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Masters Degrees (Applied Biosciences)

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The MSc in Applied Biosciences and Biotechnology aims to. To equip graduates to pursue careers in bioscience and biotechnology either in industry or academic research. Read more
The MSc in Applied Biosciences and Biotechnology aims to:

• To equip graduates to pursue careers in bioscience and biotechnology either in industry or academic research.
• Produce graduates with an in-depth understanding of the core principles and methodologies underlying current biotechnological research.
• To enable students to develop the transferable qualities and skills required for employment or research in the biosciences sector.
• Produce bioscience graduates with training in relevant business and entrepreneurial skills.
• Provide a training in laboratory and research skills.
• Meet the global need for graduates who can successfully contribute to the rapidly developing industrial biotechnology sector.

The biotechnology sector has grown rapidly in recent years and there are increasing career opportunities worldwide for experienced graduates who have been trained in advanced molecular bioscience, systems biology and ‘omics’ technologies, together with exposure to entrepreneurship and innovation. Demand for these skills is predicted to increase sharply over the next decade due to investment in the “green economy”, notably in the areas of bioenergy and industrial biotechnology. Moreover glycoprotein biopharmaceuticals comprise an increasing proportion of new drugs and their development, manufacture and quality control demands interdisciplinary skills in applied biosciences and biotechnology which can only be gained via advanced training at postgraduate level.

Degree structure
The course is comprised of three parts: a taught component, a tutored dissertation, which includes a mini-conference, and a research component. The taught component in weeks 1-30 will include lectures, seminars, computer practicals and tutorials. Computer based practicals will be held throughout weeks 1-14. The dissertation will be carried out in weeks 31-35. A full time laboratory based research project will be carried out from week 36 to 52.

Weeks 1-15: Induction week followed by courses in Biochemistry, Molecular Cell Biology, Bioinformatics, Systems Biology and Statistics which introduce students to the fundamental concepts of modern biology, including cell biology, genomics, proteomics, experimental techniques and data handling. Assessment will be through a written examination in week 15.
Weeks 16-30: All students attend two modules comprising advanced lectures in applied bioscience and biotechnology encompassing: industrial biotechnology, glycol-technology, structural biology, cellular damage, repair and ageing, genes and genomics, infection and immunity, stem cells and regenerative medicine, neurobiology in health and disease, integrative systems biology and synthetic biology. Additional seminars and workshops will introduce students to innovation and entrepreneurship. All students will attend weekly seminars from invited external speakers from industry and the public sector. Assessment will be through two written examinations in week 30.
Weeks 31-35: Students will undertake a full-time tutored dissertation followed by a mini-conference.
Weeks 36-52: Students will undertake full-time individual projects in the research laboratories of the Department of Life Sciences.

Please see course webpage on the Imperial website for further information: http://www.imperial.ac.uk/life-sciences/postgraduate/masters-courses/msc-in-applied-biosciences-and-biotechnology/

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Our MSc Applied Bioscience course will develop your skills within several major areas of applied bioscience, including molecular cell biology, biomedical genetics and specialised topics in medical diagnostics. Read more
Our MSc Applied Bioscience course will develop your skills within several major areas of applied bioscience, including molecular cell biology, biomedical genetics and specialised topics in medical diagnostics. You'll focus on the rapidly evolving research into the applications of bioscience in healthcare, to diagnose and treat diseases. You'll also develop a comprehensive and critical understanding of the theory and practice of advanced analytical techniques as used and applied in bioscience.

Throughout our course you'll develop advanced knowledge and skills in the diverse areas of applied bioscience, emphasising on medical applications. Upon completion you'll be able to confidently design, execute and critically analyse both independent and group based scientific research in an appropriate area of applied bioscience.

You'll be immersed in an environment that mirrors a modern laboratory setting and benefit from the expertise of our Biomedical Science team and their intimate knowledge and collaborations within the field of bioscience. Using our purpose-built laboratory facilities, you'll be in the heart of our rapidly evolving scientific environment.

Our course is suitable for candidates who wish to specialise in the current medical applications of bioscience such as molecular and cell biology as a progression from a relevant first degree and for candidates with a strong background in ‘traditional’ analytical science (chemistry or biology).

Careers

Healthcare is a rapidly growing and constantly evolving sector. MSc Applied Bioscience course encourages the development of specialist cross-disciplinary laboratory skills, such as molecular genetics and bioinformatics, accompanied by an emphasis on professional practice. Graduates from the MSc Applied Bioscience course will have training to progress into a wide range of careers within the sciences, including industry and academic research, clinical trials, product development, production and quality assurance.

Cambridge is the home of the Wellcome Trust Sanger Institute, the Biomedical Campus at Addenbrooke's Hospital and the Babraham Research Institute. Throughout the course, you will have the opportunity to attend seminars or events with Cambridge’s many local biotechnology companies. Graduates from the course are also in the perfect position to continue an academic career and move up to our Biomedical Science PhD.

MSc Applied Bioscience is the right course for you if you:
•Want to develop a wide array of practical and conceptual scientific skills which are vital for a career in Biosciences
•Find the biosciences fascinating and want to deepen your understanding of the applications in healthcare
•Are interested in pursuing a career in research – either academic, clinical or industrial

Core modules

Molecular Genetics and Bioinformatics
Modern Medical Diagnostics
Research Methods and Preparation
Laboratory Techniques in Bioscience
Professional and Ethical Practice
Major Project

Assessment

We use a range of assessment methods to enable both you and the university to check your progress during your studies and then to ensure that you meet the required standards when you complete the course.

