• Imperial College London Featured Masters Courses
  • University of Edinburgh Featured Masters Courses
  • Swansea University Featured Masters Courses
  • University of York Featured Masters Courses
  • Xi’an Jiaotong-Liverpool University Featured Masters Courses
  • Regent’s University London Featured Masters Courses
  • Leeds Beckett University Featured Masters Courses
De Montfort University Featured Masters Courses
Coventry University Featured Masters Courses
University of Sussex Featured Masters Courses
Cardiff University Featured Masters Courses
University of London International Programmes Featured Masters Courses
"molecular" AND "physiolo…×
0 miles

Masters Degrees (Molecular Physiology)

  • "molecular" AND "physiology" ×
  • clear all
Showing 1 to 15 of 158
Order by 
If you have a Bachelors degree in the biosciences, biochemistry, pharmacy or biological chemistry and you want to develop specialist knowledge in molecular biology then this postgraduate programme is for you. Read more
If you have a Bachelors degree in the biosciences, biochemistry, pharmacy or biological chemistry and you want to develop specialist knowledge in molecular biology then this postgraduate programme is for you. It will allow you to gain new skills and enhance your employability in the pharmaceutical and biotechnology industries or allow you to progress to a research degree.

About the course

The MSc Molecular Biology will give you hands on practical experience of both laboratory and bioinformatics techniques. You will also be trained in molecular biology research strategies. A strong practical foundation is provided in the first semester (Semester A) when you will study two modules:
-Cellular Molecular Biology - This module aims to help you develop a systematic understanding and knowledge of recombinant DNA technology, bioinformatics and associated research methodology.
-Core Genetics and Protein Biology - This module will provide you with an advanced understanding of genetics, proteins, the area of proteomics and the molecular basis of cellular differentiation and development.

The second semester (Semester B) has a problem-based learning approach to the application of the knowledge you gained in Semester A. You will study two modules:
-Molecular Medicine - You will study the areas of protein design, production and engineering, investigating specific examples of products through the use of case studies.
-Molecular Biotechnology - You will gain an in-depth understanding of the application of molecular biological approaches to the characterisation of selected diseases and the design of new drugs for their treatment.

In semester C you will undertake a research project to develop your expertise further. The research project falls into different areas of molecular biology and may include aspects of fermentation biotechnology, cardiovascular molecular biology, cancer, angiogenesis research, diabetes, general cellular molecular biology, bioinformatics, microbial physiology and environmental microbiology.

Why choose this course?

-This course gives in-depth knowledge of molecular biology for biosciences graduates
-It has a strong practical basis giving you training in molecular biology research strategies and hand-on experience of laboratory and bioinformatics techniques
-It equips you for research and development positions in the biotechnology and pharmaceutical industries, as well as a wide range of non-research roles in industry
-Biosciences research facilities cover fermentation biotechnology, high performance liquid chromatography, (HPLC), cell culture, molecular biology and pharmacology
-There are excellent facilities for chemical and biomedical analysis, genetics and cell biology studies and students have access to the latest equipment for PCR, qPCR and 2D protein gel analysis systems for use during their final year projects
-The School of Life and Medical Science will move into a brand new science building opening in September 2016 providing us with world class laboratories for our teaching and research. At a cost of £50M the new building provides spacious naturally lit laboratories and social spaces creating an environment that fosters multi-disciplinary learning and research

Careers

Graduates of the programme will be qualified for research and development positions in the pharmaceutical and biotechnology industries, to progress to a research degree, or to consider non-research roles in industry such as management, manufacturing and marketing.

Teaching methods

The course consists of five modules including a research project. All modules are 100% assessed by coursework including in-class tests.
-Cellular Molecular Biology
-Core Genetics and Protein Biology
-Molecular Biotechnology
-Molecular Medicine Research
-Biosciences Research Methods for Masters
-Methods and Project

Read less
Human & Applied Physiology enables students to gain a theoretical and practical understanding of the functioning of the muscular, respiratory and cardiovascular systems at rest and during exercise, including the effects of extreme environmental conditions on whole body physiology. Read more
Human & Applied Physiology enables students to gain a theoretical and practical understanding of the functioning of the muscular, respiratory and cardiovascular systems at rest and during exercise, including the effects of extreme environmental conditions on whole body physiology. Leads to careers in teaching and research, medicine, physiotherapy, health services, physical education.

Key benefits]

- The original and foremost programme in human and applied physiology in the UK.

- Training in a wide variety of practical laboratory skills pertaining to human physiology.

- A knowledge base of human physiology particularly relevant for careers in biomedical research and medicine.

- Lectures from world leading experts in a variety of different fields.

- Unique exposure of human physiology applied to aviation and military medicine only available at King's College London.

Visit the website: http://www.kcl.ac.uk/study/postgraduate/taught-courses/human-and-applied-physiology-msc.aspx

Course detail

- Course description -

The programme is run by King's College London Department of Physiology. It provides a theoretical and practical basis for explaining the functioning of the muscular, respiratory and cardiovascular systems at rest and during exercise. This extends to the effects of extreme environmental conditions on whole body physiology. Programme topics are studied from both systemic and cellular/molecular perspectives in order that students have a good understanding of the breadth of investigative approaches employed in human physiology research.

- Course purpose -

This programme equips students in biomedical/life science and sport science with value added knowledge and skills to enhance understanding and expertise in human physiology in its broadest sense. Graduates from the programme pursue careers in academic research/teaching, medicine, physiotherapy, health services, physical education, research posts in industry and in Ministry of Defence Research establishments.

- Programme format and assessment -

Taught modules comprise lectures, tutorials and seminars with a significant practical component. You will also undertake a significant research project.

Required modules:

- Cardiovascular & Respiratory Physiology from Rest to Exhaustive Exercise
- Human & Applied Physiology Library Project
- Human & Applied Physiology Research Project
- Human Physiology in Extreme Environments
- Key Topics in Human Health and Performance
- Skeletal Muscle Function, Fatigue and Plasticity - from Movement to Molecules

Career prospects

Our graduates go on to careers in academic teaching and research, medicine, clinical physiology, health services, sports science support, and research posts in industry or in Ministry of Defence Research Establishments.

