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Masters Degrees (Protein Structure)

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The twenty-first century has been described as 'the century of biology', with advances in molecular biology already making an important contribution to enormous gains in health and quality of life over much of the world. Read more
The twenty-first century has been described as 'the century of biology', with advances in molecular biology already making an important contribution to enormous gains in health and quality of life over much of the world. Proteins are fundamental to all biology. Structural biology is the science of how the shapes of molecules such as proteins affect their function, and our understanding of it has contributed to the design of drugs against devastating diseases including cancer and HIV/AIDS. This postgraduate certificate in the principles of protein structure explores the structures of proteins at different levels, before applying this knowledge to an understanding of their function in health and disease.

On successful completion of this course, you will possess a detailed knowledge of protein structure and its importance in molecular biology. You will develop your understanding of basic bioinformatics and learn to use some fairly simple bioinformatics tools. You will recognise and understand how complex protein structures are made up from simpler components.

Why study this course at Birkbeck?

An innovative course taught entirely using the internet. You study part-time in your own time, wherever you are in the world. Most of our students have full-time jobs and other personal commitments.
You will interact with your tutors and fellow students through email lists, submit written assignments by email, and attend online tutorials in real time using a chatroom-based interface.
Taught within the Department of Biological Sciences which, with University College London, is part of the leading research-based Institute of Structural and Molecular Biology. Several of the department’s world-class researchers contribute to the course.
May be taken as a stand-alone certificate course or as part of our acclaimed internet-based MSc Structural Molecular Biology.

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This programme focuses on the integration of structural biology and bioinformatics approaches in order to understand the activity of proteins, including enzymes, antibodies and receptors, at a molecular level. Read more
This programme focuses on the integration of structural biology and bioinformatics approaches in order to understand the activity of proteins, including enzymes, antibodies and receptors, at a molecular level.

This understanding provides a platform for techniques such as structure-based drug design, biocatalysis and protein engineering, which are the basis for many recent advances in biotechnology.

The MSc programmes in Biology & Biochemistry are designed for students who wish to specialise further in a particular field or wish to change direction from their first degree (in a related area).If you already have extensive and relevant research experience and would like to specialise, you might consider an MRes programme (http://www.bath.ac.uk/science/graduate-school/taught-programmes/).

Visit the website http://www.bath.ac.uk/science/graduate-school/taught-programmes/msc-protein-structure-function/

Why study Biology and Biochemistry with us?

- Biology & Biochemistry ranked 2nd in the Sunday Times University Guide 2013
- 90% of our research judged to be internationally recognised, excellent or world-leading
- Our current research funding portfolio stands at £14 million, supporting internationally excellent research in the biosciences

What will I learn?

The aim of each of our MSc programmes in Biology and Biochemistry is to provide professional-level training that will develop highly skilled bioscientists with strong theoretical, research and transferable skills, all of which are necessary to work at the forefront of modern biosciences.

For further information please see our department pages (http://www.bath.ac.uk/bio-sci/)

Career opportunities

Since graduating, our students have gone on to employment or further research at institutions in the US, Europe, Australia, Asia and Africa.

Recent employers include:

Morvus-Technology Ltd
Janssen-Cilag
Royal United Hospital, Bath
Ministry of Defence
State Intellectual Property Office, Beijing
Wellcome Trust Centre for Human Genetics, Oxford University
AbCam
Salisbury Foundation Trust Hospital
BBSRC
Lonza

Find out more about the department here - http://www.bath.ac.uk/bio-sci/

Find out how to apply here - http://www.bath.ac.uk/science/graduate-school/taught-programmes/how-to-apply/

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This programme involves the integration of structural biology and bioinformatics approaches in order to understand the activity of proteins, including enzymes, antibodies and receptors, at a molecular level. Read more
This programme involves the integration of structural biology and bioinformatics approaches in order to understand the activity of proteins, including enzymes, antibodies and receptors, at a molecular level. This understanding provides a platform for techniques such as structure-based drug design, biocatalysis and protein engineering, which are the basis for many recent advances in biotechnology.