Although they vary, our assessment strategies are all carefully designed to challenge you so that you expand your critical and analytical thinking as well as your problem-solving skills. The assessments will enable you to demonstrate that you can synthesise existing knowledge and accumulate new knowledge, and will evidence the development of your professional practice. Some examples of assessment include poster and oral presentations, essays and portfolios of evidence. In addition, you will undertake practicals in many of the modules, developing your technical laboratory skills.

Please note that you will need to complete all of the above core modules. This course does not have any optional modules.

Your faculty

The Faculty of Science & Technology is one of the largest of five faculties at Anglia Ruskin University. Whether you choose to study with us full- or part-time, on campus or at a distance, there’s an option whatever your level – from a foundation degree, to a BSc, MSc, PhD or professional doctorate.

Whichever course you pick, you’ll gain the theory and practical skills needed to progress with confidence. Join us and you could find yourself learning in the very latest laboratories or on field trips or work placements with well-known and respected companies. You may even have the opportunity to study abroad.

Everything we do in the faculty has a singular purpose: to provide a world-class environment to create, share and advance knowledge in science and technology fields. This is key to all of our futures.

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The Experimental and Medical Biosciences master’s programme prepares students for a scientific career within the broad field of the life sciences, with particular emphasis on understanding cellular and molecular mechanisms related to health and disease. Read more

The Experimental and Medical Biosciences master’s programme prepares students for a scientific career within the broad field of the life sciences, with particular emphasis on understanding cellular and molecular mechanisms related to health and disease.

The programme has been designed to provide students with frontline knowledge in biomedicine and related subjects. It unites theoretical knowledge with practical skills, as is most clearly seen in the individual experimental projects.

The master’s programme in Medical Biosciences at LiU received the highest rating in the Swedish Higher Education Authority’s assessment of Sweden’s biomedicine programmes, with five of the evaluated learning outcomes being appraised as Very High Quality and the sixth as High Quality - – the best result of all international biomedicine master’s programmes in Sweden.

Programme description

The Experimental and Medical Biosciences master’s programme prepares students for a scientific career within the broad field of the life sciences, with particular emphasis on understanding cellular and molecular mechanisms related to health and disease.

The programme has been designed to provide students with frontline knowledge in biomedicine and related subjects. It unites theoretical knowledge with practical skills, as is most clearly seen in the individual experimental projects.

Courses are taught using several formats, including regular lectures, tutorial groups that apply problem-based learning (PBL), laboratory work and seminar discussions. The laboratory classes use powerful model systems to illustrate modern concepts of medical biology, while PBL promotes lifelong learning. After two initial, mandatory courses, elective courses offer individual study plans and flexibility in creating a profile that increases the employability of all students within the life sciences. Different areas such as cardiovascular biology, stem cells and applied regenerative medicine, medical genetics and neurobiology are covered. Scientific reasoning, ethical attitudes and multidisciplinary collaboration are given particular emphasis, in order to prepare students for an independent and professional future in biomedicine.

Individual projects in which students apply their theoretical and methodological knowledge are key parts of the programme. During the first year, the project in Experimental and Medical Biosciences will allow students to work with on a specific assignment for ten or twenty weeks. During the second year, a one‑term degree project (master’s thesis) is carried out. Both projects are chosen in collaboration with a supervisor, and the student’s aim is to define a research goal, carry out the experimental work and produce a written report that places the work in the context of current knowledge in the field. The degree project is conducted in a research laboratory, either at Linköping University or at another Swedish or international university, in industry or in the public sector.

Double‑degree programme

An extra feature of the programme is the possibility for a limited number of students to study in Vienna, Austria, during the second year. Apart from the experience, an additional degree is earned - – Master of Science in Engineering. Studies at the University of Applied Sciences, Technikum Wien, within the Tissue Engineering and Regenerative Medicine programme have a strong link to industry.



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This course makes an ideal stepping-stone for those considering PhD or company-based research and provides an opportunity for you to explore your interest in the biosciences in depth while showing a commitment to a research-focused career. Read more

About this course

This course makes an ideal stepping-stone for those considering PhD or company-based research and provides an opportunity for you to explore your interest in the biosciences in depth while showing a commitment to a research-focused career. Our course is flexible, allowing you to explore and specialise in an area of biology that fascinates you with the personalised support of a supervisor. With over 200 members of staff, the breadth of research and expertise in the institute means that you can undertake research in any one of the many areas of specialisation including, zoology, plant breeding, microbiology, bioinformatics, animal or equine science, marine biology and ecology.

Why study Biosciences at Aberystwyth University?

IBERS has been judged world leading in areas such as zoology, grassland science, biochemistry, animal science, marine biology, microbiology, plant biology and ecology.

No matter which area of Biology you specialise in, you will be working alongside some of the world’s biggest names in their respective fields.

We have excellent research facilities including aquariums (marine, freshwater, tropical), a bioinformatics hub, ion-torrent sequencers, and extensive glass house facilities.