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

About Postgraduate Study at King’s College London:

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

Scholarships & Funding:

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

Free language tuition with the Modern Language Centre:

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

Read less
This course will suit you if you are a sport and exercise graduate, a graduate from a related science or a medical student looking to specialise in the field of sport physiology. Read more

Course in brief

This course will suit you if you are a sport and exercise graduate, a graduate from a related science or a medical student looking to specialise in the field of sport physiology. It is designed to focus on professional skills that improve your employability, as you learn with state-of-the-art equipment including environmental chambers, breath-by-breath analysers, blood sampling analysers and transcranial magnetic stimulation devices.

You also again gain real-world experience in areas relevant to your interests by working alongside experienced practitioners. Past projects have included the design of individualised training programmes leading up to the Brighton Marathon and the physiological testing of elite athletes. Our teaching laboratories are accredited by the British Association of Sport and Exercise Sciences (BASES), as are most of our course staff. You can register on the BASES Supervised Experience Scheme yourself to achieve personal accreditation.

Course structure

The course is flexible in that it allows you to exit with a postgraduate certificate at the end of one semester (three 20-credit modules) or a postgraduate diploma at the end of two semesters (six 20-credit modules). You must complete the 60-credit research project to qualify for the MSc.

You spend around 100 hours of the course with an organisation related to the practice of physiology, which will allow you to apply your academic knowledge in a vocational setting. Previous students have worked with organisations including Brighton and Hove Albion Football Club and the English Institute of Sport. You can also visit the Paris based Institute Nationale du Sport, de l'Expertise et de la Performance (INSEP), working with elite coaches, scientists, medical staff and athletes from many different fields of sport.

Many students have commenced their professional careers with the organisation that provided them with work experience.

Areas of study

In taught physiology modules, you'll experience and discuss the responses of the human body to various stimuli, including effect of environmental changes (heat and hypoxic chambers) and of ergogenic aids which can be used to simulate peculiar clinical conditions and help students understand better exercise tolerance. This novel approach to teaching integrative physiology will help you to develop a host of laboratory skills. You will be introduced to the latest in the research field of exercise physiology and will have an opportunity to write your own paper from your research project.

With modules such as Professional Enquiry, you'll also gain vocational skills to give you a competitive edge in the job market; through placement opportunities and chances to network in the world of sports physiology, you'll graduate with a foot firmly in the industry.

Modules

Critical Insights into the Study of Physiology
Professional Enquiry
Exercise Tolerance (integrative physiology)
Expertise in Laboratory Skills for Sport Physiologists

Options:

Applied Environmental Physiology
Innovation, Entrepreneurship and Small Business Management
Bodies of Sport
Ethical and Social Responsibility: Theory and Application
Consultancy
Issues and Innovations in Physiology

Teaching environment

Laboratory work
- We accept a maximum of 15 students on this course
- All classes take place in our Exercise Physiology Laboratories with a ratio of 2:3 (staff:students)
- Students work in groups of four to five on problem-based situations.

Tutorials
- Students can book individual tutorials with every lecturer offering around three hours of tutorials per week.
- Group tutorials are also scheduled in our teaching programmes.

Careers and employability

Career opportunities for sport and exercise scientists are growing. Sports science is recognised as a vital ingredient in the success and development of most sports and for the individuals that take part it is an everyday aspect of their training. Many hospitals and Primary Care Trusts are also appointing specialists with exercise backgrounds to work in areas such as cardiac rehabilitation and health promotion.

An MSc in Applied Sport Physiology from the University of Brighton will help you to stand out in today's competitive job market. It will equip you with both the theoretical knowledge and practical skills necessary for a successful career and is also ideal preparation for continuing your study at MPhil or PhD level.

Our graduates have started their careers with organisations including:

Lucozade (sports scientist)
Europeansports (Performance analyst; Munich)
EIS (Physiology PhD Studentships)
LTA, British tennis (Strength and Conditioning Coach of the Women’s Team)
RYA (Head of Sports Science and Medicine)

Facilities

Our facilities include an x-m square Gym over two floors with state-of-the-art fitness equipment including a three-camera system to analyse weight-lifting actions and an isokinetic dynamometer to allow measurement of muscle strength. Our sport and exercise laboratories which are all accredited by the British Association of Sport and Exercise Sciences (BASES) and include:
- A Molecular genetics laboratory with biobanking
- A biomechanics laboratory with motion analysis equipment, various EMG systems, an immersive screen
- Two exercise physiology laboratories where aerobic / anaerobic endurance, power and strength assessments as well as body composition, cardiac and pulmonary screening can be carried out
- An Environmental Laboratory with purpose-built environment chamber where we can simulate different climates by controlling the temperature (-20 to +50°C) and relative humidity (20 to 95 per cent), and a 1.13m x 1.13m x 1.5 m water immersion tank
- A research-based laboratory with an oxygen-controlled chamber to simulate altitude (hypoxia)
- A biochemistry laboratory where we can analyse blood and tissue samples.

Visit: https://www.brighton.ac.uk/sesame/facilities/index.aspx

Course blog

Find out news about the course at http://blogs.brighton.ac.uk/sesmsc/

Read less
This course will suit you if you are a sport and exercise graduate, a graduate from a related science or a medical student looking to specialise in the field of exercise physiology. Read more

Course in brief

This course will suit you if you are a sport and exercise graduate, a graduate from a related science or a medical student looking to specialise in the field of exercise physiology.

It is designed to focus on professional skills that improve your employability, as you learn with state-of-the-art equipment including environmental chambers, breath-by-breath analysers, blood sampling analysers and transcranial magnetic stimulation devices.

You also again gain real-world experience in areas relevant to your interests by working alongside experienced practitioners. Past projects have included working with participants in our cardiac rehabilitation programme.

Our teaching laboratories are accredited by the British Association of Sport and Exercise Sciences (BASES), as are most of our course staff. You can register on the BASES Supervised Experience Scheme yourself to achieve personal accreditation.

