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Full Time MSc Degrees in Biological Sciences, London, United Kingdom

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This is a one-year Masters Research degree programme beginning in September. Read more

The programme

This is a one-year Masters Research degree programme beginning in September. It offers students with a good BSc degree in Biochemistry, Biology or related disciplines the opportunity to acquire a wide range of advanced research techniques through carrying out a one-year laboratory based research project under the direction of a member of staff selected by the student. Students will advance their research skills (including data analysis, bioinformatics tools and presentation skills).

This course is designed to equip students with the necessary skills of a researcher in biomedical sciences, ecology, evolution and behaviour or plant molecular sciences.

The aims of this degree programme are:
• to provide training in the key generic skills required to be a scientific researcher;
• to provide advanced training in a specialised branch of biological sciences research;
• to ensure familiarity with a range of transferable, advanced research skills;
• to provide practice in communicating results of research both by oral presentation and by
preparation of a Master thesis.

Students are offered: a major supervised research project lasting approximately eight months, the opportunity to work with a leading scientist in a chosen field, experience of working as part of a research team and development of high level practical research skills in the lab or field.

Teaching, learning and assessment

Although this is a research degree there is a taught component with lectures being delivered throughout the first two terms. As part of this there is a requirement to complete coursework, prepare and present your research to a School audience by means of a poster as well as a 20 minute oral presentation in the summer term. All elements of the programme must be passed in order to be able to submit the final project for assessment in summer.

Students receive regular, scheduled, feedback on their performance in taught modules, their project plan, literature review/draft introduction (autumn term), draft materials and methods write up (spring term), preparatory oral presentation (spring term); oral presentation (summer term); and draft project write up (summer term).

Applying

Before applying you will need to peruse and then identify academic staff members whose projects you are interested in. https://www.royalholloway.ac.uk/biologicalsciences/study-here/postgraduate/home.aspx

The project will be selected from one of three major research areas within the School: Biomedical Sciences (BMS), Plant Molecular Sciences (PMS), and Ecology Evolution and Behaviour (EEB).
Once you have identified your area of interest, you should contact potential supervisors (via e-mail) to discuss details of the projects and availability of placement. Having made contact remember to state at least 2 the supervisors and project names in the 'supporting statement' section of our online application.

Places/projects on our course are limited. In order to secure your place and confirm your acceptance to our programme, it is advisable to pay a tuition fee deposit after you receive our offer.

Further learning and career opportunities

The programme prepares students for future careers in Biological Sciences research, including doctoral degrees, and related areas of employment. Students are provided with training in a range of subject specific and transferable skills.

If you wish to discuss the MSc informally, please contact the MSc Programme Director Dr Pavlos Alifragis () (01784 444988).

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This is a research-based degree, providing you with essential training in scientific research methodology and data analysis, as well as specific scientific techniques appropriate to the research microbiologist. Read more

MSc

This is a research-based degree, providing you with essential training in scientific research methodology and data analysis, as well as specific scientific techniques appropriate to the research microbiologist.

The course draws from the Department of Biological Sciences research strengths and expertise in cell biology of infectious diseases, host parasite relationships and drug discovery across a wide range of infectious pathogens/bacteriology, mycology and parasitology. You will undertake a research project in the laboratories of internationally recognised researchers.

MRes

This research-intensive programme will provide you with the skills and knowledge required to undertake a novel research project in the interdisciplinary subject area of microbiology.

In addition to your own laboratory work, you will attend group laboratory meetings and seminars.

Why study this course at Birkbeck?

Develop a range of research skills and subject-matter expertise in microbiology.
Undertake a laboratory project in a research-intensive environment, under the guidance of leading-edge researchers.
The Department of Biological Sciences is part of the Institute of Structural and Molecular Biology (ISMB), a joint initiative with University College London.
Ideal if you want to gain qualifications necessary for pursuing a research career.
You will join an existing research group under the guidance of a research supervisor.

