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Masters Degrees (Bioscience Enterprise)

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The Masters in Bioscience Enterprise (MBE) programme is an intensive, taught science and business course intended for those who have an interest in enterprise and the ambition to found technology companies or take up leadership, executive or consultancy roles in the life sciences sector. Read more
The Masters in Bioscience Enterprise (MBE) programme is an intensive, taught science and business course intended for those who have an interest in enterprise and the ambition to found technology companies or take up leadership, executive or consultancy roles in the life sciences sector. Practical experience is gained through individual and group professional practice assignments, a consulting project and an internship placement, both of which are conducted with host companies.

Applicants must have a good first degree in biological, medical or physical sciences or a financial or legal background and demonstrate a strong interest in pursuing a business career in the life science sector. MBE students are based at the Institute of Biotechnology and have a close affiliation to Judge Business School, a combination that provides an unparalleled educational experience and an opportunity to learn from leading scientists, entrepreneurs and academics at the University of Cambridge.

Learning is based on real business examples and lectures and case studies are frequently delivered by senior company executives. There are optional opportunities to gain a global perspective of the industry sector during a study tour to a international biotechnology business cluster, an event which may be planned and led by members of the class. Additional costs are incurred by students who elect to participate in these activities or incur other discretionary expenses associated with participation in the programme.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/egcempbse

Course detail

The educational aims of the M.Phil. programme in Bioscience Enterprise are to:

- Enhance understanding of life sciences and related technological developments;
- Foster research and analytical skills and methodologies;
- Develop written and verbal communication skills;
- Provide knowledge of the ethical, legal and regulatory issues associated with bringing scientific advances to market;
- Develop applied business skills, including those that enable students to:
*identify potential business opportunities arising from research in life sciences and related areas;
*exploit entrepreneurial opportunities;
*undertake senior executive roles within biotechnology companies and other commercial entities.

Other aims of the programme are to:

- Provide a coherent and supportive learning environment, with students working closely with teachers drawn from both academic and biotechnology business executive backgrounds and whose teaching is informed by their own knowledge and business expertise;
- Develop new areas of teaching in response to advances of scholarship and the community;
- Continue to attract outstanding students, irrespective of race, nationality, background, gender or physical disability.

Learning Outcomes

Students gain an understanding of:

- Life sciences, including fundamental concepts of basic science and demonstration of how contemporary biological and medical research leads to exploitable science and commercial products;
- Business, including commercial and analytical skills required in biotechnology and healthcare related businesses;
- Management, including strategy, organisation, leadership, marketing and financing of technology companies;
- Technology transfer, from academia to industry and from industry to industry, including the concepts of licensing, partnering, joint ventures, mergers and acquisitions;
- Law and intellectual property frameworks, relating to companies, individuals and shareholders in different jurisdictions;
- Social and ethical issues, including fundamental constraints when applying scientific research to the development of new bioscience products;
- Global biotechnology, including comparisons of the current industry status in the UK, Europe, USA and elsewhere.

Format

Science and technology, business and transitionary modules are taught in each term, integrating commercial know-how with advances in research and demonstrating the many complex issues associated with bringing discovery and innovation from the laboratory to the market. The programme is highly participatory and includes practical elements in the form of interdisciplinary projects, workshops, case studies and business planning activities. Students have opportunities to undertake a consulting project and a technology company internship placement, and to gain an international perspective during a (self-funded, optional, student planned and led) study tour to a biotechnology business cluster in the EU or USA.

The MBE class is taught as a single entity. There are no elective components and all students follow the same syllabus. The class offers a professional practice experience and a high level of participation is expected. All lectures and course components are mandatory.

The department is renowned for its practical and successful approach to biotechnology entrepreneurship and the exploitation of bioscience inventions. Students benefit from a unique combination of teaching and mentoring from experienced business and academic contributors. The faculty pursue a variety of research interests and the application of the resulting technologies has led to the founding of many spin-out companies. Our innovative achievements and strong Master's teaching were recognised by the Queen's Anniversary Award (2007).

Placements

In April and May of each year, MBE students spend the majority of their time working in a company placement, carrying out research with a commercial or business dimension. Students are encouraged at this time to put into practice the lessons learnt from the academic aspects of the programme as well as to demonstrate originality of research and analysis. The MBE staff provides considerable support to students in regard to both identifying suitable projects and during the placement itself.