Course structure

The course is flexible in that it allows you to exit with a postgraduate certificate at the end of one semester (three 20-credit modules) or a postgraduate diploma at the end of two semesters (six 20-credit modules). You must complete the 60-credit research project to qualify for the MSc.

You spend around 100 hours of the course with an organisation related to the practice of physiology, which will allow you to apply your academic knowledge in a vocational setting. Previous students have worked in organisations including a cardiac rehabilitation programme and fall prevention classes with Albion in the Community.Many students have started their professional careers with the organisation that provided them with work experience.

Areas of study

In taught physiology modules, you'll experience and discuss the responses of the human body to various stimuli, including effect of environmental changes (heat and hypoxic chambers) and of ergogenic aids which can be used to simulate peculiar clinical conditions and help students understand better exercise tolerance. This novel approach to teaching integrative physiology will help you to develop a host of laboratory skills. You will be introduced to the latest in the research field of exercise physiology and will have an opportunity to write your own paper from your research project.

With modules such as Professional Enquiry, you'll also gain vocational skills to give you a competitive edge in the job market; through placement opportunities and chances to network in the world of exercise physiology, you'll graduate with a foot firmly in the industry.

Modules

Critical Insights into the Study of Physiology
Professional Enquiry
Exercise Tolerance (integrative physiology)
Expertise in Laboratory Skills for Exercise Physiologists
Options:

Applied Environmental Physiology
Innovation, Entrepreneurship and Small Business Management
Ethical and Social Responsibility: Theory and Application
Bodies of Sport
Consultancy
Issues and Innovations in Physiology

Teaching environment

Laboratory work
- We accept a maximum of 15 students on this course
- All classes take place in our Exercise Physiology Laboratories with a ratio of 2:3 (staff:students)
- Students work in groups of four to five on problem-based situations.

Tutorials
- Students can book individual tutorials with every lecturer offering around three hours of tutorials per week.
- Group tutorials are also scheduled in our teaching programmes.

Careers and employability

Career opportunities for sport and exercise scientists are growing. Sports science is recognised as a vital ingredient in the success and development of most sports and for the individuals that take part it is an everyday aspect of their training. Many hospitals and Primary Care Trusts are also appointing specialists with exercise backgrounds to work in areas such as cardiac rehabilitation and health promotion.

An MSc in Applied Exercise Physiology from the University of Brighton will help you to stand out in today's competitive job market. It will equip you with both the theoretical knowledge and practical skills necessary for a successful career and is also ideal preparation for continuing your study at MPhil or PhD level.

Our graduates have started their careers with organisations including:

The East Sussex Healthcare NHS trust (cardiovascular and physiological clinical trials officer; cardiac technician/physiologist)
BUPA (clinical physiologist)

Facilities

Our facilities include an x-m square Gym over two floors with state-of-the-art fitness equipment including a three-camera system to analyse weight-lifting actions and an isokinetic dynamometer to allow measurement of muscle strength. Our sport and exercise laboratories which are all accredited by the British Association of Sport and Exercise Sciences (BASES) and include:
- A Molecular genetics laboratory with biobanking
- A biomechanics laboratory with motion analysis equipment, various EMG systems, an immersive screen
- Two exercise physiology laboratories where aerobic / anaerobic endurance, power and strength assessments as well as body composition, cardiac and pulmonary screening can be carried out
- An Environmental Laboratory with purpose-built environment chamber where we can simulate different climates by controlling the temperature (-20 to +50°C) and relative humidity (20 to 95 per cent), and a 1.13m x 1.13m x 1.5 m water immersion tank
- A research-based laboratory with an oxygen-controlled chamber to simulate altitude (hypoxia)
- A biochemistry laboratory where we can analyse blood and tissue samples.

Visit: https://www.brighton.ac.uk/sesame/facilities/index.aspx

Course blog

Find out news about the course at http://blogs.brighton.ac.uk/sesmsc/

Read less
Taught in the School of Life Sciences’ state-of-the-art research laboratories and teaching facilities, the MSc in Integrated Physiology in Health and Disease, is the only one of its kind in the UK. Read more
Taught in the School of Life Sciences’ state-of-the-art research laboratories and teaching facilities, the MSc in Integrated Physiology in Health and Disease, is the only one of its kind in the UK.

The course promotes the importance of an integrated and multidisciplinary approach to studying fundamental physiological aspects of human health and disease, including diabetes, obesity and cardiovascular disease, by combining cutting-edge physiological and metabolic methodologies with relevant molecular biology approaches.

Course overview

The course is ideal for:

 students with a background in physiology, biochemistry, biomedical sciences, biology, nutrition, exercise science and other related disciplines
 those with work experience in health-related research
 health and exercise professionals.

It investigates the physiology underlying health and disease – a growing area of interest to academic, private and public sectors – and aims to:

 develop an understanding of the fundamental physiology underpinning the maintenance of health, and the development of disease
 equip students with both generic and specialist skills, including a wide range of laboratory techniques necessary to develop an integrated and translational approach to the study of human metabolism and physiology
 promote the importance of adopting a critical approach to questions of clinical relevance
 provide the necessary foundation for those who wish to pursue advanced research in this area, leading to the degree of PhD.

Course structure

The programme comprises eight modules: six compulsory, one optional, and a laboratory-based research project.

The six compulsory modules are:

 Nutrition in Health and Exercise
 Muscle Physiology and Metabolism
 Metabolism and Nutrition in Disease
 Cardiorenorespiratory Physiology
 Laboratory Techniques
 Statistics and Research Methods

Students choose one of the following two optional modules:

 Medical Pharmacology
 Clinical Neuroscience.

About the School and its staff

The School of Life Sciences, with its unique, high-quality expertise and excellent facilities, is one of the UK’s leaders in research into integrated physiology.

The programme is delivered by staff from the Metabolic Physiology Group. The group has an international research standing in the area of human nutrition, the control and integration of fuel utilisation in health and disease, such as in obesity and diabetes, and the regulation of muscle mass during exercise, inactivity and disease. The group is funded by industry, research charities and research councils.