The MRes provides a unique mix of taught components, extended laboratory projects, literature reviews and preparation of a grant proposal based on a research dissertation. It gives students an insight into a range of state-of-the-art research activities and techniques, and provides generic, transferable skills training needed for all early stage researchers. The programmes also address the scientific, ethical and commercial context within which the research takes place.

All of the MRes programmes can be studied as the first year of our Integrated PhD programme.

Visit the website http://www.bath.ac.uk/science/graduate-school/taught-programmes/mres-protein-structure-function/

Why study Biology and Biochemistry with us?

- Biology & Biochemistry ranked 2nd in the Sunday Times University Guide 2013
- 90% of our research judged to be internationally recognised, excellent or world-leading
- Our current research funding portfolio stands at £14 million, supporting internationally excellent research in the bioscience

What will I learn?

MRes degree programmes are designed for graduates who are contemplating a research career and who may go on to study for a PhD or to a position in industry involving interaction with research scientists.

If these do not apply, you might consider an MSc programme (http://www.bath.ac.uk/bio-sci/postgraduate/)

For further information please visit our department pages (http://www.bath.ac.uk/bio-sci/)

Career opportunities

Since graduating, our students have gone on to employment or further research at institutions in the US, Europe, Australia, Asia and Africa.

Recent employers include:

Morvus-Technology Ltd
Janssen-Cilag
Royal United Hospital, Bath
Ministry of Defence
State Intellectual Property Office, Beijing
Wellcome Trust Centre for Human Genetics, Oxford University
AbCam
Salisbury Foundation Trust Hospital
BBSRC
Lonza

Find out more about the department here - http://www.bath.ac.uk/bio-sci/

Find out how to apply here - http://www.bath.ac.uk/science/graduate-school/taught-programmes/how-to-apply/

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The modern pharmaceutical industry encompasses the development of ‘biologics’ (for example antibodies or protein hormones), as much as it does traditional small-molecule drug discovery. Read more

Programme description

The modern pharmaceutical industry encompasses the development of ‘biologics’ (for example antibodies or protein hormones), as much as it does traditional small-molecule drug discovery.

You will study the design and potential uses of different families of proteins and will examine the experiences of successful entrepreneurs in the field who have been involved in the commercialisation of biopharmaceuticals.

Your research project will focus on the early phases of an industrial biologics design programme.

Online learning

Our award-winning online learning technology enables you to interact with our highly qualified teaching staff from the comfort of your home or workplace. You will have the same access to our staff as you would if you were on campus. Our online students not only have access to Edinburgh’s excellent resources but they get the opportunity to become part of a supportive online community.

Programme structure

You will learn through a variety of teaching methods, including online tuition, peer-to-peer discussion and individual study. You will take six taught courses, which will be a mixture of compulsory and option courses, followed by a research project leading to a dissertation in your final year.

Individual courses can be taken for Continuing Professional Development purposes or you can study for a Postgraduate Certificate, Postgraduate Diploma or MSc.

We offer a fast-track option to complete the MSc in two years, or you can spread your programme over a maximum of six years, through intermittent study, allowing you to accommodate work and other commitments.

You can expect to spend seven to 13 hours a week on your studies, depending on your chosen schedule.

Courses:

Biologics and Protein Design
Chemistry for Drug Discovery
Commercial Aspects of Drug Discovery
Druggable Systems
High Throughput Drug Discovery
In Silico Drug Discovery
Introduction to Modelling Biological Systems
Measuring Drug Binding
Modelling Metabolic Pathways
Molecular Modelling
Professional Skills in Drug Discovery
Research Grant Proposal
Structure Determination of Drug Target
Systems Approach to Modelling Cell Signal Transduction

Career opportunities

You will enhance your career prospects with marketable analytical and presentation skills.