It is important that the project undertaken relates to the field of ‘bioscience enterprise’, addresses a defined research question and affords students the opportunity to collect quantitative and qualitative data. The subsequent analysis forms the basis of a substantial dissertation and the findings are also presented at a Symposium held at the end of the year, as well as in the form of conclusions and recommendations for the host company.

Assessment

A 10,000 word dissertation is an important aspect of course assessment. Passing this element of the course is crucial to attainment of the degree. The work is based on data collected during a research placement in a company, the analysis of which forms the basis of the work. The dissertation should show evidence of innovative thinking and must not be simply a review and subsequent extrapolation of previously published work.

Written submissions include in-depth science and technology in business papers, up to 10 essays of no more than 4000 words, a number of short reports and critical appraisals, a consulting project report and a dissertation of no more than 10,000 words based on research and analysis conducted during the internship placement. At the conclusion of the dissertation students make an assessed presentation. The Examiners may ask candidates to take an oral exam at the conclusion of the course.

Attainment is continuously assessed, with particular emphasis on practical activities, participation and learning through team-work in the research, preparation, and delivery of presentations. Where possible group work reflects the activities of a professional business environment.

Students are also encouraged to participate in extracurricular enterprise activities, including entrepreneurial competitions within the University and further afield, and submit a business development plan as one of the course assignments.

Continuing

Students completing this course usually continue their career in the life sciences commercial sector but a number also at the conclusion of the course apply for PhD research programmes in either science or management disciplines.

Find out how to apply here http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

Students normally fund their studies through savings, loans, by a grant from their employer or by securing a scholarship from either a Cambridge Trust or other awarding body. The competition for scholarship awards is intense and candidates are advised that only a small percentage of the highest-achieving applicants are successful.

A limited number of bursaries are available to MBE students through the generosity of the Chris R. Lowe Carpe Diem Bursary programme and at times from other sources associated with the course. Candidates who meet the eligibility criteria set by the donors and are offered a place to study on the course will be automatically considered for these awards as part of their application process. Usually these awards are made to students on the basis of economic need, or those who live in or have studied in and intend to pursue their future careers in the UK.

Please note that the programme bursaries, whilst at times substantial, are not intended to cover all the costs associated with living and studying at Cambridge and therefore applicants must ensure they have access to sufficient funds to cover the balance of their tuition and College fees and maintenance needs.

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

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Biotechnology is the application of biology in industry and exploits living things and processes commercially to make useful products and provide practical solutions. Read more
Biotechnology is the application of biology in industry and exploits living things and processes commercially to make useful products and provide practical solutions. In the 21st century, biotechnology is set to continue to have a major impact on all our lives from improvements in medicine and pharmaceuticals to food quality, agricultural systems and biofuels.

Using the considerable interdisciplinary research strengths and business initiatives that exist within the Faculty of Biology, Medicine and Health and the Manchester Enterprise Centre, we are able to offer a challenging and innovative programme that combines expertise in entrepreneurial business development with cutting edge research.

Manchester Enterprise Centre (MEC) is based within Manchester Business School at The University of Manchester. We are recognised as one of the UK leaders in the area of enterprise education. The Faculty of Biology, Medicine and Health is one of the leading centres for life sciences research in the UK.

This research based MSc course will provide you with the scientific research skills and the business knowledge required to convert scientific discoveries into inventions and commercial products. You will also explore how these translate into a business plan for start-up technologies or innovative processes within biotechnology industries. The combination of research skills and business knowledge will ensure you are well equipped for career opportunities in the global biotechnology market.

Career opportunities

The combination of research skills and business knowledge will ensure you are well equipped for career opportunities in the global biotechnology market. Around three-quarters of recent graduates have moved on to careers in industry including Business Development and knowledge transfer positions in bioscience and pharmaceutical companies. The remaining graduates have moved on to industry related PhD research.

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IN BRIEF. Train for a career in the newly emerging industries of the post-genomic eraWork at the interface between biology and chemistryExcellent career prospectsPart-time study optionInternational students can apply. Read more

IN BRIEF:

  • Train for a career in the newly emerging industries of the post-genomic eraWork at the interface between biology and chemistryExcellent career prospectsPart-time study optionInternational students can apply

COURSE SUMMARY

Following completion of the Human Genome Project, the pharmaceutical industry is preparing for a revolution in cancer and inherited disorder therapies. This course is training a new generation of bioscientists to meet challenges at the interface between biology and chemistry, and to apply pharmaceutical and analytical knowledge directly to improve quality of life.