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For those seeking a role in the technology transfer, technology finance or pharmaceutical and biotechnology industries, it is essential to develop an understanding of the science, regulatory environment, and communication and deal-making. Read more
For those seeking a role in the technology transfer, technology finance or pharmaceutical and biotechnology industries, it is essential to develop an understanding of the science, regulatory environment, and communication and deal-making. The Bio-business programme delivers an overview of the history and trends in scientific research and development in the industrial biosciences. This is supported and complemented by business, entrepreneurial and industry-facing modules, including the structure of the biotechnology and pharmaceutical industries in the context of regulation and public perception. The programme highlights issues of risk and regulation and the socio-economic benefits stemming from technology and material developments.

The main aims are to convey a broad and detailed understanding of all these critical issues, and to provide insight into both the theory and practice of entrepreneurship and business in the context of the bioscience industry, recognising the differences between science-based projects and other types of commercial activity.

The programme features specialist presentations from researchers and authorities in subject areas such as ethics, biological products and business development. Hands-on experiential learning is also provided, developing students' ability to build talented teams and pitch for funds, among other essential skills.

Why study this course at Birkbeck?

- Provides training in management and business principles, in research methods via new and existing modules offered by CIMR in the Department of Management, and new modules in the Department of Biological Sciences.
- Analyses core and specialist issues in business innovation, focused on biological and chemical sciences.
- Specialist presentations from authorities in subject areas such as ethics, pharmaceuticals and technology transfer. New biological sciences module content is informed by a high-profile industrial panel.
- Requires you to carry out an independent piece of research within the subject area of the programme.
- Evening, face-to-face study in full-time and part-time modes.

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Queen Mary University of London School of Medicine
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Regenerative Medicine. MSc ( 1 year Full-time ). Overview. Regenerative medicine is an interdisciplinary field, which aims to repair diseased or damaged tissues using biological or cell-based technologies. Read more
Regenerative Medicine
MSc ( 1 year Full-time )

Overview

Regenerative medicine is an interdisciplinary field, which aims to repair diseased or damaged tissues using biological or cell-based technologies. It is a rapidly growing area of biomedical research that encompasses stem cell biology, tissue engineering, drug delivery, and nanotechnology. This MSc course provides advanced, multi-disciplinary training in the scientific principles and clinical applications of regenerative medicine, and is delivered jointly by Barts and The London School of Medicine and Dentistry and the School of Engineering and Materials Science.

Taught modules will develop a strong scientific foundation in the biology of stem cells and regeneration and the fundamental principles of biomaterials, tissue engineering and cellular reprogramming. Through an intensive 12-week research project, students will then gain hands on experience applying these concepts to problems in human health and the development of novel regenerative technologies.

Upon completion of the MSc in Regenerative Medicine, students will be well placed for further training at the PhD level or professional careers in the biotechnology and pharmaceutical industries.

Structure
The MSc in Regenerative Medicine is a one year, full-time programme. Students are required to complete 180 credits comprising taught and research modules.


Taught Modules (15 credits each)

o Cellular and Molecular Basis of Regeneration
o Stem Cell and Developmental Biology
o Advanced Tissue Engineering and Regenerative Medicine
o Research Skills and Methodology
o Biomaterials in Regenerative Medicine
o Tissue-specific Stem Cells
o Induced Pluripotent Stem Cells and Genome Engineering
o Ethics and Regulatory Affairs

Research Project in Regenerative Medicine (60 credits)
During the final 12 weeks of the course, students will work full time on their laboratory-based research projects. Students will select research projects from a wide range of topics in regenerative medicine. Examples include research on the cellular and molecular aspects of tissue regeneration, disease pathogenesis, development of stem cell therapies, design of novel nano-biotechnologies, or engineering biomaterials and tissue scaffolds.


Entry requirements
As a multi-disciplinary course, the MSc is appropriate for a wide range of students. Graduates with degrees in biological sciences or medicine will gain an in-depth understanding of the cellular and molecular aspects of regenerative medicine as well as an introduction to the interdisciplinary fields of biomaterials and tissue engineering. Similarly, students with a physical sciences background will have the opportunity to broaden their experiences and acquire new skills in the biological sciences.
Admission to the course is selective, and based upon academic credentials, research experience, and motivation. At a minimum, students must have an undergraduate degree equivalent to UK second-class honours from a recognised academic institution. Applicants are required to submit a statement of purpose and letter of recommendation with their application.
Applications are accepted all year round, but there are limited places to ensure high-quality training, so please apply early to avoid disappointment.

