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Masters Degrees (Molecular Biochemistry)

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Molecular biology is a key area underpinning modern biology in the post-genomic era. The science of molecular biology analyses the structure and function of organisms – viral, microbial and eukaryotic – at a molecular level. Read more
Molecular biology is a key area underpinning modern biology in the post-genomic era. The science of molecular biology analyses the structure and function of organisms – viral, microbial and eukaryotic – at a molecular level. The structure and function of nucleic acids, genes, proteins and cell-signalling molecules are also analysed by molecular biology. Molecular biology techniques can be used to investigate errors in cellular systems that are fundamental to an advanced understanding of disease aetiology. In addition, innovations in molecular biology permit sophisticated modification of organisms, and manipulation of their functions, to permit the production of novel products and the development of novel therapeutic technologies. The burgeoning global bioscience sector creates a continuing demand for the education of scientists at postgraduate level skilled in molecular biology.

The MSc Molecular Biology with Professional Experience, is an extended full-time Masters programme with a substantive professional experience component. Within the professional experience modules, students have the option of undertaking an internship with a host organisation or, alternatively, campus-based professional experience. Internships are subject to a competitive application and selection process and the host organisation may include the University.

Internships may be paid or unpaid, and this will depend on what is being offered and agreed with the host organisation. Students who do not wish to undertake an internship or are not successful in securing an internship will undertake campus-based professional experience, which will deliver similar learning outcomes through supervised projects and activities designed to offer students the opportunity to integrate theory with an understanding of professional practice.

WHY CHOOSE THIS COURSE?

This course is intended for life science graduates from both home and overseas courses who wish to develop their knowledge and skills in biosciences with an emphasis on molecular biology. The aim of the course is to produce scientists who will be able to contribute to a range of careers including academic, commercial, industrial and healthcare applications of molecular biology. This course is also an excellent foundation for those wishing to pursue research in molecular biology at PhD level.

You will have the opportunity to study a broad range of Molecular Biology at a theoretical and a practical level. You will have the opportunity to gain hands-on experience of molecular biology techniques. You will have the opportunity to develop a range of transferrable and research skills that will develop your knowledge and enhance your employment potential.

WHAT WILL I LEARN?

The course is focused on the key elements of molecular biology and comprises modules on the following topics:
-Genomes and DNA Technology
-Cell Culture and Antibody Technology
-Mammalian Cell and Molecular Biology
-Molecular Microbiology
-Molecular Biology of Disease

The course will also comprise a Research Skills module. In addition, a Research Project forms part of the MSc course.

Additionally, the understanding gained from these modules will be demonstrated and applied in either the University-based project (12 months full-time or 24 months part-time, on course HLST104), or the professional experience modules giving students the option of undertaking an internship with a host organisation or, alternatively, campus-based professional experience.

HOW WILL THIS COURSE ENHANCE MY CAREER PROSPECTS?

Molecular biology is one of the most buoyant sectors of the biosciences jobs market. Indeed, molecular biology is a key area underpinning modern biology in the post-genomic era. Consequently, many different branches of biology in both the academic and industrial sectors make use of molecular biology skills and rely on analyses at the molecular level to drive developments. It is predicted that growth in the Molecular Biology employment market will be above average over the period 2010–20.

GLOBAL LEADERS PROGRAMME

To prepare students for the challenges of the global employment market and to strengthen and develop their broader personal and professional skills Coventry University has developed a unique Global Leaders Programme.

The objectives of the programme, in which postgraduate and eligible undergraduate students can participate, is to provide practical career workshops and enable participants to experience different business cultures.

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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

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Chemistry. Molecular Chemistry. Molecular chemistry is a creative science, where chemists synthesize molecules with new biological or physical properties to address scientific or societal challenges. Read more

Chemistry: Molecular Chemistry

Molecular chemistry is a creative science, where chemists synthesize molecules with new biological or physical properties to address scientific or societal challenges. Think of new catalytic conversions, lead compounds for future medicines or the next generation of conducting polymers. The specialisation Molecular Chemistry offers education in connection with top-level research in the Institute for Molecules and Materials (IMM), enabling you to develop in-depth knowledge of the design, synthesis and characterization of unprecedented functional molecular structures.

See the website http://www.ru.nl/masters/chemistry/molecular

Why study Molecular Chemistry at Radboud University?

- The IMM at Radboud University hosts an internationally renowned cluster of molecular chemistry groups, where you will participate in challenging research projects.

- The IMM Organic Chemistry department was recently awarded a 27 million euro NWO Gravity programme grant. Among the teaching staff are two ERC advanced grant and two ERC starting grant winners.

- Teaching takes place in small groups and in a stimulating, personal setting.

Admission requirements for international students

1. A completed Bachelor's degree in Chemistry, Science or a related area

In general, you are admitted with the equivalent of a Dutch Bachelor's degree in Chemistry, Science with relevant subjects, or a related programme in molecular science. In case of other pre-education, students must have passed preliminary examinations containing the subject matter of the following well-known international textbooks (or equivalent literature). Any deficiencies in this matter should be eliminated before you can take part in this specialisation. If you want to make sure that you meet our academic requirements, please contact the academic advisor.