The course develops a broad knowledge and conceptual base in the field of drug design and discovery, with an emphasis on new developments and advances in drug identification, understanding drug pharmacology and novel therapeutics, and appreciating how these topics interact with bioscience businesses and enterprise.

This programme is designed to enable you to gain systematic knowledge and critical awareness of current problems and new insights regarding the analysis of biomolecules. There is particular reference to drug design and discovery, along with a comprehensive and critical understanding of applied techniques and their current application in research in the field of biomolecule analysis and drug design.

This course is aimed at students who wish to acquire the specialised skills needed to design drugs for the 21st century. It is ideal for anyone with primarily either a chemistry or biochemistry based undergraduate degree wishing to broaden their knowledge base. The part-time route is well suited to those who already work in industry as it is possible to carry out research projects within the place of work. Prospective students must be committed to developing their skills and knowledge for a career in the pharmaceutical or biotechnology sectors.

TEACHING

Teaching is through:

  • Lectures to provide thorough grounding in the techniques of biomolecule characterisation and drug design.
  • Practical sessions and workshops to demonstrate techniques and methods used in biomolecule characterisation and drug design, and provide a structured opportunity for you to practice techniques and methods in analytical biosciences and drug design.
  • Guided reading that will recommend texts, key articles and other materials in advance of, or following, lecture classes.  
  • The research project which will enable you to practice the application of appropriate, and selected, bioscientific techniques in an academic or industrial context, and demonstrate research methodologies and skills appropriate to and valuable with biomolecule characterisation and drug design. During your research project You will be supervised by expert staff who are actively engaged in international research programmes.

ASSESSMENT

There are eight taught 15 credit modules each of which have only one assessment (100%). Each exam is 2 hours.

EMPLOYABILITY

Although particularly relevant to those looking for a career in the pharmaceutical and biotechnology industries, this course will also equip you for a career in research, teaching and many other professions including cosmetic science, animal health, food science, medical laboratory research, patent law, scientific journalism and health and safety.

LINKS WITH INDUSTRY

Research projects may be carried out at other institutions (recently Universities in Bremen or France and the Paterson Institute, UK). We also invite visiting lecturers to share their expertise on the subject areas.

FURTHER STUDY

After completion of this course you may wish to specialise in a chosen subject area in one of the School’s two main research centres: Ecosystems and Environment Research Centre (EER) or Biomedical Research Centre (BRC).



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IN BRIEF. Excellent career prospects in biotechnology and related fields. Multidisciplinary course uniquely integrating molecular biology, genomics, and proteomics with both medical and green biotechnology. Read more

IN BRIEF:

  • Excellent career prospects in biotechnology and related fields
  • Multidisciplinary course uniquely integrating molecular biology, genomics, and proteomics with both medical and green biotechnology
  • Biotechnology is a priority growth area in the UK (particularly the North West) as well as a globally important industry
  • Part-time study option
  • International students can apply

COURSE SUMMARY

This course provides strong scientific training in many issues at the forefront of modern biotechnology, as well as the professional skills that you will need to work in the field.  

Course content is well balanced across the areas of biology, biomedicine, biochemistry and molecular biology, and covers topics such as green and medical biotechnology, genomics and bioinformatics, microbiology and proteomics; you will be taught by specialists in these fields. You will also have the  opportunity  to  study a module in Bioscience with Enterprise that has been uniquely developed to allow you to advance your business skills along with core scientific skills.

TEACHING

You will be supervised by expert staff who are actively engaged in international research programmes. Teaching is by:

  • Lectures
  • Tutorial
  • Practical sessions
  • Guided reading
  • Guest lectures
  • Research projects

ASSESSMENT

Assessment is by a combination of written examinations, oral presentations, coursework, laboratory reports and submission of the dissertation.There are eight taught 15 credit modules each of which have only one assessment (100%). Each exam is 2 hours.

FACILITIES

The School is home to state-of-the-art laboratories with dedicated research labs for your research project. The University has invested £3m in the world-class teaching facility equipped with the latest technologies, which has been specially designed to promote an excellent student teaching experience.

The Bodmer Lab is a bright, modern space and has been designed with interconnecting walls which can be easily configured into two, three or four separate laboratories, for maximum flexibility and occupancy. An AV system allows the lecturer to be linked visually and audibly with some or all of the interconnected labs.