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This new programme prepares students for a career in the rapidly developing field of biological physics. Read more
This new programme prepares students for a career in the rapidly developing field of biological physics. Navigating across the boundaries of the established disciplines of biology and physics - using tools and techniques developed for one discipline to answer questions arising in another – students will also interact with experienced researchers in the laboratory from the outset.

Degree information

Students gain broad background knowledge of cell and developmental biology, and physical theories and experimental physics techniques applied to biological systems. They also gain theoretical and working knowledge of techniques from physics and engineering used in biological physics research, including optical microscopy, microfabrication, and data analysis.

Students undertake modules to the value of 180 credits. The programme consists of five core modules (75 credits), two optional modules (45 credits) and a report (60 credits).

Core modules
-Advanced Biophysical Theories
-BioMEMs and Microscopy Techniques
-Biosciences Research Skills
-Molecular Biophysics
-The Scientific Literature

Optional modules - students must select one of the following 30-credit modules:
-Advanced Cell Biology
-ABC – Analysis of Biological Complexity

And one of:
-Aspects of Bioengineering
-Image Processing
-Introduction to Physical Techniques in the Life Sciences
-Machine Vision
-Matlab Programming for Biology
-Mechanisms of Development
-Statistics for Biology

Dissertation/report
All students undertake an independent research project which culminates in a report of 10,000 words.

Teaching and learning
Teaching is delivered through a combination of lectures, seminars and workshops and by an element of problem-centred learning, innovatively linking taught material to a set of student-selected research case studies, Taught modules are assessed by problem sets and examinations; ‘hands-on’ modules (e.g. BioMEMs and Microscopy Techniques) and research projects are assessed by presentations, assessed reports and the dissertation.

Careers

This programme will prepare students for an increasingly interdisciplinary work and research environment in biological physics and quantitative biology and their applications in industrial research or academic settings.

Employability
The programme includes significant transferable skills components (e.g. scientific writing, presentations, outreach, innovation) which are highly relevant to future employability. Students gain a deep understanding of both the physics and biology underpinning phenomena observed in living systems - as well as direct knowledge of cutting-edge technologies likely to play a role in industrial development and academic research - while addressing key societal challenges (from cancer to healthy ageing).

Why study this degree at UCL?

The new Biological Physics MSc brings together expertise in biological and physical sciences at UCL. In the last two years the UCL Institute for the Physics of Living Systems has been created to enhance the teaching and research opportunities in interdisciplinary physics and life sciences at UCL.

The necessity to cross traditional disciplinary boundaries is particularly true of biology where there is a growing realisation that understanding the physics underlying biological phenomena is critical in order to rationally develop next generation treatments for disease and solutions for food security in a globalised world.

Students are immersed in an active research environment from the outset, interacting with experienced researchers in the laboratory and familiarising themselves with state-of-the-art biological and biophysical research techniques.

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This Master's degree in bioscience provides hands-on experience and training in a wide range of analysis techniques and instrumentation used in the molecular biosciences, biomedical and pharmaceutical sectors. Read more
This Master's degree in bioscience provides hands-on experience and training in a wide range of analysis techniques and instrumentation used in the molecular biosciences, biomedical and pharmaceutical sectors. It is designed to allow flexibility in attendance requirements and offers the opportunity to complete a novel research project in one of our excellent research laboratories.

Why study this course at Birkbeck?

