workshop in induction week where company directors discuss how to get into the industry.

Practitioners with extensive UK wildlife legislation and wildlife management experience teach on some modules.

Accreditation

We are in the process of applying for accreditation from the Chartered Institute of Ecology and Environmental Management (CIEEM).

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Clinicians, scientists and students engaged in cancer research at Newcastle share a common purpose. to improve treatment outcomes for patients with cancer. Read more
Clinicians, scientists and students engaged in cancer research at Newcastle share a common purpose: to improve treatment outcomes for patients with cancer. Work covers a broad spectrum - understanding the biological and molecular differences between normal and malignant cells and using this knowledge to develop new anti-cancer drugs.

Our staff and postgraduate students are based in the Northern Institute for Cancer Research (NICR) or the School of Chemistry. The NICR incorporates the Newcastle Cancer Centre, a unique collaboration between Cancer Research UK and the North of England Children's Cancer Research Fund.

We are a major training base for the next generation of cancer researchers. Our Institute covers many areas of cancer research, including:
-Solid tumours and leukaemias
-Childhood and adult cancers
-Drug discovery and early phase clinical trials

We offer approximately 15 MD, PhD and integrated MRes/PhD studentships each year, including the Newcastle Cancer Centre training programme. Projects in all research areas are available to fully-funded international students.

Members of our postgraduate community come from a variety of subject backgrounds including biological and biomedical sciences, chemistry, genetics, pharmacy, medicine, dentistry and veterinary medicine.

We hold regular postgraduate seminars which you will be required to attend and where you will deliver presentations. You will also attend and present your data annually at national cancer research meetings and at least one international meeting.

Placements

Our Institute has close working relationships with companies in the pharmaceutical and biotechnology sectors.

A number of our studentships are direct collaborations with industrial partners, with opportunities to spend placements with these partners.

Facilities

Our staff and postgraduate students are based in the Northern Institute for Cancer Research (NICR) or the School of Chemistry (medicinal chemistry students).

Our laboratories contain a full range of contemporary genomic, bioinformatic, proteomic, synthetic chemistry and pharmacology equipment, and clinical research facilities.

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The range of research topics for our Ageing MPhil, PhD and MD programmes is diverse. They include. biology of ageing; age-related diseases; ageing health and society; technology; nutrition and oral health; and ethics. Read more
The range of research topics for our Ageing MPhil, PhD and MD programmes is diverse. They include: biology of ageing; age-related diseases; ageing health and society; technology; nutrition and oral health; and ethics.

Increased life expectancy is one of the most notable human achievements of the last century. We are living longer, and our quality of life depends on healthy ageing. Older people are at increased risk of disease and disability. This can seriously affect their quality of life and impact on their families. This is why Newcastle's research and treatment of our ageing population is important for us all.

MPhil supervision is normally available in the following areas:

Biological mechanisms of ageing

Intrinsic cellular and molecular mechanisms and biomarkers of the ageing process.

Clinical studies of age-related diseases

Experimental medicine and translation of basic science for patient benefits.

Ageing health and society

The social dimensions of population ageing, and health care policy and provision.

Technology for an ageing population

Research and development of innovative assistive technologies to support independence and quality of life.

Nutrition and oral health

The role of nutritional factors in healthy ageing and the impacts of oral health.

Ethics, philosophy and engagement

Ethics and principles underlying attempts to improve the quality of later life. This includes working with older people and their representative organisations.

Pharmacy

Our new School of Pharmacy has scientists and clinicians working together on all aspects of pharmaceutical sciences and clinical pharmacy.

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Our Molecular Microbiology MRes is a research-based course with a taught component that is equivalent to an MSc. It provides a springboard into a career that involves a working knowledge of scientific research. Read more
Our Molecular Microbiology MRes is a research-based course with a taught component that is equivalent to an MSc. It provides a springboard into a career that involves a working knowledge of scientific research.

The course is designed for graduates with a BSc in the life sciences or other science disciplines, and for intercalating and fully qualified MBBS or BDS students. It can be taken either as a stand-alone qualification or as an entry route onto a PhD or MD.

The taught component of the course includes subject-specific content in the area of molecular microbiology. You have the flexibility to develop your own bespoke course by selecting additional, complementary modules. You will also participate in training in general research principles, and other professional and key skills.

A subject-based module in molecular microbiology focuses on how model organisms, representative of the diversity of the bacterial sub-kingdom, are helping to add clarity to central biological questions in bacteriology, such as the control and regulation of cell division and of gene expression.

Your research project comprises the major element of the course. This project will involve 24 weeks of research in an area of molecular microbiology under the supervision of an expert academic researcher in the field.

The course allows you to experience an internationally competitive research area, predominantly in academia but also potentially in industry.

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Our Medical and Molecular Biosciences MRes is a research-based course with a taught component that is equivalent to an MSc. It provides a springboard into a career that involves a working knowledge of scientific research. Read more
Our Medical and Molecular Biosciences MRes is a research-based course with a taught component that is equivalent to an MSc. It provides a springboard into a career that involves a working knowledge of scientific research.

The course is designed for graduates with a BSc in the life sciences or other science disciplines, and for intercalating and fully qualified MBBS or BDS students. It can be taken either as a stand-alone qualification or as an entry route onto a PhD or MD.

The taught component of the course includes subject-specific content in the area of medical and molecular biosciences. You have the flexibility to develop your own bespoke course by selecting additional, complementary modules. You will also participate in training in general research principles, and other professional and key skills.

Your research project comprises the major element of the course. This project will involve 24 weeks of research in an area of medical and molecular biosciences under the supervision of an expert academic researcher in the field.

The course allows you to experience an internationally competitive research area, predominantly in academia but also potentially in industry.

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