In recent years, the School has undergone an impressive development and refurbishment programme. Research is conducted in a suite of human physiology laboratories; ex vivo pharmacology laboratories; neuroscience laboratories and a human primary tissue culture laboratory.

These facilities allow integrated metabolic investigations in both patients and healthy individuals to dovetail with relevant modern molecular biology technologies.

Students also benefit from our interactive, multidisciplinary approach to teaching and research alongside colleagues in other schools and clinics based in four regional hospitals: the Queen’s Medical Centre, Nottingham City Hospital, Derbyshire Royal Infirmary and Derby City General Hospital.

Career development

A range of rewarding employment opportunities is open to graduates in this field.

 Experience in the area of integrated and translational physiology is required by an increasing number of research groups in both academia and the private sector.
 The health and exercise sector offers a variety of employment opportunities in rehabilitation, and health and fitness centres.
 The School attracts a number of capacity-building Medical Research Council (MRC) and Biotechnology and Biological Sciences Research Council (BBSRC) PhD studentships each year. On successful completion of the programme, students are considered as serious candidates for these research opportunities.


Assessment

The course requires students to accumulate 180 credits as follows:

 Autumn – three core taught modules (50 credits)
 Spring – five taught modules (80 credits)
 Summer – research project (50 credits).

Assessments are held either at the end of a module or the end of a semester and take the form of an exam, laboratory report or essay.

The research project is assessed through a 15,000-word dissertation and a viva voce.

Funding opportunities

The School offers competitive scholarships specific to the course each year and supports applications for funding to external organisations, including the research councils. For further details, please visit our website.

Related studies

To view related research opportunities with The School of Life Sciences, please visit our website.

Read less
The MRes in Biomedical Research. Bacterial Pathogenesis and Infection is a 12 month postgraduate course providing exemplary academic and research training. Read more
The MRes in Biomedical Research: Bacterial Pathogenesis and Infection is a 12 month postgraduate course providing exemplary academic and research training. The Bacterial Pathogenesis and Infection stream is a specialised stream on a larger course (the MRes in Biomedical Research). This programme will provide research training in fundamental aspects of bacterial pathogenesis, host immunity and antibiotic resistance, with particular attention to the scientific, technical and professional acumen required to establish research independence. The emphasis will be on molecular approaches to understanding bacterial infection biology, as a function of bacterial pathogenic strategy and physiology, as well as resistance to host defences and antibiotic therapy, and is comprised of two 20-week research projects embedded within research-intensive groups and a series of lectures, seminars, tutorials and technical workshops.

Based in the MRC Centre for Molecular Bacteriology and Infection, the course provides an opportunity to learn directly from internationally-respected scientists through sustained interaction for the duration of the course. This programme will deliver training in: Molecular microbiology, including integration of molecular and cellular information to understand the genetic basis of virulence; modelling host and microbial aspects of infection to help characterise the host-pathogen interaction and immunity; functionality and physiological relevance of microbial virulence factors; mechanisms of antibiotic resistance and persistence; derivation of mechanistic approaches to problem-solving in molecular and cellular biomedical science.

Course Objectives
The emphasis is on molecular approaches to understanding infection as a function of bacterial pathogenic strategy and physiology. This research-oriented approach to training in biomedical science will comprise both theoretical and practical elements. The course will expose students to the latest developments in the field through two mini-research projects and a series of technical workshops. Students will gain experience in applying technologically advanced approaches to biomedical research questions.

Specifically the course will deliver research training in:

• Molecular bacteriology, integrating molecular and cellular information to understand the genetic basis of microbial virulence.
• Modelling host and microbial aspects of infection to help characterise the host-pathogen interaction and immunity.
• By experimentation, understanding the biochemical functions and physiological relevance of microbial virulence factors and antibiotic resistance.
• Derivation of mechanistic approaches to problem-solving in molecular and cellular biomedical science.

Individuals who successfully complete the course will have developed the ability to:

• Demonstrate practical dexterity in the commonly employed and more advanced practical techniques of molecular and cellular microbiology
• Exercise theoretical and practical knowledge and competence required for employment in a variety of biomedical environments
• Identify appropriate methodology during experimental planning
• Interpret and present scientific data
• Interrogate relevant scientific literature and develop research plans
• Recognise the importance of justifying expenditure (cost and time) during experimental planning
• Recognise potential methodological failings and strategise accordingly
• Perform novel laboratory-based research, and exercise critical scientific thought in the interpretation of findings
• Write and defend research reports, which appraise the results of laboratory based scientific study
• Communicate effectively through writing, oral presentations and IT to facilitate further study or employment in molecular, cellular and physiological science
• Exercise a range of transferable skills

This will be achieved by providing:

• A course of lectures, seminars, tutorials and technical workshops. The programme is underpinned by the breadth and depth of scientific expertise in the participating department.
• Hands-on experience of a wide repertoire of scientific methods
• Two research projects
• Training in core transferable skills

The MRC Centre for Molecular Bacteriology and Infection (Departments of Medicine and Life Science) is located at the South Kensington Campus of Imperial College London. http://www.imperial.ac.uk/mrc-centre-for-molecular-bacteriology-and-infection

Candidates are expected to hold a good first degree (upper second class or better) from a UK university or an equivalent qualification if obtained outside the UK.

Please visit the course website for more information about how to apply, and for more information about the various streams of specialism which run within the course.

Early application is strongly advised. Please note that while applications can be considered after receipt of one recent reference, two will be required as standard for confirmation of acceptance by College.

If you have any questions, please contact:

Kylie Glasgow
Manager, Centre for Molecular Bacteriology and Infection
Imperial College London
London, SW7 2AZ
E-mail

-----------------------------------------------
Home, EU and Overseas applicants hoping to start this course in October 2017 will be eligible to apply for the Faculty of Medicine Dean's Master’s Scholarships. This scheme offers a variety of awards, including full tuition payment and a generous stipend. For more information, please visit http://www.imperial.ac.uk/medicine/study/postgraduate/deans-masters-scholarships/. Applications for 2017 are not yet open (do check the website again early in the new year).