- Hands-on training in analysis techniques and instrumentation used in the molecular bioscience, biomedical and pharmaceutical sectors.
- Offers the opportunity to complete a research project in our research laboratories.
- Part of the Institute of Structural and Molecular Biology, a joint initiative with University College London.
- Very flexible modular programme: one-third is delivered by distance learning, allowing you to combine study with other commitments. Part-time students can attend 2 evenings a week over 2 years to complete the MSc.
- Taught in the Department of Biological Sciences, which offers state-of-the-art instrumental and computing facilities, and the possibility of collaborating with industry. The department and the Institute of Structural Molecular Biology also provide a seminar programme and skills training across disciplines.

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The MSc/MRes incorporates a lecture based module (Genetics, Biochemistry, Molecular Biology, Neuroscience, Cardiovascular Sciences), skills module (Scientific… Read more
The MSc/MRes incorporates a lecture based module (Genetics, Biochemistry, Molecular Biology, Neuroscience, Cardiovascular Sciences), skills module (Scientific, poster and oral presentations), practical classes in Molecular Biology and Biochemistry, generalist workshops (statistics, bioinformatics, patenting), a choice of over 20 specialist Bioscience workshops and either a 6 month (MSc) or 9 month (MRes) research project.

Key benefits

- The programme offers advanced practical experience and supervised training together with an in-depth research project within an active research group.

- Each student can choose a number of expert led workshops focused on teaching specialised technical skills.

- This programme offers a lead into a research career; approximately 40 per cent of graduates from this degree progress to a PhD.

- Our external examiner noted that "This course provides an ideal training for biomedical students hoping to pursue a career in research and sets a gold standard nationally in this area."

- Many students publish their results in top tier journals.

Visit the website: http://www.kcl.ac.uk/study/postgraduate/taught-courses/biomedical-and-molecular-sciences-research-msc-mres.aspx

Course detail

- Description -

This programme provides firm theoretical and practical training in fundamental and specialist technical skills as well as the opportunity to carry out an in-depth laboratory-based research project.

- Course purpose -

Gain a firm theoretical and practical training in fundamental and specialist technical skills and carry out an in-depth laboratory-based research project in your chosen field of specialisation. Designed for careers in a research environment or further study to PhD level.

- Course format and assessment -

The programme includes a 10-week laboratory experimental training period in fundamental research techniques required for biomedical and molecular biological scientists. In addition, workshops will focus on transferable and specialist technical skills which are complemented with lectures detailing recent advances in cardiovascular biology, neurobiology, molecular genetics, biochemistry and molecular biology. Assessments take the form of written examinations, workshop reports, practical write-ups, a research project, poster and oral presentations.

Finally, you will undertake a 6 month (MSc) or 9 month (MRes) laboratory-based research project within a research team. Research projects are offered by over 50 approved research active laboratories spread across the Faculty of Life Sciences & Medicine to capture a comprehensive scope of topics to suit a wide range of career aspirations.

Career prospects

Alumni from our MSc/MRes in Biomedical and Molecular Sciences Research have been very successful in securing UK or international PhD positions after graduation. The vast majority have remained in Science or enrolled on a PhD, medical or dental programme. This is largely due to the extended experimental research project in world-leading research laboratories. Our external examiner noted that "This MSc course provides an ideal training for biomedical students hoping to pursue a career in research and sets a gold standard nationally in this area”.

How to apply: http://www.kcl.ac.uk/study/postgraduate/apply/taught-courses.aspx

About Postgraduate Study at King’s College London:

To study for a postgraduate degree at King’s College London is to study at the city’s most central university and at one of the top 20 universities worldwide (2015/16 QS World Rankings). Graduates will benefit from close connections with the UK’s professional, political, legal, commercial, scientific and cultural life, while the excellent reputation of our MA and MRes programmes ensures our postgraduate alumni are highly sought after by some of the world’s most prestigious employers. We provide graduates with skills that are highly valued in business, government, academia and the professions.

Scholarships & Funding:

All current PGT offer-holders and new PGT applicants are welcome to apply for the scholarships. For more information and to learn how to apply visit: http://www.kcl.ac.uk/study/pg/funding/sources

Free language tuition with the Modern Language Centre:

If you are studying for any postgraduate taught degree at King’s you can take a module from a choice of over 25 languages without any additional cost. Visit: http://www.kcl.ac.uk/mlc

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The course is aimed at students with a background in sport sciences who wish to take a broad-based degree that combines a range of self-selected modules from across the two specialist pathways. Read more

About the course

The course is aimed at students with a background in sport sciences who wish to take a broad-based degree that combines a range of self-selected modules from across the two specialist pathways: Human Performance and Sport Psychology.