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This specialist postgraduate degree provides you with high-quality postgraduate training in bioinformatics. It provides a foundation for the development of essential bioinformatics knowledge and skills, as well as an introduction to the emerging field of systems biology. Read more
This specialist postgraduate degree provides you with high-quality postgraduate training in bioinformatics. It provides a foundation for the development of essential bioinformatics knowledge and skills, as well as an introduction to the emerging field of systems biology. The course is run in parallel with an MRes course that includes a larger research component.

The programme is designed for students from a range of scientific backgrounds, who want to pursue research training in the interdisciplinary field of bioinformatics and systems biology. It is relevant to those seeking a future career in both academia and industry.

On successful completion of this programme, students from all backgrounds should be able to:

- Understand the core concepts and statistical fundamentals that underpin the field of bioinformatics, most notably in the area of sequence analysis.
- Program in Python, and design and query databases using SQL. Experience of more advanced programming practices (such as software testing and application development) will also be gained.
- Explain core biological concepts (such as genes and genomes, protein structure and function) and growth areas such as Next Generation Sequencing and (at least at an introductory level) systems modelling.

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Our modular distance learning programme provides you with a grounding in the structure of proteins, and the main techniques that are used to study protein structure. Read more
Our modular distance learning programme provides you with a grounding in the structure of proteins, and the main techniques that are used to study protein structure.

Structural biology allows you to understand how macromolecules work at the atomic level of detail. This is important, particularly in designing drugs which act at the molecular level to affect macromolecules. Increasingly, research uses a range of complementary biophysical and structural techniques to study protein-protein interactions. This requires that researchers have some understanding of what all these techniques can achieve. This programme is designed to give the theoretical background required to use this range of methods.

Why study this course at Birkbeck?

Study by distance learning, wherever you are in the world, with our internet-based teaching.
Graduates are well placed to study for PhDs, start professional research careers, or change disciplines to encompass this important area of modern molecular biology.
Part of the Institute of Structural and Molecular Biology, a joint initiative with University College London.
Birkbeck houses state-of-the-art equipment for X-ray crystallography, cryo-electron microscopy and tomography and associated image processing. We have excellent facilities for UV and CD spectroscopy, calorimetry, fluorescence spectroscopy, ultracentrifugation, and protein expression and purification in the biochemical and molecular biology laboratories. We have a 158 processor cluster for intensive data processing. All areas have specialised computer equipment for data analysis, molecular graphics and molecular modelling and programming.

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The rapid transformation in the nature of drug discovery means that knowledge of related disciplines, and the technologies used, is essential for those considering a career in commercial or academic research. Read more

Programme description

The rapid transformation in the nature of drug discovery means that knowledge of related disciplines, and the technologies used, is essential for those considering a career in commercial or academic research.

This MSc will help you explore the latest methods of developing drugs and therapeutic compounds for humans and animals and disease control agents for plants.

You will learn about marketing, licensing and regulations, which are all part of the development process. Our multidisciplinary approach links structural biology, bioinformatics, chemistry and pharmacology.

You will investigate the fundamental scientific problems and techniques of drug discovery and design, alongside the challenges of developing principles for new therapeutic strategies.

You will have hands-on experience of crystallographic computer programming and computation for bioinformatics.

You will consider the moral and ethical aspects of the agrochemical and pharmaceutical industries through case studies, seminars and discussions.

Programme structure

This programme consists of two semesters of taught courses followed by a research project, leading to a dissertation.

Compulsory courses:

Applicable Mathematics
Commercial Aspects of Drug Discovery
Drug Discovery
Molecular Modelling and Database Mining
Protein Structure Determination
Project Proposal and Literature Review
Preparative Methods for Structural Biology
Quantitating Drug Binding


Optional courses:

Biobusiness
Biochemistry
Bioinformatics 1
Bioinformatics 2
Bioinformatics Algorithms
Bioinformatics Programming & System Management
Biophysical Chemistry for MSc Biochemistry
Chemical Medicine
Detailed Characterisation of Drug or Ligand Interactions Using Surface Plasmon Resonance (SPR)
Functional Genomic Technologies
Information Processing in Biological Cells
Introduction to Scientific Programming
Introduction to Website and Database Design for Drug Discovery
Practical Skills in Biochemistry
Tools for Synthetic Biology

Career opportunities

This MSc is designed to help you pursue a career in the pharmaceutical industry or relevant government agencies, and it will provide a good background for managerial or technical roles in research, design and development. It is also a solid basis from which to continue your studies to PhD level.