We operate several farms and own significant tracts of natural woodland, while our coastal location close to several nature reserves and national parks offers unique opportunities for a broad range of bioscience research.

Opportunity to work within research teams with your supervisor, research staff and other postgraduate students.

This course is suitable for students who are not yet ready or do not wish to begin a PhD but who would like to develop their research skills first. It is also suitable for students that would like to combine research with the support of a taught element of a postgraduate course.

In the most recent Research Excellence Framework (REF 2014) review of university achievement, 78% of our research was classed as world-leading or internationally excellent, and 76% of our work was recognised as having a practical applied impact on society at a world-class level.

Aberystwyth is a safe, vibrant, and friendly town that comprises a multinational community.

Course structure

This course can be studied one year full-time or 24 months part-time. Students on this course complete 40 credits of core modules centred on research and laboratory techniques, and 20 credits giving them an insight into themes/approaches to the biosciences. These modules are delivered via fieldtrips, practicals, lectures, workshops and tutorials.

The core element of this course is the MRes Dissertation, for which students will have supervision meetings to give them guidance before undertaking a prolonged period of experimental work/data gathering, research, and writing up of the dissertation, under the supervision of their dissertation supervisor. All postgraduate students in IBERS also have a named personal tutor, with whom they can discuss personal or domestic concerns that impact on their studies.

Course content

The modules included in this programme are designed to provide a fundamental basis for understanding and contributing meaningfully to biological science research. This qualification combines taught elements that focus primarily on how to undertake excellent research and how research can address grand challenges in biology that we face as a society.

This interdisciplinary research training provides you with the skills needed to complete your individual Research Dissertation. The key feature here is that you are able to explore an area of biology that fascinates you and undertake higher level research with the personalised support of a supervisor.

Core modules:

Field and Laboratory Techniques
MRes Dissertation (A)
MRes Dissertation (B)
Research Methods in the Biosciences
Frontiers in the Biosciences

Contact time

Up to 10 hours per work are spent in taught modules in semesters 1 and 2. The rest of the time in semesters 1 and 2 and the whole of semester 3 are spent conducting your research project. Depending on your project this may include laboratory, field or computer-based research supported by regular meetings with your supervisor.

Assessment

The taught modules are assessed by scientific writing assignments (such as reports, critical reviews, essays and journalistic articles), presentations, contribution to group discussions in seminars, and online assignments.

Subsequent successful submission of your dissertation leads to the award of an MRes.

Skills

Throughout this course you will:

Develop strong data collection/analysis, fieldwork and laboratory skills

Enhance your scientific communication and team work skills

Write for a range of audiences including academics and the wider public

Enhance your analytical abilities and problem solving skills

Develop study and research skills

Develop and sustain a self-initiated programme of study underpinned by good time management skills

Work effectively and independently

Enhance your project management skills to deliver a demanding combination of research, analysis, communication and presentation

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The MSc by Research in the Faculty of Social and Applied Sciences has been designed to offer a range of pathways for you to research your chosen subject interests within Social and Applied Sciences, whilst sharing in the multi-disciplinary nature of the taught component of the course. Read more
The MSc by Research in the Faculty of Social and Applied Sciences has been designed to offer a range of pathways for you to research your chosen subject interests within Social and Applied Sciences, whilst sharing in the multi-disciplinary nature of the taught component of the course.

You’ll share a breadth of experience – the multi-disciplinary nature of the taught component means you will share a broad experience of methodological and research issues. Allied with subject specific supervision, this will allow you to develop a unique awareness of knowledge and experiences across the natural and social sciences in addition to a focus on your own research topic.

Biosciences pathway:
Students pursuing the bioscience pathway would be expected to have research which falls within the areas of the members of the biomolecular research group (BMRG). The BMRG have specialities in cell and molecular biology, protein science, chemical and structural biology, cancer biology, bioinformatics, metabolomics and evolutionary genetics. A selection of current research projects include:

*Development of fluorescent chemosensors for medical applications, biochemical investigations, environmental monitoring, biotechnology and drug discovery.
*Investigating the protein structure and biological control potential of plant lectins.
*Studying organism development and ageing with respect to environmental stimuli.
*Studying prion protein development and maintenance in yeast.
*Investigating the therapeutic potential of novel animal venoms as anti-microbial, anti-parasitic and anti-cancer agents.
*Computationally investigating the molecular dynamics of cell skeletal components.
*Investigating mammalian embryology and comparative genomic studies in a variety of avian species.
*Investigating the biochemical and biophysical properties of muscle proteins.
*Investigating alternative splicing and the circadian clock in plant stress responses.
*Deployment of molecular techniques an attempt to understand the patterns in the spatial distribution of organisms.

Members also have collaborative interests with external partners including local schools and biotechnology businesses. For more information on member’s research activities or for contact details, please click on a member’s individual Staff Profile.

We are a close-knit community of academics, researchers and students dedicated to the study of Life Sciences. You would be joining an active and dynamic post-graduate community and would have the opportunity to contribute to and benefit from this community.

Find out more about the section of Life Sciences at https://www.canterbury.ac.uk/social-and-applied-sciences/human-and-life-sciences/life-sciences/about-us.aspx. You can also find out more about our research https://www.canterbury.ac.uk/social-and-applied-sciences/human-and-life-sciences/life-sciences/research/research.aspx.