It includes the module ‘Physical Activity and Health’ in which contemporary issues such as obesity and injury rehabilitation are examined from a multi and interdisciplinary perspective.

Aims

You will have significant scope to tailor a programme of study to your specific needs.

You will build upon your existing knowledge and extend your understanding of selected areas in sport, health and exercise sciences.

You will encounter a range of learning experiences designed to enhance critical analysis and independence of thought.

You will be given grounding in research methods and data analysis that prepares you for higher research-related degrees (e.g. PhD).

Course Content

Compulsory Modules:

Physical Activity and Health
Research Methods and Data Analysis
MSc Dissertation

Optional Modules:

Biomechanics of Sport and Exercise
Individual Differences in Sport and Exercise
Social Processes in Exercise and Sport
Applied Sports Physiology
Performance Lifestyle
Laboratory Techniques in Physiology and Biomechanics
Research and Application in the Psychology of Sports Performance
Psychological Skills for Practitioners
Professional Development

Assessment

Your academic performance will be assessed in a variety of ways. Assessment procedures include essays, case studies, oral presentations, poster presentations, laboratory report writing and computer-based tests. Formal written examinations constitute part of the assessment in some modules.

In addition, you will need to submit, and pass, a research dissertation.

Special Features

The Sport, Health and Exercise Sciences enjoy a prominent position within the University, building upon traditions that stem from Borough Road College – the oldest teacher-training college in the British Commonwealth. We have a long-standing reputation for excellence in teaching and an impressive record of research and publication which consistently attracts high-calibre students, including high level sportsmen and sportswomen who successfully combine study with training and competition.

Our students have varied backgrounds and interests – some are keen to gain knowledge about sports performance, others are keen to explore the links between sport and, for example, community, education, health, and politics.

Sport is a hugely popular form of culture around the world and the academic study of sport has grown in popularity to meet the demands of the global sports industry. In parallel with these developments, sport sciences courses at Brunel are up-to-date, dynamic, and forward-looking.

We have some of the best sports facilities in the UK which include an indoor and outdoor sports and fitness complex. For more information visit Brunel University Sport.

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This course primarily focuses on the physiological and biomechanical elements of the human performer, while also providing you with grounding in the lab techniques used by physiologists and biomechanists. Read more

About the Course

This course primarily focuses on the physiological and biomechanical elements of the human performer, while also providing you with grounding in the lab techniques used by physiologists and biomechanists. The course serves as ideal preparation for those wishing to pursue accreditation as a Sport Scientist through the British Association of Sport and Exercise Sciences (BASES).

Aims

To build on your existing knowledge and extend your understanding of applied physiology and sport and exercise biomechanics
To provide experiences designed to enhance critical analysis and independence of thought
To develop your understanding of, and competence in, research methods and statistical analysis
To enable you to critically evaluate and initiate project work relevant to applied physiology and sport and exercise biomechanics
To provide a sound and secure basis from which you may proceed to a research degree (eg PhD) or a career as an applied sport scientist with specialist knowledge in applied physiology and sport and exercise biomechanics.
To provide an integrated study programme that is compatible with current guidelines and benchmarks provided by or through BASES

Special Features

The School of Sport and Education enjoys a prominent position within the University, building upon traditions that stem from Borough Road College - the oldest teacher-training college in the British Commonwealth.

We have a long-standing reputation for excellence in teaching and an impressive record of research and publication which consistently attracts high-calibre students, including high level sportsmen and sportswomen who successfully combine study with training and competition.

Our students have varied backgrounds and interests. Some are keen to gain knowledge about sports performance, others are keen to explore the links between sport and, for example, community, education, health, and politics.