A new Translational Medicine Lab will be opened in mid-2017.

CAREER PROSPECTS

This course is particularly suited to those who wish to pursue a career in the biotechnological or pharmaceutical industries, which are priority areas in both the UK and abroad. However, this course will also equip you to pursue careers in hospital laboratories and research institutes, or to continue to a PhD programme.

LINKS WITH INDUSTRY

Certain modules include industrial site visits and research projects may be carried out at other institutions (recently Universities in Bremen or France and the Cancer Research UK Manchester institute). We also invite visiting lecturers to share their expertise on the subject areas.

FURTHER STUDY

After completion of this course you may wish to specialise in a chosen subject area in one of the School’s two main research centres: Ecosystems and Environment Research Centre (EER) or Biomedical Research Centre (BRC).



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This. MSc Molecular Cell Biology. course covers a wide range of up-to-date and industry relevant technologies and will enable students to become familiar with the latest advances and commercial techniques. Read more

This MSc Molecular Cell Biology course covers a wide range of up-to-date and industry relevant technologies and will enable students to become familiar with the latest advances and commercial techniques. This exciting course is designed to give you the theoretical and practical skills needed for a career in molecular bioscience within companies and research organisations.

You get the opportunity to enhance your CV with a year's work placement with this Masters.

Modules

  • Molecular biology
  • Cell culture and antibody technology
  • Biology of disease
  • Business and enterprise
  • Research methods and bioethics
  • Research project

COME VISIT US ON OUR NEXT OPEN DAY!

Visit us on campus throughout the year, find and register for our next open event on http://www.ntu.ac.uk/pgevents.



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Your programme of study. Immunology is linked to our ability to remain healthy and free of disease - fighting off infections and disease and understanding our genetic factors and risk factors in inheriting disease. Read more

Your programme of study

Immunology is linked to our ability to remain healthy and free of disease - fighting off infections and disease and understanding our genetic factors and risk factors in inheriting disease. You look at behavioural factors and their links to disease to understand protection methods and you go into the detail of bioinformatics and genomics to understand DNA and analyse within practical research when you test for specific issues such as stress, hunger and so on and responses in the body.

The programme is designed for you to develop your academic knowledge of immunology and its relevance to disease with analysis and research skills designed to enhance your career prospects, or continue to PhD. You can use your training within educational establishments to apply training, work in patents, science outreach and public engagement.

Focusing on the relevance of the immune response in the maintenance of health and development of disease, graduates will be able to attain the intellectual and practical skills needed to address both theoretical and technical aspects of modern biomedical research.

In common with the other molecular biosciences Masters courses, the MSc in Immunology builds on recent advances in genomics to understand the generation of immunological diversity at a cellular level, how this imparts variability in immune responses at the individual and population level and the relevance of the immune system in disease areas such as autoimmunity, cancer, allergy and microbial infections.

You may also be interested in the Scottish Innovation Centres research and enterprise work with companies in Scotland to find out more about the possibilities in this area of health science and spin-out research going on from Aberdeen and other universities: http://www.innovationcentres.scot/

Courses listed for the programme

Semester 1

Basic Skills Induction

Generic Skills

Current Topics in Immunology

Introductory Immunology

Applied Statistics

Semester 2

Host-Pathogen Interactions

Genome - Enabled Medicines

Research Tutorials

Immunogenetics

Find out more detail by visiting the programme web page

https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/127/immunology/

Why study at Aberdeen?

  • You will be taught by world leading researchers in immunology and bioscience with practical training in Flow Cytometry analysis
  • You study at one of the largest health campuses in Europe with a teaching hospital, Medical School, and Institute of Medical Sciences plus Rowett Institute on one campus
  • The university ranked 9th in the world and 5th in Europe for international research collaboration (Leiden 2015)

Where you study

  • University of Aberdeen
  • Full Time or Part Time
  • 12 Months Full Time or 24 Months Part Time
  • September start

International Student Fees 2017/2018

Find out about fees:

https://www.abdn.ac.uk/study/international/tuition-fees-and-living-costs-287.php

*Please be advised that some programmes have different tuition fees from those listed above and that some programmes also have additional costs.