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This exciting interdisciplinary MSc programme focuses on providing advanced academic training in the cellular and molecular processes that relate to the production of biomedicines for use in healthcare. Read more
This exciting interdisciplinary MSc programme focuses on providing advanced academic training in the cellular and molecular processes that relate to the production of biomedicines for use in healthcare.

This is coupled with rigorous practical training in the design, production and characterisation of biomolecules using state-of-theart biotechnological and bioengineering analytical and molecular technologies.

You acquire practical, academic and applied skills in data analysis, systems and modelling approaches, and bioinformatics, together with transferable skills in scientific writing, presentation and public affairs. On successful completion of the programme, you will be able to integrate these skills to develop novel solutions to modern biotechnological issues from both academic and industrial perspectives.

Visit the website: https://www.kent.ac.uk/courses/postgraduate/213/biotechnology-and-bioengineering

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 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.

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 and biophysics. 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.

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

The MSc in Biotechnology and Bioengineering involves studying for 120 credits of taught modules, as indicated below. The taught component takes place during the autumn and spring terms, while a 60-credit research project take place over the summer months.

The programme is taught by staff from the Industrial Biotechnology Centre, an interdisciplinary research centre whose aim is to solve complex biological problems using an integrated approach to biotechnology and bioengineering. It is administered by the School of Biosciences who also contribute to the programme.

Modules

The following modules are indicative of those offered on this programme. This list is based on the current curriculum and may change year to year in response to new curriculum developments and innovation. Most programmes will require you to study a combination of compulsory and optional modules. You may also have the option to take modules from other programmes so that you may customise your programme and explore other subject areas that interest you.

BI830 - Science at Work (30 credits)
BI836 - Practical and Applied Research Skills for Advanced Biologists (30 credits)
BI852 - Advanced Analytical and Emerging Technologies for Biotechnology and Bio (30 credits)
BI857 - Cancer Research in Focus (15 credits)
CB612 - New Enterprise Startup (15 credits)
CB613 - Enterprise (15 credits)
BI840 - Cancer Therapeutics: From the Laboratory to the Clinic (15 credits)
BI845 - Research project (60 credits)

Assessment

Assessment is by coursework and the research project.

Programme aims

You will gain the following transferable skills:

- the ability to plan and manage workloads

- self-discipline and initiative

- the development of reflective learning practices to make constructive use of your own assessment of performance and use that of colleagues, staff and others to enhance performance and progress

- communication: the ability to organise information clearly, create and respond to textual and visual sources (eg images, graphs, tables), present information orally, adapt your style for different audiences.

- enhanced understanding of group work dynamics and how to work as part of a group or independently.

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.

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/213

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This one-year full-time Masters programme is taught by the Centre for Ecology and Conservation (http://biosciences.exeter.ac.uk/cec/) ; the fastest growing institute of its kind in the UK. Read more
This one-year full-time Masters programme is taught by the Centre for Ecology and Conservation (http://biosciences.exeter.ac.uk/cec/) ; the fastest growing institute of its kind in the UK.

The course boasts a significant research component, with substantial fieldwork opportunities in the UK as well as a fieldcourse in Africa. Through taught modules and practical application, you will develop advanced skills in scientific method, ecological census and quantitative biology.

A distinctive and integral feature of our MSc is the high degree of input from ecologists in collaborating governmental and non-governmental organisations. This participation takes a variety of forms, including guest lectures, field visits and specific training courses, but may also include providing research projects in their organisations. Collaborating organisations include: Cornwall Wildlife Trust, Butterfly Conservation, Marine Conservation Society, Natural England, Royal Botanic Gardens Kew, Food and Environment Research Agency and the Royal Society for the Protection of Birds.

Professional field biology and career development skills are embedded in the programme to enhance your employability. You will learn wildlife photography, geographic information systems, first aid for expeditions and field work, plus how to publish your own website, secure funding and communicate science to the general public.

Programme overview

- Designed in consultation with multiple external agencies to ensure relevant training that maximises graduate employability
- Substantial field work opportunities in the UK and Africa
- Provide opportunities to connect with external agencies and organisations throughout the programme to further enhance your training
- Delivered by leading international researchers in the Centre for Ecology and Conservation, who regularly publish in peer-reviewed journals
- Offers access to excellent facilities including state-of-the-art research laboratories, greenhouses, aviary and controlled environment rooms (http://biosciences.exeter.ac.uk/facilities/cornwall/)
- Ideal for individuals wishing to work in related consultancy and non-governmental organisations
- Includes modules that target both research and practical applied ecology skills

Fieldwork

The census research projects will see you spending a considerable amount of time in the field collecting data at several key research sites in West Cornwall and interacting with local NGOs (Cornwall Wildlife Trust, South West Lakes Trust).

This programme includes a two week field course in Kenya and will include visits to some of Africa’s largest and most important game reserves, as well as an introduction to some of the day-to-day problems faced by conservation biologists in developing nations. You will study the behaviour of animals in a natural ecological setting with a focus on large mammals, birds and insects. Travel and subsistence costs for this part of the programme are included in the programme fee.