Sport is a hugely popular form of culture around the world and the academic study of sport has grown in popularity to meet the demands of the global sports industry. In parallel with these developments, sport sciences courses at Brunel are up-to-date, dynamic, and forward-looking.

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This rewarding programme is designed to provide a biological perspective on the nature and study of human behaviour and health with an emphasis on the clinical relevance of contemporary developments in the biological sciences. Read more

Summary

This rewarding programme is designed to provide a biological perspective on the nature and study of human behaviour and health with an emphasis on the clinical relevance of contemporary developments in the biological sciences.

Our programme is designed to improve career prospects for health professionals and offers a social context is for the anthropological and psychological issues of health and healthcare. This course covers a broad spectrum of biological approaches from the molecular to ethological studies and presents a diverse range of methods for the study of human behaviour and health.

The biological basis of behaviour is an increasingly important aspect of understanding health and illness. You will develop an in-depth understanding of topic areas and mechanisms involved in the maintenance of health and well-being, and the development and treatment of disease. This rewarding programme provides an ideal platform for the basis for further post-graduate research, a career in consultancy-based research, or your development of evidence-based practice in health care. You will learn to analyse the contributions of different disciplinary and theoretical perspectives to the understanding of health and wellbeing, disease and its treatment, and care.

The programme will introduce you to a wide range of health issues from stress to sleep; it considers the aetiology and symptomology of the body’s complex processes with a thought-provoking and challenging syllabus.

Content

We offer a diverse range of modules to build your knowledge and enable you to focus on topics that interest you. Recent examples of these topics included: the psychophysiology of health, where you will examine the effects of stress in relation to health and well-being, health research methods, and public health and social, psychological and biological approaches to health and disease.

You will be supported by a strong academic staff team of biological and health scientists and you will automatically become a part of the Department of Life Sciences’ Health Sciences Research Centre.

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This masters course will bring you up to speed with the post genomic era. We are now in a scientific age that has followed the game changing breakthrough that was the sequencing of the human genome. Read more
This masters course will bring you up to speed with the post genomic era. We are now in a scientific age that has followed the game changing breakthrough that was the sequencing of the human genome. But that was not the end, just the beginning. The “big” data being generated is coming out at an amazing rate. Personalised medicine is around the corner. We need skilled and talented biologists who are capable of analysing, processing and innovating. Gene therapy is hitting the headlines. Stem cell therapy may treat the previously untreatable. You can be part of this new golden age with a masters in medical genomics.

More about this course

We will be enhancing knowledge of genomic science from a health perspective. With our superb laboratory facilities we’re able to offer unique research project opportunities together with outstanding quality of teaching from research active staff.

We have access to guest lecturers at the highest levels of their profession who are collaborating with our staff (Barts, Imperial, Kings, UCL, St Georges, Brunel). In addition, we have a strong collaboration with the prestigious ACFIES in Columbia, which offers exciting international work exchange opportunities.
Students will be eligible to join the Royal Society of Biology with whom we are registering to be accredited.

We can offer unrivalled student learning support and our location means that the job market is on our doorstep. Connections with other prestigious universities mean that students will have the opportunity to meet and discuss their career options and secure work placements or apply for studentships.

You’ll be tested using a wide variety of assessment tools. We will ask students to write laboratory reports, give presentations, sit written exams, take part in debates, answer quizzes and experience virtual labs via asynchronous e-learning, make posters and defend their work aurally.

Modular structure

The modules listed below are for the academic year 2016/17 and represent the course modules at this time. Modules and module details (including, but not limited to, location and time) are subject to change over time.