Scholarships

View all funding options on our funding database via the programme page

https://www.abdn.ac.uk/study/postgraduate-taught/finance-funding-1599.php

https://www.abdn.ac.uk/funding/

Living in Aberdeen

Find out more about:

  • Your Accommodation
  • Campus Facilities
  • Aberdeen City
  • Student Support
  • Clubs and Societies

Find out more about living in Aberdeen:

https://abdn.ac.uk/study/student-life

Living costs

https://www.abdn.ac.uk/study/international/finance.php



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Research in the School of Biosciences revolves around understanding systems and processes in the living cell. It has a strong molecular focus with leading-edge activities that are synergistic with one another and complementary to the teaching provision. Read more
Research in the School of Biosciences revolves around understanding systems and processes in the living cell. It has a strong molecular focus with leading-edge activities that are synergistic with one another and complementary to the teaching provision.

Our expertise in disciplines such as biochemistry, microbiology and biomedical science allows us to exploit technology and develop groundbreaking ideas in the fields of genetics, molecular biology, protein science, biophysics and computational biologoy. Fields of enquiry encompass a range of molecular processes from cell division, transcription and translation through to molecular motors, molecular diagnostics and the production of biotherapeutics and bioenergy.

Visit the website https://www.kent.ac.uk/courses/postgraduate/1235/biochemistry

About the School of Biosciences

The School of Biosciences is among the best-funded schools of its kind in the UK, with current support from the BBSRC, NERC, MRC, Wellcome Trust, EU, and industry. It has 38 academic staff, 56 research staff (facility managers, research fellows, postdoctoral researchers and technicians), approximately 100 postgraduate research students and 20 key support staff. The school's vibrant atmosphere has expanded to become a flourishing environment to study for postgraduate degrees in a notably friendly and supportive teaching and research environment.

In addition to research degrees, our key research strengths underpin a range of unique and career-focused taught Master’s programmes that address key issues and challenges within the biosciences and pharmaceutical industries and prepare graduates for future employment.

Research areas

Research in the School of Biosciences is focused primarily on essential biological processes at the molecular and cellular level, encompassing the disciplines of biochemistry, genetics, biotechnology and biomedical research.

The School’s research has three main themes:

- Protein Science – encompasses researchers involved in industrial biotechnology and synthetic biology, and protein form and function

- Molecular Microbiology – encompasses researchers interested in yeast molecular biology (incorporating the Kent Fungal Group) and microbial pathogenesis

- Biomolecular Medicine – encompasses researchers involved in cell biology, cancer targets and therapies and cytogenomics and bioinformatics.

Each area is led by a senior professor and underpinned by excellent research facilities. The School-led development of the Industrial Biotechnology Centre (IBC), with staff from the other four other schools in the Faculty of Sciences, facilitates and encourages interdisciplinary projects. The School has a strong commitment to translational research, impact and industrial application with a substantial portfolio of enterprise activity and expertise.

Associated centres

- Kent Fungal Group

The Kent Fungal Group (KFG) brings together a number of research groups in the School of Biosciences that primarily use yeasts or other fungi as ‘model systems’ for their research. One strength of the KFG is the range of model fungi being exploited for both fundamental and medical/translational research. These include Bakers’ yeast (Saccharomyces cerevisiae) and Fission yeast (Schizosaccharomyces pombe) and yeasts associated with human disease, specifically Candida albicans and Cryptococcus neoformans.

In addition to studying key cellular processes in the fungal cell such as protein synthesis, amyloids and cell division, members of the KFG are also using yeast to explore the molecular basis of human diseases such as Alzheimer’s, Creutzfeldt-Jakob, Huntington’s and Parkinson’s diseases as well as ageing. The KFG not only provides support for both fundamental and medical/translational fungal research, but also provides an excellent training environment for young fungal researchers.

- Industrial Biotechnology Centre

The School houses one of the University’s flagship research centres – the Industrial Biotechnology Centre (IBC). Here, staff from Biosciences, Mathematics, Chemistry, Physics, Computing and Engineering combine their expertise into a pioneering interdisciplinary biosciences programme at Kent, in order to unlock the secrets of some of the essential life processes. These approaches are leading to a more integrated understanding of biology in health and disease. In the Centre, ideas and technology embodied in different disciplines are being employed in some of the remaining challenges in bioscience. With such an approach, new discoveries and creative ideas are generated through the formation of new collaborative teams. In this environment, the IBC is broadening and enriching the training of students and staff in science and technology.