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One of the most rapidly developing areas of toxicology is the use of molecular, cell biology and omics to identify adverse outcome pathways (AOPs) and to develop a mechanistic understanding of chemical toxicity at the cellular and molecular level. Read more
One of the most rapidly developing areas of toxicology is the use of molecular, cell biology and omics to identify adverse outcome pathways (AOPs) and to develop a mechanistic understanding of chemical toxicity at the cellular and molecular level. This is not only of fundamental interest (i.e., understanding the mechanism of action) but it also relates to an increased need for a mechanistic component in chemical risk assessment and development of high throughput screens for chemical toxicity.

The MRes in Molecular Mechanistic Toxicology is a one-year full-time programme that provides students with a research-orientated training in a lively, highly interactive teaching and research environment.

Programme content

The programme is coordinated by the School of Biosciences, which is recognised internationally as a major centre for both teaching and research in Toxicology. Molecular Toxicology is a major component of the School of Biosciences research activities along with interactions with other departments including Chemistry and the Medical School.

Specific areas of active research include:

- Mechanisms of cell toxicity
- Development of novel DNA binding chemicals
- Cellular proliferation and differentiation
- Environmental genomics and metabolomics
- Molecular biomarkers of genotoxicity, oxidative stress and cellular responses
- Role of environmental and genetic factors in disease
- Learning and teaching

Two five-week taught modules are held in Semester 1 in conjunction with the taught MSc in Toxicology programme. Training in generic and laboratory research skills is also an important element of the programme. The programme also includes a six-month research project, which provides students with an opportunity for further advanced research training and hands-on experience of molecular and cellular biology techniques embedded in a research laboratory. Research projects can take place either in academic or industrial institutions.

About the School of Biosciences

As one of the top biosciences departments in the UK, our research covers the entire spectrum of cutting-edge biosciences. We are home to the Institute of Microbiology and Infection and part of the University’s Systems Science for Health initiative.
Our research focuses on a number of important themes that run through modern biological and biochemical research: Biosystems and Environmental Change; Microbiology and Infection; Molecules, Cells, Signalling and Health; and Plant Science.
Our postgraduate students join a diverse international community of staff and students. For students on research degrees, the annual Biosciences Graduate Research Symposium, organised by PhD students, is an example of an event where the whole School comes together to talk about science.
We have extensive high-technology facilities in areas such as functional genomics, proteomics and metabolomics, including a world-class Advanced Mass Spectrometry Facility. Our cutting-edge facilities extend to protein structure determination and analysis, confocal microscopy, drug discovery, horticulture, structural biology and optical imaging. The £8 million Phenome Centre Birmingham is a large metabolic phenotyping facility led by internationally recognised metabolomics and clinical experts at the University of Birmingham, in collaboration with Birmingham Health Partners.

Funding and Scholarships

There are many ways to finance your postgraduate study at the University of Birmingham. To see what funding and scholarships are available, please visit: http://www.birmingham.ac.uk/postgraduate/funding

Open Days

Explore postgraduate study at Birmingham at our on-campus open days.
Register to attend at: http://www.birmingham.ac.uk/postgraduate/visit

Virtual Open Days

If you can’t make it to one of our on-campus open days, our virtual open days run regularly throughout the year. For more information, please visit: http://www.pg.bham.ac.uk

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Biotechnology is the exploitation of living systems or molecules from them for commercial gain. Although the word 'biotechnology' is only a few decades old, humankind has been using biotechnology for millennia, for example in baking, brewing and sewage treatment. Read more
Biotechnology is the exploitation of living systems or molecules from them for commercial gain. Although the word 'biotechnology' is only a few decades old, humankind has been using biotechnology for millennia, for example in baking, brewing and sewage treatment.