Year 1 modules includes:
-Biomedical Informatics (core, 20 credits)
-Fundamentals of Medical Genetics and Genomics (core, 20 credits)
-Medical Genetics (core, 20 credits)
-Research Project for Medical Genomics (core, 60 credits)
-Scientific Frameworks for Research (core, 20 credits)
-Advanced Immunology (option, 20 credits)
-Bioinformatics and Molecular Modelling (option, 20 credits)
-Biomedical Diagnostics (option, 20 credits)
-Epidemiology of Emerging Infectious Disease (option, 20 credits)
-Ethical Issues in Biomedical Science (option, 20 credits)
-Molecular Oncology (option, 20 credits)

After the course

Genomics is important in both public and private domains. It is key for the NHS and via governmental initiatives (the 100,000 genome project). Thus there is a commensurate burgeoning of new genome centres in the UK and abroad: ie the Cambridge Genome centre. There are opportunities for people with degrees and training in human genetics. As genetic testing becomes part of many routine medical evaluations, more geneticists are needed to perform the tests. As genetics is recognised to be a basic part of all biological sciences, more teachers with expertise in genetics will also be needed. In India, genomics is growing through companies like Medgenome. It is indubitable that this is a currently growing area of the job market.

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This modular Master's degree delivers comprehensive training in analytical chemistry, with the opportunity to specialise in areas such as forensic, clinical and biopharmaceutical or environmental analysis. Read more
This modular Master's degree delivers comprehensive training in analytical chemistry, with the opportunity to specialise in areas such as forensic, clinical and biopharmaceutical or environmental analysis.

The programme is available both part-time and full-time, by day release, and offers the opportunity to complete a research project in our research laboratories. This is a laboratory-based subject, with constant contact between staff and students which creates opportunities for you to comment on, and take responsibility for, the direction of your studies.

This course will develop your knowledge and understanding of key areas of analytical science and its practical applications, advance your understanding of recent advances in the field and equip you with the skills to formulate a research or method development plan and carry out the appropriate literature and data searches. You will also learn how to carry out chemical manipulations, operate advanced analytical equipment and work safely and efficiently in a laboratory.

Why study this course at Birkbeck?

Part-time study by day release allows you to combine study with other commitments, and accumulate modules over 2-5 years.
Includes a research project, which may be completed at your place of work if appropriate.
Available with specialisms in forensic analysis, clinical and biopharmaceutical analysis or environmental analysis.
Chemistry is taught in the School of Science, which offers state-of-the-art instrumental and computing facilities, and the possibility of collaborating with industry. The School also provides a seminar programme and skills training across disciplines.

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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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This is one of three related MSc programmes in pharmaceutical sciences offered by King's College London. The programmes have been designed to help you develop advanced laboratory skills and techniques for application within the pharmaceutical industry and research institutes. Read more
This is one of three related MSc programmes in pharmaceutical sciences offered by King's College London. The programmes have been designed to help you develop advanced laboratory skills and techniques for application within the pharmaceutical industry and research institutes.

The programmes are designed for graduates in pharmacy, chemistry or related sciences who wish to progress their careers within the pharmaceutical industry, in research and development, drug information or registration departments. The programmes are also suitable for those who wish to work in research institutes, hospital pharmacy, or with drug licensing or regulatory authorities. They also offer a solid foundation for students wishing to enter into research degree programmes.

Key benefits:

- King's is ranked 4th in the world for Pharmacy & Pharmacology (QS World University Rankings by Subject 2016)

- A programme of study in London focused on the discovery and development of biopharmaceuticals, therapeutic peptides, protein, monoclonal antibodies and nucleic acids.

- Links with the pharmaceutical industry in terms of visiting lecturers and site visits.

- A six-month research project.

- Combined teaching with the MSc Pharmaceutical Technology and Pharmaceutical Analysis & Quality Control programmes provides a broad education in the pharmaceutical sciences and allows student flexibility.

Visit the website: http://www.kcl.ac.uk/study/postgraduate/taught-courses/biopharmaceuticals-msc.aspx

Course detail

This advanced programme provides an introduction to the principles of biopharmaceutics and pharmaceutical analysis, offering specialisation in the more biological aspects of the pharmaceutical sciences with an emphasis on drug metabolism and biochemical toxicology.

- Course purpose -

To provide chemical, life science and pharmacy graduates with scientific knowledge and expertise in the areas of biopharmaceutical discovery and development required for a career in the pharmaceutical industry, research institutes or regulatory authorities.