Read less
This Sport Masters programme is delivered by world-leading experts at Liverpool John Moores University. You will have access to excellent facilities, geared towards both classical physiology and research at the forefront of molecular exercise physiology. Read more
This Sport Masters programme is delivered by world-leading experts at Liverpool John Moores University. You will have access to excellent facilities, geared towards both classical physiology and research at the forefront of molecular exercise physiology.

• Course available to study full time (1 year) and part time (2 years)
•Developed by world-leading researchers in our pioneering School of Sport and Exercise Science
•Access to state-of-the-art physiology and biochemistry laboratories in our award-winning Tom Reilly Building
•Strong emphasis on active learning and practical training
•Career opportunities in teaching and lecturing, as applied practitioners in sport science support programmes of further study at Doctoral level

There has never been a more exciting time to undertake an MSc in Sport and Exercise Physiology. Sport represents one of the world’s major businesses and scientists have an increasingly prominent role in working with athletes, coaches, governing bodies and industry to help optimise elite performance.

Sport and Exercise Science is also playing an increasingly important role in society by promoting exercise for healthy ageing and the prevention of premature death from cardiovascular disease, cancer and obesity.
Our teaching is delivered primarily through laboratory practicals and student-centred learning techniques, such as problem-based learning. During this programme you will complete a record of competency in physiological assessment, deliver a conference presentation, provide strength and conditioning training in the University’s high-performance gym and gain first-hand experience of ‘wet lab’ techniques including western blotting and proteomics.

From this foundation, many of our graduates go on to conduct doctoral research within academic/clinical institutions, sport clubs and allied organisations.

Please see guidance below on core and option modules for further information on what you will study.
Level 7
Mechanisms of Muscle Adaptation: provides a mixture of theory and practical work in molecular exercise physiology
Technical Training: provides extensive practical training in exercise physiology laboratory tests, and data collected during these sessions is used to teach statistical analysis techniques in the Research Methods topic
Contemporary Research: develops adaptations to training and fundamental academic skills through the critical appraisal of leading research
Applied Practice: is ideal if you aspire to a career in high-level professional sport and performance-orientated amateur training. This module teaches practical skills associated with safe and effective training prescription, and you may have the opportunity to gain experience by assisting the delivery of strength and conditioning training within the University’s Sport Scholarship scheme
Masters Dissertation: you will undertake a significant body of research in sport and exercise physiology. Dissertation projects are undertaken within research themes led by staff and associated PhD students. The majority of work is typically conducted across Semesters 2 and 3 and then presented as a journal manuscript, which may later be submitted for publication in peer-reviewed scientific journals

Further guidance on modules

The information listed in the section entitled ‘What you will study’ is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal Academic Framework review, so may be subject to change. Students will be required to undertake modules that the University designates as core and will have a choice of designated option modules. Additionally, option modules may be offered subject to meeting minimum student numbers.

Academic Framework reviews are conducted by LJMU from time to time to ensure that academic standards continue to be maintained. A review is currently in progress and will be operational for the academic year 2016/2017. Final details of this programme’s designated core and option modules will be made available on LJMU’s website as soon as possible and prior to formal enrolment for the academic year 2016/2017.

Please email if you require further guidance or clarification.

Read less
The Molecular Life Sciences programme focuses on the molecular aspects of the fields of nutrition, health, nature and the living environment and works in close coordination with colleagues from different disciplines. Read more

MSc Molecular Life Sciences

The Molecular Life Sciences programme focuses on the molecular aspects of the fields of nutrition, health, nature and the living environment and works in close coordination with colleagues from different disciplines.

Programme summary

The Molecular Life Sciences programme focuses on molecules and their properties. It seeks to discover relationships between the physical and chemical properties of molecules, particularly the role of complex molecules in living systems. It is an interdisciplinary programme that combines chemistry, physics and biology. The aim of the programme is to enable students to conduct independent research at the interface of chemistry, biology and physics, or in an applied field such as medicine, the environment, food sciences or (bio) nanotechnology. The programme is tailormade and thesis-oriented, with the thesis being the culmination of the study.

Specialisations

Biological Chemistry
By combining the principles of chemistry, biochemistry, molecular biology, cell biology, microbiology, genetics and bioinformatics, this specialisation enables students to contribute new insights to the life sciences. Increasingly complex areas are studied, such as the molecular regulation of growth and cell differentiation, gene control during development and disease, and the transfer of genetic traits. Another important field is enzymology where enzyme mechanisms are studied with the aim of understanding and modifying their properties to make new compounds or biological membranes.

Physical Chemistry
This specialisation uses the most advanced technologies to focus on the chemical and physical properties of molecules and their behaviour in chemical and biochemical processes. The processes in nature are used as models for studying and synthesising new compounds with interesting chemical or physical properties for applications such as LCDs, biosensors or food science. Students can major in the fields of biophysics, organic chemistry or physical chemistry and colloid science.

Biomedical Research
This specialisation equips graduates with key skills in the natural sciences and enables them to use these skills as part of an integrated approach. Many recent breakthroughs in biomedical research have taken place at the interface between chemistry, biology and physics, so it is logical that many of our graduates enter careers in biomedical research. The explicit aim of this specialisation is to prepare students for careers at a medical research institute, academic hospital or a company in the pharmaceutical industry. As a result, students also complete their internships at such locations.

Physical Biology
Students in this specialisation learn to view biomolecules from a physical point of view. They use techniques in biophysics, physical chemistry, microspectroscopy and magnetic resonance (MRI) to contribute to areas such as cell-cell communication, transformation of light into chemical energy, and protein interactions. Students can major in fields such as biochemistry, biophysics, microbiology, molecular biology, plant physiology, physical chemistry and colloid science.

Your future career

By combining the power of chemistry, physics and biology, graduates are able to make a significant contribution to fundamental and/or applied research in fields such as (bio) nanotechnology, biotechnology, environmental research, biomedical research, nutrition and the food sciences. Our graduates enter careers at universities, research institutes and industrial laboratories. The first job for many of our graduates is a four year PhD project at a university or research institute. This is not only an excellent preparation for a research career, but it also prepares you for management positions. Others become science journalists, teachers or consultants in government or industry.