Modern biotechnologies rely on our increasing ability to manipulate organisms at the genetic level and include novel waste treatments and bioremediations, new pharmaceuticals, the exploitation of enzymes in 'green catalysis' and exciting new diagnostic techniques. In the 20th century our lives were transformed by information technology; the 21st century may see an equally great transformation, but this time led by biotechnology.

This Masters degree aims to teach the fundamental molecular bioscience underpinning biotechnology along with examples of its current applications.

PROGRAMME CONTENT
This MSc is taught by research-active staff members in the School of Biological Sciences. In addition, fundamental biological research skills are taught and students are given an understanding of bio-entrepreneurship. The degree culminates in a three-month, intensive research project in a laboratory in Queen's, thus preparing graduates for a career in research biotechnology.

Modules:
- Bio-entrepreneurship
- Biotechnology
- Foundations for Research in the Biosciences
- Literature Review
- Nucleic Acid Structure and Function
- Protein Structure and Function
- Research Project (triple module)

CAREER PROSPECTS
This Masters degree equips students with the necessary skills to enter either PhD programmes or employment directly in the global biotechnology industry.

Queen's postgraduates reap exceptional benefits. Unique initiatives, such as Degree Plus and Researcher Plus bolster our commitment to employability, while innovative leadership and executive programmes alongside sterling integration with business experts helps our students gain key leadership positions both nationally and internationally.

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The programme aims to provide students with training and learning opportunities in the skills and specialised knowledge needed to equip them for a career in biotechnology, molecular biotechnology or molecular biology, in particular in industry. Read more
The programme aims to provide students with training and learning opportunities in the skills and specialised knowledge needed to equip them for a career in biotechnology, molecular biotechnology or molecular biology, in particular in industry.

Practical skills will include sessions on fermentation, molecular biology, immunology, cell biology and protein chemistry, and you will go on to complete a major, supervised laboratory or computer-based research project.

Transferable skills gained via this programme will include written and oral presentation skills, statistics, and the ability to plan and write a grant application or a business plan. Subject-specific skills will include key techniques used in molecular biotechnology, specialist knowledge in theoretical and practical aspects of the subject, including: process engineering, molecular biology, functional genomics, 'omics' technologies, protein expression systems and antibody engineering. Practical skills will include fermentation, molecular biology, immunology, cell biology and protein chemistry.

Careers

While many graduates will go on to employment in biotechnology companies, you will also be employable in other life sciences industries or able to go on to further study and research.

About the School of Biosciences

As one of the top biosciences departments in the UK, our research covers the entire spectrum of cutting-edge biosciences. We are home to the Institute of Microbiology and Infection and part of the University’s Systems Science for Health initiative.
Our research focuses on a number of important themes that run through modern biological and biochemical research: Biosystems and Environmental Change; Microbiology and Infection; Molecules, Cells, Signalling and Health; and Plant Science.
Our postgraduate students join a diverse international community of staff and students. For students on research degrees, the annual Biosciences Graduate Research Symposium, organised by PhD students, is an example of an event where the whole School comes together to talk about science.
We have extensive high-technology facilities in areas such as functional genomics, proteomics and metabolomics, including a world-class Advanced Mass Spectrometry Facility. Our cutting-edge facilities extend to protein structure determination and analysis, confocal microscopy, drug discovery, horticulture, structural biology and optical imaging. The £8 million Phenome Centre Birmingham is a large metabolic phenotyping facility led by internationally recognised metabolomics and clinical experts at the University of Birmingham, in collaboration with Birmingham Health Partners.