- Course format and assessment -

Lectures; small group tutorials; laboratory classes; laboratory-based research project (or in some instances a critical review of the scientific literature). Each taught module is assessed by a written examination (70 per cent) and coursework (30 per cent).

Modules include:

- Principles Of Chemical Analysis Techniques, Numerical Methods And Regulatory Affairs
- Principles Of Drug Delivery And Disposition
- Research Project/dissertation - Pharmaceutical Sciences

Career prospects

Recent graduates have gone on to take PhD studies; to work in R&D laboratories in the pharmaceutical industry and Biopharmaceutical Industry (including Pfizer, GSK and Novartis); or small Biotech companies. Overseas students have returned to similar positions in their home countries.

How to apply:

http://www.kcl.ac.uk/study/postgraduate/apply/taught-courses.aspx

About Postgraduate Study at King’s College London:

To study for a postgraduate degree at King’s College London is to study at the city’s most central university and at one of the top 20 universities worldwide (2015/16 QS World Rankings). Graduates will benefit from close connections with the UK’s professional, political, legal, commercial, scientific and cultural life, while the excellent reputation of our MA and MRes programmes ensures our postgraduate alumni are highly sought after by some of the world’s most prestigious employers. We provide graduates with skills that are highly valued in business, government, academia and the professions.

Scholarships & Funding:

All current PGT offer-holders and new PGT applicants are welcome to apply for the scholarships. For more information and to learn how to apply visit: http://www.kcl.ac.uk/study/pg/funding/sources

Free language tuition with the Modern Language Centre:

If you are studying for any postgraduate taught degree at King’s you can take a module from a choice of over 25 languages without any additional cost. Visit: http://www.kcl.ac.uk/mlc

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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?… Read more
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.

Degree information

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, downstream processing), state-of-the-art life science techniques (such as molecular biology, vaccine development, microfluidics) and essential business and regulatory knowledge (such as management, quality control, commercialisation).

Three distinct pathways are offered tailored for graduate scientists, engineers, or biochemical engineers. Students undertake modules to the value of 180 credits. The programme offers three different pathways (for graduate scientists, engineers, or biochemical engineers) and consists of core taught modules (120 credits) and a research or design project (60 credits).

Core modules for graduate scientists
-Advanced Bioreactor Engineering
-Bioprocess Synthesis and Process Mapping
-Bioprocess Validation and Quality Control
-Commercialisation of Bioprocess Research
-Fluid Flow and Mixing in Bioprocesses
-Heat and Mass Transfers in Bioprocesses
-Integrated Downstream Processing
-Mammalian Cell Culture and Stem Cell Processing

Core modules for graduate engineers
-Advanced Bioreactor Engineering
-Bioprocess Validation and Quality Control**
-Cellular Functioning from Genome to Proteome
-Commercialisation of Bioprocess Research
-Integrated Downstream Processing
-Mammalian Cell Culture and Stem Cell Processing
-Metabolic Processes and Regulation
-Structural Biology and Functional Protein Engineering
-Bioprocess Microfluidics*
-Bioprocess Systems Engineering*
-Bioprocessing and Clinical Translation*
-Cell Therapy Biology*
-Industrial Synthetic Biology*
-Sustainable Bioprocesses and Biorefineries*
-Vaccine Bioprocess Development*

*Core module for graduate biochemical engineers; **core module for both graduate engineers and graduate biochemical engineers

Research project/design project
All MSc students submit a 10,000-word dissertation in either Bioprocess Design (graduate scientists) or Bioprocess Research (graduate engineers and graduate biochemical engineers).

Teaching and learning
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.

Careers

The rapid advancements in biology and the life sciences create a need for highly trained, multidisciplinary graduates possessing technical skills and 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.

Top career destinations for this degree:
-Mechanics of Material, Imperial College London
-PhD Biochemical Engineering, University College London (UCL)
-Bio-Pharmaceutical Engineer, GSK (GlaxoSmithKline)
-Associate Consultant, PwC
-Genetics Technician, Chinese Academy Of Sciences

Employability
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 graduate 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.

Why study this degree at UCL?

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 ensure 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.

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