- The Centre for Interdisciplinary Studies of Reproduction (CISoR)

The centre comprises several like-minded academics dedicated to the study of reproduction in all its forms. Drawing on a range of academic disciplines, CISoR's core philosophy is that the study of this fascinating field will advance further through a multidisciplinary approach. Impactful, excellent research forms the basis of CISoR’s activities including scientific advance, new products and processes, contribution to public policy, and public engagement.

Careers

A postgraduate degree in the School of Biosciences is designed to equip our graduates with transferable skills that are highly valued in the workplace. Our research-led ethos ensures that students explore the frontiers of scientific knowledge, and the intensive practical components provide rigorous training in cutting edge technical skills that are used in the modern biosciences while working in areas of world-leading expertise within the School.

Destinations for our graduates include the leading pharmaceutical and biotechnological companies within the UK and leading research institutes both at home and abroad.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/index.html

Read less
Research in the School of Biosciences revolves around understanding systems and processes in the living cell. It has a strong molecular focus with leading-edge activities that are synergistic with one another and complementary to the teaching provision. Read more
Research in the School of Biosciences revolves around understanding systems and processes in the living cell. It has a strong molecular focus with leading-edge activities that are synergistic with one another and complementary to the teaching provision.

Our expertise in disciplines such as biochemistry, microbiology and biomedical science allows us to exploit technology and develop groundbreaking ideas in the fields of genetics, molecular biology, protein science, biophysics and computational biology. Fields of enquiry encompass a range of molecular processes from cell division, transcription and translation through to molecular motors, molecular diagnostics and the production of biotherapeutics and bioenergy.

Visit the website https://www.kent.ac.uk/courses/postgraduate/1238/genetics#!overview

About the School of Biosciences

The School of Biosciences is among the best-funded schools of its kind in the UK, with current support from the BBSRC, NERC, MRC, Wellcome Trust, EU, and industry. It has has 38 academic staff, 56 research staff (facility managers, research fellows, postdoctoral researchers and technicians), approximately 100 postgraduate research students and 20 key support staff. The school's vibrant atmosphere has expanded to become a flourishing environment to study for postgraduate degrees in a notably friendly and supportive teaching and research environment.

In addition to research degrees, our key research strengths underpin a range of unique and career-focused taught Master’s programmes that address key issues and challenges within the biosciences and pharmaceutical industries and prepare graduates for future employment.

Course structure

Our research degrees are based around lab-based and computational research projects. MScs are based around one-year research projects (Full Time). In all our research degrees you undertake a single, focused, research project from day one, and attend only certain components of our transferable skills modules. Our research degree students are supervised by supervisory teams which comprise their main supervisor(s) as well as supervisory chairs that give independent advice on progression.

You can select topics for the MSc from any of the research areas covered in the Research Areas section.

Research areas

Research in the School of Biosciences is focused primarily on essential biological processes at the molecular and cellular level, encompassing the disciplines of biochemistry, genetics, biotechnology and biomedical research.

The School’s research has three main themes:

- Protein Science – encompasses researchers involved in industrial biotechnology and synthetic biology, and protein form and function

- Molecular Microbiology – encompasses researchers interested in yeast molecular biology (incorporating the Kent Fungal Group) and microbial pathogenesis

- Biomolecular Medicine – encompasses researchers involved in cell biology, cancer targets and therapies and cytogenomics and bioinformatics.

Each area is led by a senior professor and underpinned by excellent research facilities. The School-led development of the Industrial Biotechnology Centre (IBC), with staff from the other four other schools in the Faculty of Sciences, facilitates and encourages interdisciplinary projects. The School has a strong commitment to translational research, impact and industrial application with a substantial portfolio of enterprise activity and expertise.

Associated centres

- Kent Fungal Group

The Kent Fungal Group (KFG) brings together a number of research groups in the School of Biosciences that primarily use yeasts or other fungi as ‘model systems’ for their research. One strength of the KFG is the range of model fungi being exploited for both fundamental and medical/translational research. These include Bakers’ yeast (Saccharomyces cerevisiae) and Fission yeast (Schizosaccharomyces pombe) and yeasts associated with human disease, specifically Candida albicans and Cryptococcus neoformans.

In addition to studying key cellular processes in the fungal cell such as protein synthesis, amyloids and cell division, members of the KFG are also using yeast to explore the molecular basis of human diseases such as Alzheimer’s, Creutzfeldt-Jakob, Huntington’s and Parkinson’s diseases as well as ageing. The KFG not only provides support for both fundamental and medical/translational fungal research, but also provides an excellent training environment for young fungal researchers.