Funding and Scholarships

There are many ways to finance your postgraduate study at the University of Birmingham. To see what funding and scholarships are available, please visit: http://www.birmingham.ac.uk/postgraduate/funding

Open Days

Explore postgraduate study at Birmingham at our on-campus open days.
Register to attend at: http://www.birmingham.ac.uk/postgraduate/visit

Virtual Open Days

If you can’t make it to one of our on-campus open days, our virtual open days run regularly throughout the year. For more information, please visit: http://www.pg.bham.ac.uk

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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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The Master is conceived as a multidisciplinary and research-oriented programme. The programme also aims to develop the state of mind to perform and manage research in a multidisciplinary and international context. Read more

Developing a state of mind

The Master is conceived as a multidisciplinary and research-oriented programme. The programme also aims to develop the state of mind to perform and manage research in a multidisciplinary and international context. Therefore, our students will also be trained in different aspects of research communication and research management.

Discovery-based laboratory

The two-year programme has a strong emphasis on performing research. Its concept will require full-time attendance and will involve active participation in lectures and discovery-based laboratory work to develop the state of mind that drives the progress of science.
The program of the first year is composed of 4 modules, all of which have to be followed. The courses within each module are at advanced level and consist of 26 class hours and 6 days of practical training. The practical trainings link up with the advanced courses and will take place in the research labs under the guidance of experienced postdocs.
Protein structure and function (3x5 ECTS)
Applied Immunology (3x5 ECTS)
Advanced Molecular Biology (4x5 ECTS)
Bioinformatics (2x5 ECTS)
The program of the second year pays much attention to the acquisition of research competences. The program consists of three modules:
Elective courses (4x5 ECTS)
Master Proof (30 ECTS)
Research Communication and Management (10 ECTS)

Master Proof/Thesis

To obtain a Master degree, a student must carry out, under the direction and supervision of a promoter, an independent research project and prepare a dissertation, that is, a written account of the research and its results.

Research Communication and Management

This part of the program includes the writing of the results of the dissertation in a publication format, seminars on intellectual property rights, scientific writing, project development and the writing of a research proposal.
The latter can be a proposal for a continuation of the topic of the Master Proof, a proposal for a PhD project, or a proposal for another research project in Biomolecular Sciences, and is intended to help the students to continue their career in biomolecular research.

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This masters programme is designed to prepare you for a career in research in molecular and cellular biology and its applications. Read more
This masters programme is designed to prepare you for a career in research in molecular and cellular biology and its applications.

It comprises a year of intensive training and research experience leading to the award of an MRes degree which will give you a ‘flying start’ to a subsequent PhD programme, if this is your chosen career path.

This programme is designed to prepare you for a career in research in molecular and cellular biology and its applications. It comprises a year of intensive training and research experience leading to the award of an MRes degree which will give you a ‘flying start’ to a subsequent PhD programme, if this is your chosen career path.

The programme aims to provide training in the practical aspects that underlie research science in this field. To achieve this aim the course contains a very high level of hands-on research, as it is our view there is no better training than lab experience.

Programme content

Two-thirds of the programme is taken up by two approximately 18-week research projects, which are undertaken in different laboratories and with different supervisors. A very wide range of research topics falling within the scope of molecular and cellular biology is available within the School; this range extends from structural biology at one extreme to multicellular systems at the other.

In addition to this direct research experience, there are two compulsory taught modules which provide training in:

- Science Funding and Enterprise Skills in Biosciences
- Techniques in Molecular and Cellular Biology
These modules cover the basic principles underlying scientific research methods and the design of biological/biochemical experiments, and discussion of modern techniques in molecular and cellular biology. In addition, the science funding and enterprise module provides the skills required to obtain funding for sciences. This includes grant and business case writing and scientific presentation skills. You can also take courses to develop general research skills arranged through the Biosciences Graduate Research School.

The taught modules consist of a combination of seminars and lectures. The lab work that is carried out during the course is student-led. You will be able to choose areas of molecular and cellular biology that fit with your career aspirations.

Assessment

The two taught modules are assessed via examination, essays and oral presentations. The two research projects are assessed via written thesis and an oral examination.