Find out more about our field course modules at http://www.exeter.ac.uk/postgraduate/taught/biosciences/fieldwork/. You can also keep up to date and share the experiences of our students in the field on our Field Course Fortnight website at http://blogs.exeter.ac.uk/fieldcourses/.

Learning and teaching

The taught component of this programme is delivered in the first five months, during which time you will be encouraged to develop your census research projects. The rest of the academic year is dedicated to these projects.

Programme structure

This Programme is modular and consists of five compulsory modules and one optional module.

Compulsory modules

The compulsory modules can include; Research Project; African Biodiversity and Conservation Field or African Behavioural Ecology Field Course; Ecological Census; Statistical Modelling and Key Skills

Optional modules

Examples of the optional modules can include; Terrestrial Biodiversity and Conservation and Preparing for Ecological Consultancy.
The modules listed here provide examples of what you can expect to learn on this degree course based on recent academic teaching. The precise modules available to you in future years may vary depending on staff availability and research interests, new topics of study, timetabling and student demand

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This course offers advanced training for biological, chemical and physical scientists (pure and applied) for careers in the pharmaceutical, food/nutrition, health-care, biomedical, oil and other important industries or as a basis for entry to MRes or PhD. Read more
This course offers advanced training for biological, chemical and physical scientists (pure and applied) for careers in the pharmaceutical, food/nutrition, health-care, biomedical, oil and other important industries or as a basis for entry to MRes or PhD.

Biomolecular Technology underpins the production of drug delivery systems, the making of healthier food products, the design of health-care products, the making of antisera and vaccines - and even the efficient extraction of oil from the harsh environment of a deep well: these are among the biotechnology processes which depend in fundamental terms on our ability to handle giant molecular complexes of living origin. Furthermore, molecular biologists and chemists are now increasingly able to ‘engineer’ new types of proteins and complexes over and beyond those which 3 billion years of evolution have provided.

Industry needs skilled personnel capable of understanding how these molecules may be used in an industrial context and the processes of gene cloning and protein engineering.

It is taught by the School of Biosciences in conjunction with the University's Schools of Pharmacy, Biomedical Sciences and Clinical Sciences and The School of Biosciences at the University of Leicester. Experts from local and national industry also contribute, ensuring access to the latest developments in the field.

A 3 month industrial placement module offers an exciting opportunity to discover first hand the needs of modern industry and provides advanced training for employment and further academic studies.
By suitable arrangement non-UK students can do this in their normal country of residence.

Applicants should hold first degrees at honours level in any Biological, Chemical or Physical Science subject (e.g. Biochemistry, Chemistry, Pharmacy, Genetics, Food Sciences, Plant Sciences, Physics). Suitably motivated candidates with Engineering or Mathematics degrees will also be considered.

A number of scholarships and European bursaries may be available.

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The MSc by Research in Biosciences (industry linked) gives you an opportunity to work on an industry linked research question in the Life Sciences Industry… Read more
The MSc by Research in Biosciences (industry linked) gives you an opportunity to work on an industry linked research question in the Life Sciences Industry Liaison Lab at Discovery Park (https://www.canterbury.ac.uk/social-and-applied-sciences/human-and-life-sciences/industry-liaison-lab/industry-liaison-lab.aspx), working with industry partners including Venomtech, Genea Biomedx and JSR Genetics.

The taught component means you will share a broad experience of methodological and research issues, allied with subject specific supervision, allowing you to develop a unique awareness of knowledge and experiences across the sciences in addition to a focus on your own research topic.

The MSC by research offers an innovative and flexible framework in which to develop and exploit the very best postgraduate research training possible (https://www.canterbury.ac.uk/social-and-applied-sciences/human-and-life-sciences/life-sciences/msc-by-research.aspx).

Format

The MSc in your chosen subject area is completed over the course of one year (two years if part time). Beginning in early September, the course combines 40 credits of taught modules in the first (Michaelmas) term with 140 credits of research during the remainder of the year. The taught component of the course will be multi-disciplinary in nature with lectures and seminars led by experts from across the range of subjects in the Faculty.

Suitability

Applicants should have a Molecular Biology or related degree. We are looking for highly-motivated and talented people who are about to complete, or have recently completed, their degree-level studies. Candidates must show enthusiasm and aptitude for molecular and cellular biology laboratory research. The student will predominantly be based at Discovery Park, Sandwich but will also spend time at the Canterbury Campus of Canterbury Christ Church University.

Assessment

Assessment will take many forms including traditional essays, team assignments, reflective logs, oral presentations, etc. All assessments will be completed before the end of the first term. You must pass all modules (40 credits) to progress to the research stage of the course. If any module is failed you’ll have one opportunity to resubmit prior to continuing with the research component of the module.

The largest part of the assessment will be based on your research output(s). Working with your Supervisor, you will have to decide what format the research output(s) will take. It may be a dissertation of approximately 16,000-20,000 word equivalent or a couple of research reports or research papers each of approximately 8,000 words in length. It may be possible that the research output could take some different form, e.g. an invention or patent, but a written component would still be required. The research output(s) will be assessed by an external examiner and you must pass this component of the module to receive the award of MSc.