- Organic chemistry: e.g. Organic Chemistry (Bruice)

- Biochemistry: e.g. Biochemistry (Lehninger)

- Physical chemistry: e.g. Physical chemistry (Atkins)

- 30 EC of chemistry or chemistry-related courses at third year Bachelor's level

2. A proficiency in English

In order to take part in this programme, you need to have fluency in both written and spoken English. Non-native speakers of English* without a Dutch Bachelor's degree or VWO diploma need one of the following:

- A TOEFL score of >575 (paper based) or >90 (internet based)

- An IELTS score of ≥6.5

- Cambridge Certificate of Advanced English (CAE) or Certificate of Proficiency in English (CPE) with a mark of C or higher

Career prospects

Approximately 40% of our graduates take up a PhD position, either in Nijmegen or elsewhere in the world. Our research institutes, in particular the Institute for Molecules and Materials, have vacancies for PhD projects every year. Our graduates also find work as researchers and managers in the chemical industry, or in one of our spin-off companies. A small proportion will not work in science, but for instance as a policymaker at a governmental organisation.

Our approach to this field

The Master's specialisation in Molecular Chemistry offers main stream chemistry courses and research topics, for those students that aim to deepen their knowledge and experimental skills in the heart of chemistry. The Institute for Molecules and Materials offers a state-of-the-art research infrastructure and hosts world-class research groups where you can conduct independent research, under the personal guidance of a researcher. Often, this leads to a scientific publication with you as a co-author.

Besides an internship in fundamental science, you can also chose to perform research in an industrial environment. Approximately one third of our students do one of their internships in a chemical company, both large (e.g. DSM, Synthon, AkzoNobel) and small (e.g. MercaChem, FutureChemistry, Chiralix).

Interested in going abroad? Contact one of our researchers, they can easily connect you to top groups elsewhere in the world. In the past few years, molecular chemistry students did internships in Oxford (UK), Princeton (US), Berkeley (US), Karolinska Institute (Sweden), ETH Zurich (Switzerland), etc.

Our research in this field

In the Master's specialisation Molecular Chemistry, the unique research facilities that Radboud University has to offer are coupled with the top level research within the Institute for Molecules and Materials (IMM). A selection of research groups for this specialisation are:

- Synthetic organic chemistry (Prof. Floris Rutjes): The group focuses on the development of new and sustainable synthetic (multistep)reactions by using bio-, organo- or metal-catalysts or combinations thereof, synthesis of druglike compound libraries, synthesis of bio-orthogonal click-reactions and chemical synthesis in continuous flow microreactors

- Analytical chemistry (Prof. Lutgarde Buydens): Research involves new chemometric methodologies and techniques for the optimisation of molecular structures. The research programme is designed around four areas: Methodological chemometrics, spectroscopic image analysis, molecular chemometrics, and analysis of genomics, metabolomics and proteomics data.

- Bio-organic chemistry (Prof. Jan van Hest): This groups uses Nature as inspiration for the design of functional molecules. Research lines that fit in this specialisation include: design and synthesis of modified peptides to alter their biological function, hybrid polymers containing biomolecules for use as antibacterial materials, and smart compartmentalisation strategies to enable multi-step reactions in a single reaction flask.

- Molecular materials (Prof. Alan Rowan): The aim of the group is the design and synthesis of novel polymers, self-organising molecules and ordered crystals and the subsequent investigation of their properties. Research topics related to his specialisation are: functional systems for application in catalysis, new OLEDS (organic LEDS), and liquid crystals.

See the website http://www.ru.nl/masters/chemistry/molecular

Radboud University Master's Open Day 10 March 2018



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Understanding the molecular basis of disease. Read more

Understanding the molecular basis of disease

Aspiring to contribute to the development of new therapies for metabolic, infectious and immunological diseases or cancer? Radboud University's internationally acclaimed Research Master's programme in Molecular Mechanisms of Disease provides an excellent foundation for a career in academic or commercial research.

Only by dissecting the molecular mechanisms that trigger and advance diseases and dysfunctions can we design effective treatments and medicines. The Research Master's in Molecular Mechanisms of Disease (MMD) offers you an intensive two-year programme that provides you with in-depth knowledge and research experience of disease-related molecular mechanisms. In addition, you will acquire skills such as academic writing and presentation skills and learn how to successfully apply for grants and market yourself.

Passion for molecular biomedical research

As an MMD student you will be part of the unique research community that is found within the Radboud Institute for Molecular Life Sciences (RIMLS). Like you, RIMLS researchers have a strong passion for research. They will assist you throughout the programme with guidance and expertise, supporting you in acquiring knowledge and developing excellent research skills. The RIMLS is one of the research institutes of the Radboud university medical center, so their research is closely linked to the clinic and thus aimed at translating results into treatments for patients. Examples include the translation of insights into the biology of antigen-presenting cells into new immunological cancer therapies and understanding the mutations underlying blindness into the development of gene therapies for patients with inherited blindness.

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

Why study Molecular Mechanisms of Disease at Radboud University?

- You will follow a broad biomedical programme that allows you to specialise in your specific field-of-interest.

- You will have intense daily contact with established researchers.

- You will participate in group-oriented education and be part of a small group of highly motivated national and international students.

- A personal mentor will help you to reflect on your study programme and career perspective.

- You will do two 6-months research internships one of which will be abroad.

- There is a 92% pass rate of MMD students within the two years.

- International MMD students can apply for scholarships from the Radboudumc Study Fund.

Career prospects

There is considerable demand for experts in the molecular biomedical sciences as well as in their application to the development of treatments for diseases such as cancer, autoimmune and inflammatory disorders, and metabolic diseases.

Graduates in MMD are equipped with cutting-edge knowledge of multidisciplinary research in the mechanisms of disease and in state-of-the-art diagnostic methods and technologies. During the programme, you will develop a highly critical, independent approach to problem-solving. You will also acquire the basic management skills needed to lead R&D projects in the biotechnology and pharmaceutical industries.

Most of our graduates will enter an international PhD programme to continue with research in academia or industry.