Project Flu Vaccination for bacteria.
Together with his colleagues of the Laboratory of Microbiology, professor John van der Oost unravelled part of the working of the immune systems of bacteria that had been infected by a virus. Theoretically, this knowledge allows for other bacteria to be protected against specific viruses and, thus, may be considered to be a flu vaccination for bacteria. Understanding this process in simple organisms on a molecular level, is the first step in revealing the mechanism of viral infection in the human body. This can be the starting point for a whole new line of medicines.

Related programmes:
MSc Biotechnology
MSc Food Technology
MSc Bioinformatics
MSc Nutrition and Health
MSc Plant Biotechnology
MSc Biology

Read less
Physiology is the study of the function and activity in living organisms at all levels. While molecular mechanisms at cellular level provide the basics of physiology, integration of these mechanisms at organ and system level provides the full understanding of the logic of life. Read more
Physiology is the study of the function and activity in living organisms at all levels. While molecular mechanisms at cellular level provide the basics of physiology, integration of these mechanisms at organ and system level provides the full understanding of the logic of life. Master of Science program in Medical Physiology aims at providing a broad perspective in Life Sciences for those holding a BS degree in Basic Sciences, Engineering or Medical Sciences and planning to obtain a Doctor of Philosophy degree in Physiology or related fields (e.g., Biophysics, Neuroscience, Biomedical engineering, etc.). The program is designed also to serve as an interface for graduates of basic sciences (e.g., physics, chemistry, mathematics) and engineering disciplines who are planning careers on biomedical applications and medical technologies. The graduate program will be personally designed for each student based on their prior education, background and interest and will also provide extensive research experience. Medical Physiology Master of Science Program requires 7 courses totaling 21 credits, 1 seminar and a Thesis based on original, independent research.

Read less
This innovative master program enables you to meet the demands of employers in the scientific field worldwide. You will be trained in all aspects of cutting edge molecular stem cell biology including legal and ethical aspects, good medical practice and acquisition of third party funding. Read more

Overview

This innovative master program enables you to meet the demands of employers in the scientific field worldwide. You will be trained in all aspects of cutting edge molecular stem cell biology including legal and ethical aspects, good medical practice and acquisition of third party funding. The course combines cutting edge approaches such as iPSC and bioprinting with traditional basic disciplines such as histology to secure an in-depth understanding towards innovative translational approaches in medicine. The course is entirely taught in English.

Learning outcome

Holding our degree means you have acquired a robust expertise in theory and practice in one of the most scientifically and ethically demanding biomedical fields of today.

During the first year of the program, students achieve a fundamental understanding of developmental processes that are linked to the current progress of stem cell research. This theoretical knowledge is further deepened and expanded on by hands-on experience in the relevant laboratories.

The inclusion of local national and international guest lecturers gives students the opportunity to get an idea what is going on in the field of stem cell research and which labs can be chosen for specialized practicals.

During the second year, the curriculum emphasizes application-oriented courses suited to understand the cellular and molecular basis of human diseases and to familiarize with the complex demands of modern medicine. The 4th semester is reserved for the master thesis; multiple international collaborations and a mobility window offer the chance to perform practicals and master thesis abroad.

Modules

The major modules in the program are listed below:

Stem Cell Physiology (I and II)
3x Lecture Series on recent developments in stem cell research (by national and international experts)
Bioinformatics
Stem Cell Practical Courses- 2 weeks-long practical courses (4 times)
Molecular Tracing Methods
Molecular Genetic Methods
Tissue Engineering
Lab Rotation
Pathology of Degenerative Diseases
Course in Animal Care and Handling
Scientific Responsibility in Biomedicine
Lab Bench Project & Grant Writing
Master Project
Language Courses

Possibility for International Double degree program `Stem Cell Biology and Regenerative Medicine´

In addition to the regular master program, we also offer a double degree master program in `Stem Cell Biology and Regenerative Medicine’ in collaboration with Jinan University in China. This program is supported by the DAAD (Deutscher Akademischer Austauschdienst) with a stipend of 800, -- Euros/month plus travel expenses (flight) for every participating student. The selection for this program will be made from the regular master students. More information is available on our website.

Ruhr University Bochum (RUB)

Ruhr University Bochum (RUB) has a very international outlook and it is closely interconnected with the thriving research and business initiatives of the surrounding Ruhr region. Aside from the RUB, the surrounding Ruhr region offers a lot of opportunities to young researchers, such as 15 universities, 4 Fraunhofer institutes, 4 Leibnitz institutes and 3 Max-Planck institutes, which makes it easy for the students to interact with the experts and get hands-on experience in the state-of-the-art laboratories.

Read less
This programme will give you hands-on practical experience of both laboratory and bioinformatics techniques. You will also be trained in biotechnology research strategies. Read more
This programme will give you hands-on practical experience of both laboratory and bioinformatics techniques. You will also be trained in biotechnology research strategies. A strong practical foundation is provided in the first semester (Semester A) when you study two modules: 'Cellular Molecular Biology' and 'Core Genetics and Protein Biology'. These modules concentrate on the basic principles and the techniques used in modern molecular biology investigations, and on aspects of cellular molecular biology and development.

The second semester (Semester B) has a problem-based learning approach to the application of the knowledge you gained in Semester A. You will study two modules: 'Industrial Biotechnology' and 'Molecular Biotechnology'. These modules will give you an in depth understanding of the application of molecular biological approaches to the production of industrial and medicinal proteins. You will also learn how to apply and design industrial and environmental biotechnology processes, such as process kinetics and design, reactor design and oxygen transfer, sterilization kinetics and the application of biotechnology processes for the bioremediation of contaminated sites.

In the third semester (Semester C) you undertake a research project to develop your expertise further. The research project falls into different areas and may include aspects of fermentation biotechnology, genetic manipulation and protein engineering, bioinformatics, microbial physiology and environmental biotechnology.