How to apply

In the first instance should submit an application letter and CV to Simon Harvey (CCCU, ) at the earliest opportunity. Applications will be considered on a continuing basis until the post is filled.
For information on how to apply, please follow this link: https://www.canterbury.ac.uk/study-here/how-to-apply/how-to-apply.aspx
Funding

Loans

From 2016/17 government loans of up to £10,000 are available for postgraduate Masters study. The loans will be paid directly to students by the Student Loans Company and will be subject to both personal and course eligibility criteria.

For more information available here: https://www.canterbury.ac.uk/study-here/funding-your-degree/funding-your-postgraduate-degree.aspx

2017/18 Entry Financial Support-

Information on alternative funding sources is available here: https://www.canterbury.ac.uk/study-here/funding-your-degree/2017-18-entry-financial-support.aspx

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The MSc in Cancer Biology is for students who wish to gain an advanced education and training in the biological sciences, within the context of a disease that affects a large proportion of the global population. Read more
The MSc in Cancer Biology is for students who wish to gain an advanced education and training in the biological sciences, within the context of a disease that affects a large proportion of the global population.

The programme provides training in the modern practical, academic and research skills that are used in academia and industry. Through a combination of lectures, small-group seminars and practical classes, students will apply this training towards the development of new therapies.

The programme culminates with a research project that investigates the molecular and cellular basis of cancer biology or the development of new therapies under the supervision of active cancer research scientists.

Visit the website: https://www.kent.ac.uk/courses/postgraduate/226/cancer-biology

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 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.

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 and biophysics. 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.

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

Each one-hour lecture is supplemented by two hours of small-group seminars and workshops in which individual themes are explored in-depth. There are practical classes and mini-projects in which you design, produce and characterise a therapeutic protein with applications in therapy.

In additional to traditional scientific laboratory reports, experience will be gained in a range of scientific writing styles relevant to future employment, such as literature reviews, patent applications, regulatory documents, and patient information suitable for a non-scientific readership.

Modules

The following modules are indicative of those offered on this programme. This list is based on the current curriculum and may change year to year in response to new curriculum developments and innovation. Most programmes will require you to study a combination of compulsory and optional modules. You may also have the option to take modules from other programmes so that you may customise your programme and explore other subject areas that interest you.

BI830 - Science at Work (30 credits)
BI836 - Practical and Applied Research Skills for Advanced Biologists (30 credits)
BI837 - The Molecular and Cellular Basis of Cancer (15 credits)
BI838 - Genomic Stability and Cancer (15 credits)
BI840 - Cancer Therapeutics: From the Laboratory to the Clinic (15 credits)
BI857 - Cancer Research in Focus (15 credits)
BI845 - MSc Project (60 credits)

Assessment

The programme features a combination of examinations and practically focused continuous assessment, which gives you experience within a range of professional activities, eg, report writing, patent applications and public health information. The assessments have been designed to promote employability in a range of professional settings.

Programme aims

This programme aims to:

- provide an excellent quality of postgraduate-level education in the field of cancer, its biology and its treatment

- provide a research-led, inspiring learning environment

- provide a regional postgraduate progression route for the advanced study of a disease that affects a high proportion of the population

- promote engagement with biological research into cancer and inspire you to pursue a scientific career inside or outside of the laboratory

- develop subject specific and transferable skills to maximise employment prospects

- promote an understanding of the impact of scientific research on society and the role for scientists in a range of professions.

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.

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/226

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The course provides students with the scientific research skills and the basic business knowledge needed to convert scientific discoveries into inventions and commercial products. Read more
The course provides students with the scientific research skills and the basic business knowledge needed to convert scientific discoveries into inventions and commercial products. You will learn how to translate these into a business plan for start-up technologies or innovative processes within biotechnology industries.

You should acquire a combination of essential research and business practical skills in finance, marketing and management which will equip you for career opportunities in the global biotechnology market.

The course is run by the School of Biosciences, in conjunction with the University’s School of Biomedical Sciences and the Business School. The Business School is one of the UK’s leading centres for management education and is globally ranked among the world’s top business schools for the quality of its teaching and research on sustainability and social responsibility.

A series of off-site visits to Institutes and biotechnology companies will provide you with information on the latest technologies and research. You will undertake a Research Project or Management Project in conjunction with a biopharmaceutical or biotechnological company in line with your individual career aspirations.

The 12 months’ course consists of two semesters of taught modules followed by your Research Project. Details of individual modules can be viewed on our web pages. Taught modules include (subject to change):

•Industrial and Biomedical Macromolecules
•Physical Chemistry of Molecules
•Antibody Biotechnology
•Polysaccharide and Drug Delivery Biotechnology
•Project Management
•Finance and Accounting
•Marketing for Entrepreneurs


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The MSc in Infectious Diseases has been designed for students who wish to gain an advanced education and training in the biological sciences, within the context of a range of human diseases that affect a significant proportion of the global population. Read more
The MSc in Infectious Diseases has been designed for students who wish to gain an advanced education and training in the biological sciences, within the context of a range of human diseases that affect a significant proportion of the global population.

The programme provides training in the modern practical, academic and research skills that are used in academia and industry. Through a combination of lectures, small-group seminars and practical classes, you apply this training towards the development of new strategies to combat the spread of infectious diseases.

You learn skills in experimental design using appropriate case studies that embed you within the relevant research literature. You also gain experience of analysis and statistical interpretation of complex experimental data.