PhD opportunities

The MSc Molecular Mechanisms of Disease aims to provide all skills and knowledge necessary to rapidly enter an international PhD programme. In the Netherlands and many places in Europe, it is impossible to start a PhD programme directly after obtaining a Bachelor's degree. This research Master’s programme seriously increases your chances for obtaining an excellent PhD training position by giving you a mature perspective and a broad range of experimental approaches. In fact, over 90% of our graduates has started a (funded) PhD project.

The Radboud Institute for Molecular Life Sciences (RIMLS) recruits about fifty PhD students a year. MMD graduates are excellent candidates for these positions. Furthermore, the Radboud university medical centre offers the opportunity for its research-oriented Master's students to write their own research project. The best candidates are awarded a fully funded four-year PhD studentship at the department of their choice.

Our approach to this field

The molecular regulation of cellular processes is crucial for human development, and maintenance of health throughout life. It's evident that cellular malfunction is the cause of common multi-factorial diseases such as diabetes, immune and inflammatory disorders, renal disease, cardiovascular, metabolic and neurodegenerative diseases as well as obesity and cancer.

The Radboud Institute for Molecular Life Sciences (RIMLS) Graduate School plays a key role in developing new therapies for the fight against such diseases. RIMLS aims to improve diagnostics and develop new treatments by generating basic knowledge in the molecular biomedical life sciences and translating it into clinical application and experimental research in patients.

The RIMLS – which is part of Radboud university medical center – offers an exclusive Master's programme in Molecular Mechanisms of Disease. Top researchers and clinicians teach the programme.

Key themes

The MMD programme is organised along three major educational themes which reflect the main research areas present in the RIMLS and which each include both a fundamental and a disease-related aspect:

- Theme 1 Infection, Immunity and Regenerative Medicine / Immunity-related Disorders and Immunotherapy

- Theme 2 Metabolism, Transport and Motion / Metabolic Disorders

- Theme 3 Cell Growth and Differentiation / Developmental Disorders and Malignancies

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

Radboud University Master's Open Day 10 March 2018



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Our flexible, blended MSc Molecular Pathology course will enable you to take advantage of growing opportunities within this field, which is critically important for translational medicine, both in cancer and non-cancer diseases. Read more

Our flexible, blended MSc Molecular Pathology course will enable you to take advantage of growing opportunities within this field, which is critically important for translational medicine, both in cancer and non-cancer diseases.

The number of academic pathologists trained in molecular pathology has steadily declined over the past 20 years. As such, it has been identified as an area requiring support and development by the Medical Research Council (MRC) and the Royal College of Pathologists, creating careers opportunities for students and professionals alike.

Our master's course is aimed at medical students, biomedical scientists, medical practitioners and trainee pathologists who want to learn more about molecular pathology. Trainee pathologists can take our course as part of an existing training programme.

You will benefit from a unique focus on the molecular analysis of tissue samples and take optional units in various areas of laboratory medicine and emerging diagnostic methods, such as proteomics and chemical pathology.

Students will also become part of Manchester's world leading precision medicine research community, learning practical skills that will be directly applicable to this emerging field.

In addition, you will benefit from our association with the network of MRC and Engineering and Physical Sciences Research Council funded Molecular Pathology nodes, which have been partly established to train more scientists to work in this field. This will enable you to connect with colleagues and related opportunities across the UK.

Aims

This course aims to provide you with a wide and detailed understanding of the various aspects of molecular pathology.

Provided as part of The University of Manchester MRC/EPSRC Molecular Pathology node (Manchester Molecular Pathology Innovation Centre), we recognise the need for providing more training in molecular pathology among histopathology trainees, clinical scientists and biomedical scientists.

As such, the course addresses a wide audience, and has a broad range of both core and non-core course units to facilitate the different learning and training needs of different groups of professionals.

In addition to the taught components, which will give an in-depth understanding of molecular pathology and associated disciplines (including genomics and bioinformatics), the full MSc course will also develop your experience of and skills in scientific investigation, analytical thought and scientific criticism.

Special features

Professional input into course content

This course has been designed to take into consideration the training requirements of biomedical scientists, clinical scientists and medical histopathologists. We have consulted with local Postgraduate Deaneries and associated professional bodies including the Institute of Biomedical Scientists (IBMS) and the Royal College of Pathologists to tailor the content.

Flexible learning

The option to take the course over four years will particularly appeal to specialist trainee pathologists, who will be able to fit study around their clinical training. They can also use Year 4 to undertake the research project over three months on a full-time, salaried basis, as per RCPath regulations and Deanery funding.

Teaching and learning

Teaching is largely delivered through face-to-face, interactive sessions, consisting of some lecture material, with discussions and group work, and with a range of audio-visual stimuli including PowerPoint slides, images and videos.

All units are supported by the use of Blackboard (a virtual learning environment) on which staff post lecture slides, reading lists and other accompanying material.

Each unit on Blackboard also has its own discussion board, where you can interact with staff and other students on the course, for example, by posting and responding to questions, and making comments related to the course.

For students completing the full MSc, a significant amount of teaching and learning will take place through the dissertation research unit (60 credits or 30 credits), in which you will be expected to take a lead role in developing a research project with regular support, input, and mentorship from your project supervisor.

Coursework and assessment

Formative assessments will be given throughout the taught component of the course and will take the form of MCQs, short answer questions, verbal presentations, data and method analysis exercises.

A range of summative assessments will be employed to assess your knowledge and understanding, and the development of your intellectual and transferable skills including:

  • verbal presentations;
  • written assignments;
  • data analysis and interpretation exercises;
  • analytical method analysis;
  • evaluation and formal unseen written examinations consisting of short answer questions and essays.