- Industrial Biotechnology Centre

The School houses one of the University’s flagship research centres – the Industrial Biotechnology Centre (IBC). Here, staff from Biosciences, Mathematics, Chemistry, Physics, Computing and Engineering combine their expertise into a pioneering interdisciplinary biosciences programme at Kent, in order to unlock the secrets of some of the essential life processes. These approaches are leading to a more integrated understanding of biology in health and disease. In the Centre, ideas and technology embodied in different disciplines are being employed in some of the remaining challenges in bioscience. With such an approach, new discoveries and creative ideas are generated through the formation of new collaborative teams. In this environment, the Centre is broadening and enriching the training of students and staff in science and technology.

- The Centre for Interdisciplinary Studies of Reproduction (CISoR)

The centre comprises several like-minded academics dedicated to the study of reproduction in all its forms. Drawing on a range of academic disciplines, CISoR's core philosophy is that the study of this fascinating field will advance further through a multidisciplinary approach. Impactful, excellent research forms the basis of CISoR’s activities including scientific advance, new products and processes, contribution to public policy, and public engagement.

Careers

A postgraduate degree in the School of Biosciences is designed to equip our graduates with transferable skills that are highly valued in the workplace. Our research-led ethos ensures that students explore the frontiers of scientific knowledge, and the intensive practical components provide rigorous training in cutting edge technical skills that are used in the modern biosciences while working in areas of world-leading expertise within the School.

Destinations for our graduates include the leading pharmaceutical and biotechnological companies within the UK and leading research institutes both at home and abroad.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply-online/1238

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This postgraduate course builds on your existing graduate skills by providing detailed knowledge of electronic attacks and how to defend against the methods used to gain access and exploit a system. Read more
This postgraduate course builds on your existing graduate skills by providing detailed knowledge of electronic attacks and how to defend against the methods used to gain access and exploit a system.

Postgraduate funding (tuition fee and living cost loan) may be available from the Student Awards Agency for Scotland for those who meet the eligibility criteria.

Why choose this course?

-Abertay is the only university in the UK that offers a Masters programme in Ethical Hacking.
-It provides the core skills to allow you to take positions in a variety of companies where computer security is a major issue.
-Graduates will be at the forefront of new developments in security.
-Benefit from an active teaching group with a growing reputation based on industry links and Knowledge Transfer projects.
-It is delivered in a project based, entrepreneurial and enterprise culture.

Our students are passionate about their subject area and developing their knowledge. Ethical Hacking is the process of evaluating the security of a computer system by simulating an attack by a malicious hacker. The course is designed to teach students how to think like a hacker, providing them with a deep understanding of security issues and concerns.

We aim to change the way you think. We encourage lively debates about pertinent ethical and security issues. Students develop the hacker mindset, determined to ‘do their bit’ to improve security in the world of Computing.

Join our Graduate School

Our Graduate School is a dedicated facility providing support, training and professional development opportunities to our vibrant postgraduate community. Specially designed to promote integration and inculcation of interdisciplinary working in our next generation of researchers, postgraduates study and learn together at Abertay - from Environmental Management to Law, Psychology, Bioscience, Economics and Business, Cybersecurity and Computer Games Development.

When you join us as a postgraduate student or researcher, you’ll be joining a community of creative like-minded scholars and will automatically be provided with access to our dedicated study and social spaces – a forum in which you can meet, work and learn with other researchers and postgraduates from across the University. You’ll benefit from training and professional development opportunities as well as support with funding applications, placement opportunities, teaching support, public engagement and outreach activity.

What you study

From forensic computing to network security, the course covers a wide range of subjects. Within these, you will learn about web hacking, password cracking, malware analysis, port scanning, buffer overflows and much more.

You also learn how to evaluate the impact of security problems and recommend improvements to a network’s security within a legal and ethical framework. You will also conduct a masters project within an area of cybersecurity that will allow you to build on your existing skills.

How you learn

Teaching is focused on lectures and practical sessions in dedicated classrooms. Lectures are used to present the key concepts, while practicals increase your understanding of the subject and allow you to develop your competence in technological and theoretical work. The course is taught using a problem-based learning approach. You will spend about 12 hours per week attending classes and about 30 hours a week of private study.

How you are assessed

The taught course will be assessed using a combination of written coursework, presentations and seminars, with a written dissertation at MSc level.

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