Skills gained

This programme offers the following advantages:

Broad training in the skills and techniques of contemporary research in molecular and cellular biology
The opportunity to experience research in at least two different areas
Increased breadth and experience, which will enhance subsequent employability
The course will also enable you to:

Conduct and fund independent research
Present research results in an appropriate manner both written and orally
Have an appreciation and knowledge of the use of modern techniques in molecular and cellular biology
Build and develop scientific research projects in the public and private sector
Careers

Those who perform effectively in the MRes often continue at Birmingham to a PhD; however, the MRes also provides a very good qualification to move into research and a wide range of professions.

About the School of Biosciences

As one of the top biosciences departments in the UK, our research covers the entire spectrum of cutting-edge biosciences. We are home to the Institute of Microbiology and Infection and part of the University’s Systems Science for Health initiative.
Our research focuses on a number of important themes that run through modern biological and biochemical research: Biosystems and Environmental Change; Microbiology and Infection; Molecules, Cells, Signalling and Health; and Plant Science.
Our postgraduate students join a diverse international community of staff and students. For students on research degrees, the annual Biosciences Graduate Research Symposium, organised by PhD students, is an example of an event where the whole School comes together to talk about science.
We have extensive high-technology facilities in areas such as functional genomics, proteomics and metabolomics, including a world-class Advanced Mass Spectrometry Facility. Our cutting-edge facilities extend to protein structure determination and analysis, confocal microscopy, drug discovery, horticulture, structural biology and optical imaging. The £8 million Phenome Centre Birmingham is a large metabolic phenotyping facility led by internationally recognised metabolomics and clinical experts at the University of Birmingham, in collaboration with Birmingham Health Partners.

Funding and Scholarships

There are many ways to finance your postgraduate study at the University of Birmingham. To see what funding and scholarships are available, please visit: http://www.birmingham.ac.uk/postgraduate/funding

Open Days

Explore postgraduate study at Birmingham at our on-campus open days.
Register to attend at: http://www.birmingham.ac.uk/postgraduate/visit

Virtual Open Days

If you can’t make it to one of our on-campus open days, our virtual open days run regularly throughout the year. For more information, please visit: http://www.pg.bham.ac.uk

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This programme provides vocational training in the theoretical, clinical and laboratory aspects of toxicology. You will learn about the nature and mechanism of adverse effects of chemicals such as those found in industry, in the household, in agriculture, in medicine and those that occur naturally in the environment. Read more
This programme provides vocational training in the theoretical, clinical and laboratory aspects of toxicology.

You will learn about the nature and mechanism of adverse effects of chemicals such as those found in industry, in the household, in agriculture, in medicine and those that occur naturally in the environment. We give particular emphasis to molecular and cellular mechanisms of toxicity and to risk assessment.

The MSc in Toxicology programme aims to:

- provide a broad, modern training in the theoretical and practical aspects of toxicology
- prepare individuals to collate, interpret and communicate toxicological information
- provide an opportunity to study at the cutting edge of research in a chosen specialist field of toxicology in clinical practice, industry or academia
- develop student awareness of the importance of toxicology to industry, health, the environment and society.

Skills gained

As well as specialist disciplinary knowledge, graduates of the MSc Toxicology programme will also acquire many transferable skills such as the ability to design experiments using a variety of research techniques, collate and interpret the data, use of specialist computer software packages to predict metabolism and toxicity, communication and interpersonal skills, which will all provide an appropriate grounding for employment or further study.

Careers

Toxicology relates to many aspects of our everyday activities, so a career in this field promises to provide a variety of opportunities aimed at improving the standard of life and the environment. Career opportunities are excellent, as even in times of economic hardship toxicology remains a necessary and important area for funding.