The assessment methods employed by each unit will vary and will be tailored to match the material delivered and stated ILOs of that particular unit.

Your ability to gather information from a wide range of sources, evaluate and critically analyse information, make considered judgments about that information and synthesise material into logical and coherent pieces of work will all be assessed. 

Examples of the marking proformas used in the assessment of verbal and written assignments will be provided in student handbooks and on Blackboard, the University's virtual learning environment.

As per the postgraduate taught degree regulations, students exiting with a postgraduate diploma (or postgraduate certificate) may be permitted to rescind this award and upgrade to a master's (or postgraduate diploma) by successfully completing the appropriate further component of the course, providing the following conditions are met:

  • the rescinding occurs within five years of your initial registration on the original course, subject to the course still being available;
  • an overall pass at the appropriate standard to assure admission to a master's course has been obtained for the postgraduate diploma (or postgraduate certificate), including any capped or compensated grades.

Course unit details

Course content for Year 1

Core units:

  • Professional and Research Skills (S1)
  • Molecular Pathology of Cancer (S2)
  • Omics Techniques and their Application to Genomic Medicine (S2)

Optional units (max 1 per semester):

  • Introduction to Clinical Biochemistry (S1)
  • Analytical Methods (S1)
  • Bioinformatics, Interpretation, Statistics and Data Quality Assurance (S2)
  • Diseases of Major Organs (S2)

Course content for Year 2

Core units:

  • Molecular Pathology of Non-malignant Disease (S1)
  • Diagnostic Histopathology and Molecular Diagnostic Pathology (S2)

Optional units (max 1 per semester):

  • Pharmacogenomics and Stratified Healthcare (S1)
  • Immunology and Infection (S1)
  • Diseases of Major Organs (S2)
  • Health Economics (S2)


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Starting in fall 2014, graduate students can enroll in the new Bioinformatics Specialization, as part of the Biochemistry & Molecular Biology Graduate Program. Read more
Starting in fall 2014, graduate students can enroll in the new Bioinformatics Specialization, as part of the Biochemistry & Molecular Biology Graduate Program. This unique program at the University of Calgary will provide students with advanced training in the development of computational approaches for understanding large-scale biomedical data.

Come study science in the Canadian Rocky Mountains! Research in our department is diverse, and at the forefront of many fields. Research interests span from biochemistry to molecular, cellular and developmental biology, genetics, immunology and bioinformatics, with applications to cancer and clinical research. Our departmental members are grouped into four "streams" with common research interests: Molecular and Developmental Genetics, Molecular Biology of Disease, Genomics Proteomics and Bioinformatics and Cell Signalling and Structure. Additionally our faculty are members of the Faculty of Medicine's research-based Institutes and Centres.

Our department offers outstanding graduate training leading to M.Sc. and Ph.D. degrees and postdoctoral training. Effective April 1, 2014, guaranteed minimum stipends will be $23,000 for Ph.D. students and $21,000 for M.Sc. students. All students admitted into the BMB graduate program during the 2013-2014 year, and receiving the guaranteed minimum stipend, will receive a BMB Entrance Award. This award is valued at $5,000 for PhD students ($2,500 to be paid in their first year, and $2,500 to be paid in their second year), and $2,500 for MSc students. Entrance Awards will be reduced by any amount a stipend is over the program's minimum levels.

Those with outstanding achievement or potential will be eligible for additional support through scholarships and subsidies.

New students may spend their first six months in the program doing rotations in up to three different laboratories, although they may also apply to directly enter a research laboratory.

Calgary, which has a population of approximately one million, is a youthful, dynamic and friendly city. Situated one hour's drive from the Rocky Mountains, Calgary offers a wide variety of cultural, sporting and outdoor activities. Come to Calgary to be stimulated by the science and the scenery!

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Biophysics provides structural and mechanistic insights into the biological world and uses this knowledge to create solutions for major global problems, such as food production, climate change, environmental damage and drug production. Read more
Biophysics provides structural and mechanistic insights into the biological world and uses this knowledge to create solutions for major global problems, such as food production, climate change, environmental damage and drug production. It spans the distance between the vast complexity of biological systems and the relative simplicity of the physical laws that govern the universe.

Our Biophysics and Molecular Life Sciences MSc provides interdisciplinary training by bringing together concepts from chemistry, physics and the life sciences. It is taught by staff actively pursuing research in these areas and from members of BrisSynBio, a flagship centre for synthetic biology research in the UK.

The programme gives you an opportunity to gain knowledge and practical experience by studying molecular interactions and mechanisms at the level of the cell to the single molecule. Topics for study include molecular structure determination, dynamic molecular mechanisms, molecular simulation, molecular design and single-molecule technologies. You can also choose an additional unit that reflects your personal interests, allowing you to broaden your knowledge of biomedical subjects whilst focusing on biophysics. You will also learn about the commercialisation of research outcomes, including intellectual property, setting up a business, getting investment, marketing and legal issues.

Graduates from this programme will be well-prepared for a PhD programme in biophysics or related fields. Additionally, the numerical, problem-solving, research and communication skills gained on this programme are highly desired by employers in a variety of industries.

Robust evidence is the cornerstone of science and on this programme you will gain research experience in laboratories equipped with state-of-the-art equipment, including atomic force and electron microscopy, biological and chemical NMR, x-ray crystallography and mass spectrometry.

Your learning will be supported throughout the programme in regular, small-group tutorials.

Programme structure

Core units
Biophysics and Molecular Life Sciences I
-The unit begins with a short series of lectures that introduce the general area of molecular life sciences for the non-specialist. The remaining lectures cover a variety of molecular spectroscopies, molecular structure determination, an introduction to systems approaches using proteomics, and the mechanistic characterisation of biomolecules using a variety of biophysical techniques.