Why choose this course?

-This course gives in-depth knowledge of biotechnology and molecular biology for biosciences or biological chemistry graduates
-It has a strong practical basis giving you training in biotechnology research strategies and hand-on experience of laboratory and bioinformatics techniques
-It equips you for research and development positions in the biotechnology and pharmaceutical industries, as well as a wide range of non-research roles in industry
-Biosciences research facilities cover fermentation biotechnology, high performance liquid chromatography, (HPLC), cell culture, molecular biology and pharmacology
-There are excellent facilities for chemical and biomedical analysis, genetics and cell biology studies and students have access to the latest equipment for chemical synthesis and purification, PCR, qPCR and 2D protein gel analysis systems for use during their final year projects
-The School of Life and Medical Science will move into a brand new science building opening in September 2015 providing us with world class laboratories for our teaching and research. At a cost of £50M the new building provides spacious naturally lit laboratories and social spaces creating an environment that fosters multi-disciplinary learning and research

Careers

On successful completion of the programme you will be well qualified for research and development positions in the biotechnology and pharmaceutical industries, to progress to a research degree or to consider non-research roles in industry such as management, manufacturing and marketing.

Teaching methods

The course consists of five modules including a research project:
-Cellular Molecular Biology
-Core Genetics and Protein Biology
-Industrial Biotechnology
-Molecular Biotechnology
-Biosciences Research Methods for Masters
-Research project

All modules are 100% assessed by coursework which includes in-course tests.

Structure

Core Modules
-Biosciences Research Methods for Masters
-Cellular Molecular Biology
-Core Genetics and Protein Biology
-Industrial Biotechnology
-Molecular Biotechnology
-Project-Mol Biology, Biotechnology, Pharmacology

Read less
Translating fundamental biomedical discoveries into applied clinical practice and public health issues. Clinical Biology is the only specialisation in the Netherlands that combines fundamental human biology with clinical studies. Read more
Translating fundamental biomedical discoveries into applied clinical practice and public health issues

Clinical Biology is the only specialisation in the Netherlands that combines fundamental human biology with clinical studies. It provides you with an extensive biological knowledge, and experience in working with animal and patient samples. In this way you’ll be trained to bridge the gap between early biomedical research results and clinical practice.

This wouldn’t be possible within the walls of the Faculty of Science. That’s why there’s an extensive collaboration between the Faculty of Science and the Radboud university medical center in the field of Clinical Biology. You’ll get the best of both worlds: a thorough background in for example molecular oncology, human genetics, physiology and metabolism as well as a clinical view on diseases. This is an excellent background for a medical researcher or a job at the interface of science and society, such as a consultant, policy officer or communications advisor in the area of food or health.

See the website http://www.ru.nl/masters/clinicalbiology

Why study Clinical Biology at Radboud University?

- It is the only programme in the Netherlands that bridges the gap between fundamental biomedical research and clinical treatments.
- You’ll get the opportunity to work together with researchers from the Radboud university medical center.
- Radboud biologists and clinicians stand out in the fields of animal and human physiology, human genetics and disease, and molecular and cellular clinical studies.
- Clinical Biology offers internships at multiple related research institutes, such as the Radboud Institute for Molecular Life Sciences (RIMLS), the Radboud Institute for Health Sciences (RIHS) and the Donders Institute for Brain, Cognition and Behaviour (DI).
- There are various opportunities to do an internship abroad thanks to our wide network of cooperating research groups.

Career prospects

After graduation, our students quickly take up positions as researchers in government departments, research organisations and medical or pharmaceutical companies. However, many of our graduates also apply their academic background to societal issues, for example as a communications or policy officer. In general, clinical biologists end up as a:
- Researcher in a hospital or a university
- Researcher in a company, either a large or a start-up company
- Supervisor of clinical trials
- Consultant in the area of health or food
- Policy officer in the area of health or food
- Communications officer at a hospital or a governmental organisation, like RIVM
- Teacher in biology or medical biology

PhD positions at Radboud University
Each year, Radboudumc offers PhD positions in this field of research. Of course, many graduates also apply for a PhD position at related departments in the Netherlands, or abroad.

Our approach to this field

- From human biology to clinical treatment
Clinical Biology at Radboud University connects fundamental biological research to clinical treatments. The courses will provide you with a solid background in human physiology and molecular biology, which you’ll apply in developing clinically-oriented research questions. As there’s an extensive collaboration between the Faculty of Science and the Radboud university medical center, you’ll become familiar with both perspectives.

- Biomaterials
In your internships you’ll work with biomaterials, such as patient and animal samples. This means you’ll apply your biological knowledge to real-life situations. Clinical biologists do not work with patients or clinical treatments directly.

- Three focus areas
This Master’s specialisation focuses on three main topics:

- Molecular Mechanisms of Novel Therapeutics
Which molecular mechanisms lead to cancer? And how can these be translated into clinical practice? These are key questions in the specialisation in Clinical Biology. For example, we’ll dive into the functioning of epigenetics (heritable modifications of chromosomes without altering the nucleotide sequence), transcription factors, tumour suppressors and immunotherapy.

- Human Genetics and Physiology
This part is about how new developments and discoveries in genetic and molecular fields can help individual patients to improve functionality, independence and quality of life. You’ll study genetic pathways and the functionality of individual organs, organ systems, regulatory mechanisms, and individuals as a whole, in an integrative way.

- Metabolism, Transport and Mobility
The energy balance in our body is one of the most important factors in health and disease. We’ll teach you how energy and metabolites are integrated into the larger cellular networks for metabolism, transport and motility.

See the website http://www.ru.nl/masters/clinicalbiology

Read less
The Plant Biotechnology programme is the combination of different fields of the classical plant sciences (e.g. plant physiology, plant breeding, plant pathology) working with a whole new range of techniques and possibilities opened up by modern molecular biology. Read more

MSc Plant Biotechnology

The Plant Biotechnology programme is the combination of different fields of the classical plant sciences (e.g. plant physiology, plant breeding, plant pathology) working with a whole new range of techniques and possibilities opened up by modern molecular biology.