The programme culminates with a research project under the supervision of faculty that currently perform research on disease-causing microorganisms.

Visit the website: https://www.kent.ac.uk/courses/postgraduate/361/infectious-diseases

About the School of Biosciences

The University of Kent’s School of Biosciences ranks among the most active in biological sciences in the UK. We have recently extended our facilities and completed a major refurbishment of our research laboratories that now house over 100 academic, research, technical and support staff devoted to research, of whom more than 70 are postgraduate students.

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 and biophysics. 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.

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

The MSc in Infectious Diseases involves studying for 120 credits of taught modules, as indicated below. The taught component takes place during the autumn and spring terms, while a 60-credit research project take place over the summer months.

The assessment of the course will involve a mixture of practical classes, innovative continuous assessment to gain maximise transferable and professional skills, and examinations.

In addition to traditional scientific laboratory reports, experience is gained in a range of scientific writing styles relevant to future employment, such as literature reviews, patent applications, regulatory documents, and patient information suitable for a non-scientific readership.

Modules

The following modules are indicative of those offered on this programme. This list is based on the current curriculum and may change year to year. Please note the modules listed below for this programme are compulsory core modules:

BI845 Research project (60 credits)
BI853 - Bacterial Pathogens (15 credits)
BI854 - Fungi as Human Pathogens (15 credits)
BI855 - Advances in Parasitology (15 credits)
BI856 - Viral Pathogens (15 credits)
BI830 - Science at Work (30 credits)
BI836 - Practical and Applied Research Skills for Advanced Biologists (30 credits)

Assessment

Assessment is by examination, coursework and the research project.

Programme aims

This programme aims to:

- provide an excellent quality of postgraduate level education in the field of infectious diseases, their biology and treatments

- provide a research-led, inspiring learning environment

- provide a regional postgraduate progression route for the advanced study of diseases that affect a high proportion of the global population

- promote engagement with biological research into infectious diseases and inspire students to pursue scientific careers inside or outside of the laboratory

- develop subject-specific and transferable skills to maximise employment prospects

- promote an understanding of the impact of scientific research on society and the role for scientists in a range of professions.

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.

Careers

The MSc in Infectious Diseases provides advanced research skills training within the context of diseases that affect significant proportions of the UK and global populations. With the UK being a world leader in infectious diseases research and pharmaceutical development, and Kent having a strong research focus in this area, there are significant opportunities for career progression for graduates of this programme in academia (PhD) and industry.

There are also opportunities for careers outside the laboratory in advocacy, media, public health and education.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply-online/361

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Biodiversity, evolution and conservation are of growing importance due to climate change, extinction, and habitat destruction. Read more

Biodiversity, evolution and conservation are of growing importance due to climate change, extinction, and habitat destruction. This new research-led programme is run in collaboration with the Institute of Zoology and the Natural History Museum, providing a rigorous training and unparalleled opportunities across the full breadth of pure and applied research in evolutionary, ecological, and conservation science.

About this degree

Taught modules will focus on cutting-edge quantitative tools in ecology, evolutionary biology, genetics, bioinformatics, systematics, palaeobiology, conservation, biogeography and environmental biology. Seminars, journal clubs and the two research projects will provide students with diverse opportunities for experience at UCL Genetics, Evolution and Environment & Centre for Biodiversity and Environment Research, the Natural History Museum and the Institute of Zoology, Zoological Society of London.

Students undertake modules to the value of 180 credits.

The programme consists of three core taught modules (60 credits) and two 16-week research projects (120 credits).

Core modules

  • Science Communication for Biologists (15 credits)
  • Computational Methods in Biodiversity Research (15 credits)
  • Analytical Tools in Biodiversity, Evolutionary and Conservation Research (30 credits)

Optional modules

  • There are no optional modules for this programme.

Dissertation/report

All students undertake two 6000-word, 16-week research projects, which each culminate in a written dissertation, and poster or oral presentation.

Teaching and learning

The programme is delivered through a combination of seminars, presentations, assigned papers, as well as data analysis and interpretation. The seminar series includes mandatory seminars at UCL, the Natural History Museum and the Institute of Zoology (Zoological Society of London). Assessment is through essays, project reports, presentations and practicals. The two research projects are assessed by dissertation, and poster or oral presentation.

Further information on modules and degree structure is available on the department website: Biodiversity, Evolution and Conservation MRes

Careers

This programme offers students a strong foundation with which to pursue careers in academic research, environmental policy and management, applied conservation, public health, or scientific journalism.

Recent career destinations for this degree

  • Research Assistant, New York Academy of Sciences
  • Trainee Ecologist, Thomson Ecology
  • Research Associate, Universidad Autonoma del Estado de Morelos
  • Intern, ZSL Institute of Zoology
  • PhD Researcher (Evolutionary Biology), The University of Edinburgh and studying PhD in Evolutionary Biology and Infectious Disease Research, University of Edinburgh

Employability

This programme provides students with a strong foundation to pursue careers in academic research, environmental policy and management, applied conservation, public health, or scientific journalism.

Interested in a PhD? Find out about  London NERC DTP

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

This programme is an innovative collaboration between three globally renowned organisations: UCL Genetics, Evolution and Environment & Centre for Biodiversity and Environment Research, the Natural History Museum and the Institute of Zoology, Zoological Society of London.