Biophysics and Molecular Life Sciences II
-The unit describes highly specialised techniques at the interface of physics, chemistry and the life sciences. This includes techniques for studying biomolecules at the level of a single-molecule, synthetic biology, bioinformatics and molecular simulations.

Core Skills
-A series of practical classes, lecture-based teaching sessions, and tutorials that prepare you for the practical project, provide a foundation for further studies and develop a range of transferable skills.

Literary Project
-An extended essay on a subject chosen from an extensive list covering the topics described above. You work independently under the guidance of a member of staff.

Project Proposal and Research Project
-You work independently under the guidance of a member of staff to produce a written project proposal. This is followed by a 12-week research project investigating your chosen topic. The research project forms the basis for a dissertation.

Lecture-based option
You will study one lecture-based unit from:
-Cancer Biology
-Cardiovascular Research
-The Dynamic Cell
-Infection, Immunology and Immunity
-Neuroscience
-Pharmacology

Careers

Typically, biophysics careers are laboratory-based, conducting original research within academia, a government agency or private industry, although the transferable skills gained on the course are ideal for many other careers outside of science, including business and finance.

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Molecular medicine is transforming the way we understand and treat human diseases, from cancers to neurodegenerative disorders. Read more
Molecular medicine is transforming the way we understand and treat human diseases, from cancers to neurodegenerative disorders. Combining contemporary medical studies with biochemistry and molecular biology, this rapidly advancing area creates a bridge between the subjects, and draws on other fields such as physics, chemistry, biology and medicine.

This course examines how normal cellular processes are affected by disease. You gain an understanding of the core foundations of molecular medicine, studying the topics most relevant to the real world, and how this science may be used in the prevention, diagnosis, and treatment of diseases.

You learn about and appraise the approaches that can be used to address global health problems, including cancer as well as genetic and infectious diseases. The foundations that support investigations of molecular disease mechanisms and the search for new diagnostic tools and treatments will be laid, as you explore topics including:
-Gene and protein technology.
-Synthetic biology
-Bioinformatics
-Genomics

This course has a very high proportion of practical and bioinformatic work that provides valuable experience for your career. This includes our optional module Creating and Growing a New Business Venture, which challenges you to think creatively and increases your value to organisations, including small enterprises, which are a growing part of the biopharmaceutical sector.

Your research project is a major component of your course, in which you perform novel laboratory and/or bioinformatic research in one of our academic laboratories or (subject to approval) carry out research in an industrial or hospital setting.

Two-thirds of our research is rated “world-leading” or “internationally excellent” (REF 2014), and you learn from and work alongside our expert staff.

Our expert staff

As one of the largest schools at our University, we offer a lively, friendly and supportive environment with research-led study and high quality teaching. You benefit from our academics’ wide range of expertise and research on important national and international problems using cutting-edge techniques.

The University of Essex has a Women's Network to support female staff and students and was awarded the Athena SWAN Institutional Bronze Award in November 2013 in recognition of its continuing work to support women in STEM.

Specialist facilities

Recent investment has provided modern facilities for functional genomics, computational biology and imaging biological systems. On our course you have the opportunity to:
-Work in an open and friendly department, with shared staff-student social spaces
-Conduct your research alongside academics and PhD students in shared labs
-Learn to use state-of-the-art research facilities, from protein purification, to cell culture and imaging, to molecular modelling

Your future

Contribute to a growing industry and gain the skills and knowledge to pursue a career in biomedical research and industry, or continue your studies further in postgraduate science and medical degrees.

Advances in molecular medicine will continue to drive growth of new services and products in health care, biomedical and pharmaceutical organisations and companies, and our graduates are well placed to take advantage of employment opportunities in the life science, biotech and pharmaceutical industries and hospitals.

Many of our Masters students progress to study for their PhD, and we offer numerous studentships to support our students in their studies.

We work with our university’s Employability and Careers Centre to help you find out about further work experience, internships, placements, and voluntary opportunities.

Example structure

-Research Project: MSc Molecular Medicine
-Protein Technologies
-Gene Technology and Synthetic Biology
-Professional Skills and the Business of Molecular Medicine
-Molecular Medicine and Biotechnology
-Genomics
-Advanced Medical Microbiology (optional)
-Human Molecular Genetics (optional)
-Cancer Biology (optional)
-Creating and Growing a New Business Venture (optional)
-Rational Drug Design (optional)
-Molecular and Developmental Immunology (optional)
-Cell Signalling (optional)
-Mechanisms of Neurological Disease (optional)

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The MSc in Molecular Cell Biology with Bioinnovation is a unique course aimed at highly-motivated students with an interest in biomedical research in the areas of cancer biology, infection/immunity or molecular neuroscience and entrepreneurial thinking. Read more
The MSc in Molecular Cell Biology with Bioinnovation is a unique course aimed at highly-motivated students with an interest in biomedical research in the areas of cancer biology, infection/immunity or molecular neuroscience and entrepreneurial thinking. The course will provide you with a truly interdisciplinary educational experience by combining advanced discipline-specific training with core scientific research, technical expertise and business skills.

Visit the website: http://www.ucc.ie/en/ckr44/

Course Details

A distinctive feature of the MSc in Molecular Cell Biology with Bioinnovation is that you will receive formal innovation and technology commercialisation training through modules from the College of Business and Law at UCC.

With three primary research themes – cancer biology, infection/immunity and molecular neuroscience, you will select projects with internationally-renowned research groups from the Schools of Biochemistry, Microbiology and Department of Anatomy/Neuroscience, following the completion of discipline-specific modules.