Programme summary

Due to rapid technological developments in the genomics, molecular biology and biotechnology, the use of molecular marker technology has accelerated the selection of new plant varieties with many desirable traits. It also facilitates the design, development and management of transgenic plants. At present, plants are increasingly used to produce valuable proteins and secondary metabolites for food and pharmaceutical purposes. New insights into the molecular basis of plant-insect, plant- pathogen and crop-weed relationships enable the development of disease-resistant plants and strategies for integrated pest management. A fundamental approach is combined with the development of tools and technologies to apply in plant breeding, plant pathology, post-harvest quality control, and the production of renewable resources. Besides covering the technological aspects, Plant Biotechnology also deals with the ethical issues and regulatory aspects, including intellectual property rights.

Specialisations

Functional Plant Genomics
Functional genomics aims at understanding the relationship between an organism's genome and its phenotype. The availability of a wide variety of sequenced plant genomes has revolutionised insight into plant genetics. By combining array technology, proteomics, metabolomics and phenomics with bioinformatics, gene expression can be studied to understand the dynamic properties of plants and other organisms.

Plants for Human and Animal Health
Plants are increasingly being used as a safe and inexpensive alternative for the production of valuable proteins and metabolites for food supplements and pharmaceuticals. This specialisation provides a fundamental understanding of how plants can be used for the production of foreign proteins and metabolites. In addition, biomedical aspects such as immunology and food allergy, as well as nutritional genomics and plant metabolomics, can also be studied.

Molecular Plant Breeding and Pathology
Molecular approaches to analyse and modify qualitative and quantitative traits in crops are highly effective in improving crop yield, food quality, disease resistance and abiotic stress tolerance. Molecular plant breeding focuses on the application of genomics and QTL-mapping to enable marker assisted selection of a trait of interest (e.g. productivity, quality). Molecular plant pathology aims to provide a greater understanding of plant-insect, plant-pathogen and crop-weed interactions in addition to developing new technologies for integrated plant health management.These technologies include improved molecular detection of pathogens and transgene methods to introduce resistance genes into crops.

Your future career

The main career focus of graduates in Plant Biotechnology is on research and development positions at universities, research institutes, and biotech- or plant breeding companies. Other job opportunities can be found in the fields of policy, consultancy and communication in agribusiness and both governmental and non-governmental organisations. Over 75% of Plant Biotechnology graduates start their (academic) career with a PhD.

Alumnus Behzad Rashidi.
“I obtained my bachelor degree in the field of agricultural engineering, agronomy and plant breeding, at Isfahan University of Technology, Iran. The curiosity and interest for studying plant biotechnology and great reputation of Wageningen University motivated me to follow the master programme Plant Biotechnology. I got a chance to do my internship at State University of New York at Buffalo, working on biofuel production from microalgae. Working with this small unicellular organism made me even more motivated to continue my research after my master. Now I am doing my PhD in the Plant Breeding department of Wageningen University, working on biorefinery of microalgae.”

Related programmes:
MSc Biotechnology
MSc Molecular Life Sciences
MSc Plant Sciences
MSc Nutrition and Health
MSc Bioinformatics
MSc Biology.

Read less
he Master of Biomedical Science with a specialisation in Biochemistry and Molecular Biology provides advanced training and studies using new generation biochemistry and molecular biology techniques to understand cellular content, structure, organisation and interactions assessed with state-of-the art technologies. Read more
he Master of Biomedical Science with a specialisation in Biochemistry and Molecular Biology provides advanced training and studies using new generation biochemistry and molecular biology techniques to understand cellular content, structure, organisation and interactions assessed with state-of-the art technologies.

Biomedical Science encompasses a range of biological, medical and health-related disciplines addressing global biomedical challenges such as obesity, cancer, neurological diseases and cardiovascular disease.

Biomedical Science draws on the disciplines of anatomy, physiology, biochemistry and neuroscience and the para-clinical disciplines of microbiology, pathology and pharmacology to understand and treat human disease. Biomedical Science has increasingly embraced the overarching disciplines of human genetics, epigenetics and genomics to understand how gene-environment interactions define the human phenotype in its normal and diseased states.

Career opportunities

The course provides you with a wide range of career choices in industry (e.g. pharmaceutical companies); in hospital, university and government research laboratories; and in the health industry and government departments that deal with health promotion and related services.

Potential career destinations will also be influenced by your specialisation; for example, graduates who specialise in Biochemistry and Molecular Biology are well prepared for a career related to pharmaceutical research and development, whereas those taking a Human Biology specialisation are well prepared for a career in the provision of health services (e.g. an embryologist in a fertility clinic).

The Master of Biomedical Science also provides a pathway to PhD studies for those graduates who complete a research dissertation as part of their course.

Read less
This course will provide you with a strong grounding in microbial genetics and molecular biology, through the exploration of microbial structure, physiology, and behaviour at the molecular level. Read more
This course will provide you with a strong grounding in microbial genetics and molecular biology, through the exploration of microbial structure, physiology, and behaviour at the molecular level. The course includes optional modules for you to select depending upon your aspirations and interests.

What will I study?

The MRes courses are divided into a taught element (60 credit points) and a laboratory-based research project (120 credit points). You will complete the extended research project in one of our highly rated research teams.

Core modules:

-Research Methods and Bioethics (20 cp)
-Research Project (120 cp)
-Molecular Microbiology (20 cp)

Optional modules:

-Microbial Diagnostics (20 cp)
-Medical Microbiology (20 cp)*

* Mixture of eLearning and guided tutorials / workshops

COME VISIT US ON OUR NEXT OPEN DAY!

Register here: https://www.ntu.ac.uk/university-life-and-nottingham/open-days/find-your-open-day/science-and-technology-postgraduate-and-professional-open-event2.

The course is a part of the School of Science and Technology (http://www.ntu.ac.uk/sat) which has first-class facilities (http://www.ntu.ac.uk/sat/facilities).

Read less

Show 10 15 30 per page


Share this page:

Cookie Policy    X