By consolidating research expertise across these three organisations, students will gain a unique and exceptionally broad understanding of ties among different fields of research relating to the generation and conservation of biodiversity.

The MRes offers diverse research opportunities; these include the possibility of engaging actively in fundamental and applied research and participating in the Global Biodiversity Information Facility (based at the Natural History Museum) or the EDGE of Existence programme (based at the Zoological Society of London).

Research Excellence Framework (REF)

The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.

The following REF score was awarded to the department: Division of Biosciences

82% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.



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The MSc by Research in the Faculty of Social and Applied Sciences has been designed to offer a range of pathways for you to research your chosen subject interests within Social and Applied Sciences, whilst sharing in the multi-disciplinary nature of the taught component of the course. Read more
The MSc by Research in the Faculty of Social and Applied Sciences has been designed to offer a range of pathways for you to research your chosen subject interests within Social and Applied Sciences, whilst sharing in the multi-disciplinary nature of the taught component of the course.

You’ll share a breadth of experience – the multi-disciplinary nature of the taught component means you will share a broad experience of methodological and research issues. Allied with subject specific supervision, this will allow you to develop a unique awareness of knowledge and experiences across the natural and social sciences in addition to a focus on your own research topic.

Biosciences pathway:
Students pursuing the ecology pathway would be expected to have research which falls within the areas of the members of the ecology research group (ERG). Research within the ERG is organised into three research groupings:

*Animal behaviour, welfare and conservation.
*Pests, pathogens and crop protection.
*Applied ecology and environmental management.

Members also have collaborative interests with external partners including local schools and biotechnology businesses. For more information on member’s research activities or for contact details, please click on a member’s individual Staff Profile.

We are a close-knit community of academics, researchers and students dedicated to the study of Life Sciences. You would be joining an active and dynamic post-graduate community and would have the opportunity to contribute to and benefit from this community.

Find out more about the section of Life Sciences at https://www.canterbury.ac.uk/social-and-applied-sciences/human-and-life-sciences/life-sciences/about-us.aspx. You can also find out more about our research https://www.canterbury.ac.uk/social-and-applied-sciences/human-and-life-sciences/life-sciences/research/research.aspx.

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This programme teaches advanced experimental approaches to dissecting the mechanisms of drug action (pharmacology), a science that has seen innovative theoretical and technical development at UCL for over a century. Read more

This programme teaches advanced experimental approaches to dissecting the mechanisms of drug action (pharmacology), a science that has seen innovative theoretical and technical development at UCL for over a century.

About this degree

In addition to providing experience of both classical and modern pharmacological techniques, the programme will help develop skills for literature search-based data acquisition and analysis; written and verbal communication of science; abstract writing; poster preparation; graphical processing; image preparation for publication; writing a scientific paper; and giving research presentations.

Students undertake modules to the value of 180 credits.

The programme consists of three core modules (75 credits), one optional module (15 credits), and a research project (90 credits).

Core modules

  • Investigative Pharmacology
  • Molecular Pharmacology
  • Practice of Science

Optional modules

Students choose one of the following:

  • Advanced Clinical Pharmacology and Therapeutics
  • Clinical Pharmacology and Therapeutics
  • Drug Design and Development
  • Neuropharmacology
  • Pharmacology of Inflammation
  • Receptor Mechanisms
  • Synaptic Pharmacology
  • Translational Neuroscience and Therapeutics

Dissertation/report

Students undertake an original research project which culminates in a 15,000-word dissertation and an oral presentation.

Teaching and learning

The programme is delivered through a combination of lectures, journal clubs, practicals, tutorials and a laboratory project. Student performance is evaluated through formal examination, coursework, and the research project.

Further information on modules and degree structure is available on the department website: Experimental Pharmacology and Therapeutics MSc

Careers

This programme is likely to lead to careers in biomedical sciences, the pharmaceutical and biotechnology industry and clinical laboratories, and extend to clinicians interested in moving towards a scientific career. Students will obtain a thorough knowledge of and practice in pharmacological assessment, drug design and development pathways. It is anticipated that graduates will move onto PhD programmes and/or build careers in industry or clinical investigations through employment as research associates/scientists in the pharmaceutical industry or academia.

Employability

The knowledge and transferable skills developed on this programme will be advantageous for those considering employment in any pharmaceutical or healthcare setting, or contemplating further studies in related fields. The programme will also provide excellent training in critical appraisal of complex data, which will transfer well to other disciplines.

Why study this degree at UCL?

The programme is jointly taught by UCL Neuroscience, Physiology & Pharmacology (Division of Biosciences), and the Research Department of Pharmacology at the UCL School of Pharmacy. Both departments are historically and currently internationally leading in this field, and together provide cutting-edge education in theory, research practice and innovation in pharmacology.

The programme is designed to impart extensive experimental expertise applied to drug development and subsequent therapeutics. The combination of traditional and experimental approaches in pharmacology, coupled with current innovation in therapeutics and drug discovery and development, fosters a unique set of skills, which will enable graduates of the programme to engage in various aspects of pharmaceutical research globally.

Research Excellence Framework (REF)

The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.

The following REF score was awarded to the department: Division of Biosciences

82% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.



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