You will not only possess excellent research and technical skills on graduation but also the necessary business development and commercialisation skills for life science innovation.

Format

The course will consist of lectures, tutorials, hands-on workshops and a research dissertation based on individual research.

Core Scientific Modules (25 credits)

- Cell and Molecular Biology
- Human Molecular Genetics and Genetic Engineering Techniques
- Biological and Clinical Perspectives of Human Disease

Scientific Skills-Development Modules (10 credits)

- Biotechniques
- Scientific Communication of Current Topics in Molecular Cell Biology Core Business Modules (10 credits)
- Marketing for High Technology Entrepreneurs
- Technology and Business Planning

Elective modules (5 credits)

- Creativity and Opportunity Recognition
- Innovation Finance
- Intellectual Property Law for High-Tech Entrepreneurs

Research Project (40 credits)

You will select a project offered by internationally-renowned research groups from the Schools of Biochemistry and Cell Biology, Microbiology and Anatomy/Neuroscience. With three primary research themes – cancer biology, infection/immunity and molecular neuroscience, you will complete a six month project based on individual research in one of these themes and compile the results into an MSc dissertation on completion.

You will gain invaluable hands-on, practical experience in experimental design, implementation and data interpretation and develop a wide array of transferable skills, including written and verbal communication; data recording, analysis and presentation; critical evaluation of published material; learning to work collaboratively and independently as well as project and time-management.

Further details on the content and modules are available on the Postgraduate College Calendar - http://www.ucc.ie/calendar/postgraduate/Masters/science/page04.html#molecular

Assessment

Taught modules are examined by formal written examination and continuous assessment. The research dissertation for the six-month research project must be submitted by the end of the first academic year of registration for examination by internal and external examiners.

Careers

You will be ideally positioned to enter into a PhD after graduation, but could also pursue a number of career paths including: technology transfer officer within higher education institutions and national agencies, R&D project manager, commercialisation manager within a life science start-up, or development manager within the pharmaceutical sector. The course will also equip you with the skills required to develop your own start-up venture.

A first destination surveys from 2012 - 2014 have revealed that 100% of our graduates are in employment or further education within one-year of completing the MSc in Molecular Cell Biology with Bioinnovation.

How to apply: http://www.ucc.ie/en/study/postgrad/how/

Funding and Scholarships

Information regarding funding and available scholarships can be found here: https://www.ucc.ie/en/cblgradschool/current/fundingandfinance/fundingscholarships/

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

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

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

About the School of Biosciences

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

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

Research areas

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

The School’s research has three main themes:

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

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

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

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

Associated centres

- Kent Fungal Group

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

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

- Industrial Biotechnology Centre

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

- The Centre for Interdisciplinary Studies of Reproduction (CISoR)

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

Careers

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

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

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

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What is the Master of Biophysics, Biochemistry and Biotechnology all about?. The programme provides in-depth training in the multidisciplinary fields of biophysics and biochemistry, with particular emphasis on subfields in which KU Leuven's research expertise is internationally recognised. Read more

What is the Master of Biophysics, Biochemistry and Biotechnology all about?

The programme provides in-depth training in the multidisciplinary fields of biophysics and biochemistry, with particular emphasis on subfields in which KU Leuven's research expertise is internationally recognised: the determination of molecular structures, molecular and supramolecular modelling, the spectroscopy of biomolecules, the physical modelling of complex systems and the study of these models, the transport through ion channels in membranes, and the study of molecular interactions and physical principles in vitro, in complex biological machineries and in the living cell.

This is an initial Master's programme and can be followed on a full-time or part-time basis.

Structure

Students may select one of two tracks - Biophysics or Biochemistry and Biotechnology. The track Biochemistry and Biotechnology has three orientations: Physiological, Molecular and Cellular. 

Alternatively, students who are not considering a research career can opt for Applied Biophysics.

Elective Courses 

Students choose courses from an additional list, which are different from their research orientation. Students may select courses from the entire programme offered by the university if they have the approval of the programme director. Students have to make sure that the entire programme of the master contains at least 120 credits.

International

We encourage students to complete part of their Master's training at another European university, preferably during the second year, when they can work on their Master's thesis or take specific subjects at one of the universities in our Erasmus exchange programme.

Department

The Department of Biology is committed to excellence in teaching and research and is comprised of four divisions with diverse research activities ranging from molecular and physiological research at the level of cells and organisms to ecological research on populations, communities, and ecosystems. Although many research groups conduct in-depth analyses on specific model organisms, as a whole the department studies an impressive diversity of lifeforms.

Our research is internationally renowned and embedded in well-established worldwide collaborations with other universities, research institutes, and companies. Our primary goal is to obtain insight into patterns and processes at different levels of biological organisation and to understand the basis and evolution of the mechanisms that allow organisms to adapt to their constantly changing environment. This knowledge often leads to applications with important economic or societal benefits. The department attracts many students and hosts approximately 250 staff members.

Objectives

Upon completing the programme, the graduate will have acquired:

  • thorough understanding of the properties of biomolecules, their functions and interactions with other molecules at a cellular and higher level, and particularly their structure-function relationship;
  • profound knowledge of recent developments in disciplines such as biophysical modelling, bioinformatics, genome and proteome analysis, and ability to integrate this knowledge and to apply it to new problems;
  • abilities to thoroughly familiarise oneself in a reasonably short time with several subject areas of biophysics and biochemistry, and to keep oneself informed of relevant developments in the field of study; this implies the abilities to consult and understand relevant literature, to acquire new insights and to formulate new hypothesis based on these sources;
  • abilities to independently identify and analyse physical and molecular aspects of a biophysical problem, to plan a strategy for the solution and to propose and perform appropriate experiments;
  • appropriate attitudes to work in a team environment and to make a constructive contribution to scientific research at an international level, at the university, in the biotechnological and pharmaceutical industries, at research institutions or public services;
  • abilities to make a systematic and critical report of personal biophysical or (applied) biochemical research and to present this to an audience of specialists;
  • attitudes of continued attention to the risks associated with the conducted experiments, with respect to safety and the environment, and to thoroughly analyse these risks.