About the School of Biosciences

As one of the top biosciences departments in the UK, our research covers the entire spectrum of cutting-edge biosciences. We are home to the Institute of Microbiology and Infection and part of the University’s Systems Science for Health initiative.
Our research focuses on a number of important themes that run through modern biological and biochemical research: Biosystems and Environmental Change; Microbiology and Infection; Molecules, Cells, Signalling and Health; and Plant Science.
Our postgraduate students join a diverse international community of staff and students. For students on research degrees, the annual Biosciences Graduate Research Symposium, organised by PhD students, is an example of an event where the whole School comes together to talk about science.
We have extensive high-technology facilities in areas such as functional genomics, proteomics and metabolomics, including a world-class Advanced Mass Spectrometry Facility. Our cutting-edge facilities extend to protein structure determination and analysis, confocal microscopy, drug discovery, horticulture, structural biology and optical imaging. The £8 million Phenome Centre Birmingham is a large metabolic phenotyping facility led by internationally recognised metabolomics and clinical experts at the University of Birmingham, in collaboration with Birmingham Health Partners.

Funding and Scholarships

There are many ways to finance your postgraduate study at the University of Birmingham. To see what funding and scholarships are available, please visit: http://www.birmingham.ac.uk/postgraduate/funding

Open Days

Explore postgraduate study at Birmingham at our on-campus open days.
Register to attend at: http://www.birmingham.ac.uk/postgraduate/visit

Virtual Open Days

If you can’t make it to one of our on-campus open days, our virtual open days run regularly throughout the year. For more information, please visit: http://www.pg.bham.ac.uk

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This MSc programme is built on the combined expertise in microbiology and infection that has been assembled through the establishment of the Institute of Microbiology and Infection at Birmingham. Read more
This MSc programme is built on the combined expertise in microbiology and infection that has been assembled through the establishment of the Institute of Microbiology and Infection at Birmingham.

It draws on the internationally recognized expertise of members of both the College of Life and Environmental Sciences and College of Medical and Dental Sciences to provide a course that will be attractive to aspiring biomedical scientists and clinical microbiologists worldwide.

Students graduating from this course can look forward to gaining a thorough grounding in this important area, with job opportunities throughout the public and private sector, as well as in research settings.

This course will provide graduates in the Biosciences with a sound theoretical background and hands-on laboratory experience in leading-edge microbiology. Students will gain specialist knowledge and insight in key aspects of bacterial infection.

The Institute of Microbiology and Infection at Birmingham brings together a group of researchers and lecturers from the College of Life and Environmental Sciences and the College of Medical and Dental Sciences with expertise in a wide range of aspects of microbiology in infectious disease. The MSc Microbiology and Infection draws on this expertise to highlight the impact of recent advances in understanding of microbes in infection.

The course will enable students to develop basic abilities and skills on which to build professional capability in a healthcare or related microbiology or biomedical research setting.

About the School of Biosciences

As one of the top biosciences departments in the UK, our research covers the entire spectrum of cutting-edge biosciences. We are home to the Institute of Microbiology and Infection and part of the University’s Systems Science for Health initiative.
Our research focuses on a number of important themes that run through modern biological and biochemical research: Biosystems and Environmental Change; Microbiology and Infection; Molecules, Cells, Signalling and Health; and Plant Science.
Our postgraduate students join a diverse international community of staff and students. For students on research degrees, the annual Biosciences Graduate Research Symposium, organised by PhD students, is an example of an event where the whole School comes together to talk about science.
We have extensive high-technology facilities in areas such as functional genomics, proteomics and metabolomics, including a world-class Advanced Mass Spectrometry Facility. Our cutting-edge facilities extend to protein structure determination and analysis, confocal microscopy, drug discovery, horticulture, structural biology and optical imaging. The £8 million Phenome Centre Birmingham is a large metabolic phenotyping facility led by internationally recognised metabolomics and clinical experts at the University of Birmingham, in collaboration with Birmingham Health Partners.

Funding and Scholarships

There are many ways to finance your postgraduate study at the University of Birmingham. To see what funding and scholarships are available, please visit: http://www.birmingham.ac.uk/postgraduate/funding

Open Days

Explore postgraduate study at Birmingham at our on-campus open days.
Register to attend at: http://www.birmingham.ac.uk/postgraduate/visit

Virtual Open Days

If you can’t make it to one of our on-campus open days, our virtual open days run regularly throughout the year. For more information, please visit: http://www.pg.bham.ac.uk

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