Career perspectives

A range of career options are available in the pharmaceutical and bioscience industries, where structure determination, modelling and the direct study of molecular interactions in the living cell play a major role. Because of the growing importance of the bioscience industry in today's society and the increasing need for sophisticated high-tech instruments and research methods, the demand for biophysicists and biochemists is expected to exceed supply in the near future.

Graduates may also pursue a career in medical sciences research or academic research. A considerable number of graduates, particularly those who choose for a research route, go on to undertake a PhD at one of our associated research laboratories.



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Advanced Biochemistry (MSc) has a special focus on how cells work at molecular level. Together with the related field of molecular biology, biochemistry provides important advances in understanding the molecular basis of life, and how alteration or disruption of these molecular pathways leads to disease processes. Read more
Advanced Biochemistry (MSc) has a special focus on how cells work at molecular level. Together with the related field of molecular biology, biochemistry provides important advances in understanding the molecular basis of life, and how alteration or disruption of these molecular pathways leads to disease processes.

What you’ll study

This course will provide you with comprehensive postgraduate life sciences training. You'll receive dedicated training in a broad range of practical laboratory skills. This is complemented by classes that develop your transferable skills in:
-Statistics
-Presentations
-Career development
-Ethics
-Science writing skills
-Your ability to design experiments and analyse sophisticated datasets

Our taught classes capture the excitement of cutting-edge research fields. You'll be taught by active researchers or practising clinical professionals.

Course structure

You'll have two semesters of postgraduate laboratories. You'll attend short optional classes in:
-In Vivo biology
-Drug discovery
-Haematology

You'll also choose two classes from the following:
-Biochemistry
-Clinical biochemistry
-Applied biochemistry

Finally, you'll undertake a summer project in an active research laboratory.

Future prospects

This course is the perfect route to future training at PhD level. It also gives you a range of skills and experience that employers from industry or in health care are looking for.

Course content

Compulsory classes
-Generic Skills for Biomedical & Pharmaceutical Students
-Entrepreneurship
-Postgraduate Studies in Biochemistry
-Advanced Topics in Biomedical Research
-Statistics
-Research project

Elective classes
-In Vivo Biology
-Drug Discovery
-Postgraduate Studies in Haematology
-Postgraduate Studies in Clinical Biochemistry
-Postgraduate Studies in Applied Biochemistry

The course is delivered through lectures, tutorials and hands-on practical sessions.

If you successfully complete the required taught classes you can undertake a laboratory project for the MSc.

Assessment of taught classes is through multiple choice tests, computer quizzes, problem-solving scenarios, poster and oral presentations, essays, and formal written exams.

The laboratory project is assessed through a written thesis.

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Do you want to unravel the fundamental processes in living cells? Do you want to understand 'life' at a molecular level? Do you want to explore applications based on basic molecular research?. Read more
Do you want to unravel the fundamental processes in living cells? Do you want to understand 'life' at a molecular level? Do you want to explore applications based on basic molecular research?

Molecular Biology and Biotechnology are internationally oriented research and business areas that profit from a strong multidisciplinary knowledge on structural biology, biochemistry, molecular cell biology, genetics, microbiology and systems biology. During this programme, you acquire in-depth knowledge and skills via upperlevel theoretical and practical training. You become highly competent in the field of Molecular Biology and Biotechnology, with excellent perspectives for an independent career in an academic or industrial research environment.

The programme is mainly organized by the Groningen Biomolecular Sciences and Biotechnology Institute (GBB) and is closely related to research institute. Research is fundamental and curiosity-driven and contains specialisation in the following areas:
- Molecular Systems Biology
- Molecular Cell Biology of Complex Biological Processes
- Membrane Proteins
- Structure-function Relationships of Proteins
- Microbial Biotechnology and Biocatalysis
- Chemical and Synthetic Biology

Why in Groningen?

- Connected to research institute GBB, which maintains a strong international reputation and covers the field of systems, chemical, and synthetic biology
- Internationally oriented research and business area
- Excellent MSc students from Molecular Biology & Biotechnology may apply during their first year for the selective Top programme Biomolecular Sciences

Job perspectives

Biomolecular scientists, graduates of the Master's degree programme in Molecular Biology and Biotechnology, can pursue a career in:
- PhD in the areas of Biomolecular Sciences, Life Science, Biochemistry, Biomedical Sciences, and Bio(nano-)technology
- R&D position within Life Sciences Industry
- Scientific Advisor within a company

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Our Molecular Biophysics for Medical Sciences MRes offers you the chance to learn about biophysics, molecular biology and bioinformatics, and to undertake an extensive research project. This course is excellent preparation for a PhD or a foundation for high-level entry into the industry. . Read more

Our Molecular Biophysics for Medical Sciences MRes offers you the chance to learn about biophysics, molecular biology and bioinformatics, and to undertake an extensive research project. This course is excellent preparation for a PhD or a foundation for high-level entry into the industry. 

Key benefits

  • Possibility to carry out research projects in biophysics in Singapore
  • 95% of students have gone on to study for PhD at top tier Universities and Institutions over the past 8 years
  •   Students often obtain a publication in a top quality journal (high Impact Facto) from their project research
  • Broad range of research topics to choose from.
  • Up-to-date biophysics expertise is increasingly valued by pharmaceutical and biotechnology laboratories.
  • Located in the heart of London.

Description

This Molecular Biophysics for Medical Sciences MRes programme will give you a thorough exposure to practical biophysics research in a world-leading centre that has been at the forefront of biophysics research since it opened 60 years ago. Our early successes include the elucidation of the structure of DNA and the development of the sliding filament model of muscle. More recently we have pioneered breakthroughs in the areas of muscle and immunoglobulin function, molecular-tweezers development, cell motility, DNA recognition, and the development of new techniques in cellular microscopy.

The research component of your MRes will be complemented by a series of in-depth modules in molecular biophysics and molecular biology.

You will also have the exciting option of carrying out your research project in Singapore to produce outstanding science.

Quantitative skills in biology will be incredibly important for the next generation of professional scientists working in industry and academia. We recognise this, and our MRes offers you an integrated training programme ideally suited to instruct you in the biophysical techniques to meet this challenge.

Our MRes will give you an excellent foundation for a career in academic research, but it also provides a robust foundation for entering industry at a high level, where biophysics has applications ranging from drug formulation and delivery to structure-based drug discovery and the development of medical and scientific imaging techniques.

Course purpose

Acquiring quantitative skills in biology is of paramount importance for the next generation of professional scientists working in industry and academia. The MRes (Master of Research) in Molecular Biophysics at King's College London offers an integrated training programme ideally suited to learn biophysical techniques crucially important to meet this challenge.

We deliver an excellent foundation for students wishing to pursue careers in academic research. Equally, our MRes provides a robust foundation for high level entry into industry where biophysics has applications ranging from drug formulation and delivery, structure-based drug discovery, and the development of medical and scientific imaging techniques.

Our Master is designed for outstanding graduates in the Life and Physical sciences (Biology, Biochemistry, Chemistry, Physics) who want to apply their knowledge to biological problems at the research level. Taught modules cover biophysics and molecular biology techniques with elements of bioinformatics.

Course format and assessment

Teaching

We will provide you with seven hours of lectures and seminars each week. In your first semester you’ll also have 10 to 12 hours of lab work and 35 hours in your second semester. We will expect you to undertake 15 to 20 hours of self-study.

Typically, one credit equates to ten hours of work.

Assessment

We will assess you through a combination of exams, coursework and practical assessment for your first two modules. For the Molecular Biophysics Research Project, we will assess you through a thesis, a viva and a presentation.

The study time and assessment methods detailed above are typical and give you a good indication of what to expect. However they are subject to change. 

Career prospects

Many of our graduates continue to study PhDs. Others transfer their skills and knowledge to careers in the pharmaceutical and biotechnology industry, cancer research, medicine, scientific administration within research councils and scientific publishing.



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Taught at our Parkgate Road Campus in Chester, this course is designed to give a comprehensive training in the research and analytical skills in cell and molecular biology. Read more
Taught at our Parkgate Road Campus in Chester, this course is designed to give a comprehensive training in the research and analytical skills in cell and molecular biology.

This MRes has been designed to enhance knowledge of recent advancements in cellular and molecular biology, as well as to develop subject-specific practical and analytical skills. In addition, you will gain experience of undertaking an extended period of research (6-7 months), which will aid your career progression as a molecular bio-scientist.

The programme will involve undertaking two core 20 credit taught modules, followed by an extended period of laboratory research, and submission of a Research report and review, 140 credits.

Why Study Cell and Molecular Biology Pathway with us?

Our lecturers range from enthusiastic early career academics through to internationally acknowledged senior researchers. We are actively involved in undertaking innovative research projects using ‘cutting-edge’ approaches, within the field of molecular and cellular life sciences.

Some of our current projects are listed below:
- Environmental toxicology
- Protection against the ageing
- Calcium signalling
- Biochemistry & pharmacology of intracellular Ca2+ transporters
- Stem cells
- Tissue regeneration
- Pathology of bone disease
- Progression of kidney and bladder cancers
- Novel drug delivery systems via nanoparticles and cell penetrating peptides
- Molecular basis of cancer development
- Novel approaches to cancer therapies
- Molecular immunology
- Development of analytical approaches to detect biomarkers of disease

What will I learn?

The MRes will involve undertaking two core 20 credit taught modules which consists of a mixture of lectures, workshops and practical classes in:
- Advances in Cell and Molecular Biology (BI7144)
- Skills for Molecular and Cellular Bioscientists (BI7145)

Followed by an extended period of laboratory research (140 credits) in an area that allies with the interests of our academic staff.

How will I be taught?

The two taught modules will each comprise of a series of lectures, small group discussion sessions, workshops and practical classes. Nominally each taught module has about 30-40 of contact hours associated with them. The rest of the time allocated for these modules will be for further reading, coursework preparation and revision.

The remainder of the programme will comprise of the 6 to 7 month research project which will involve regular meetings and guidance with your research supervisor. This is followed by the preparation of two reports.

How will I be assessed?

The research dissertation will be assessed by the production of a research report in the format of a scientific paper and a research review (80%).

The taught modules will be assessed by the production of practical and theoretical reports and class tests (20%).

Postgraduate Visit Opportunities

If you are interested in this courses we have a number of opportunities to visit us and our campuses. To find out more about these options and to book a visit, please go to: https://www1.chester.ac.uk/study/postgraduate/postgraduate-visit-opportunities

Request a Prospectus

If you would like to know more about the University please request a prospectus at: http://prospectus.chester.ac.uk/form.php

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