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Masters Degrees (Molecular And Cell Biology)

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This course is suitable if you. wish to pursue research into molecular and cell biology or disease mechanisms at PhD level. want to improve your knowledge and skills to be competitive in the life science jobs market. Read more

This course is suitable if you

  • wish to pursue research into molecular and cell biology or disease mechanisms at PhD level
  • want to improve your knowledge and skills to be competitive in the life science jobs market
  • are currently employed and seeking to improve your career prospects

Most of your practical work is carried out in our teaching laboratories which contain industry standard equipment for cell culture, quantitative nucleic acid and protein analysis and a sophisticated suite of analytical equipment such as HPLC and gas chromatography. In addition many of our research facilities such as flow cytometry, confocal microscopy and mass spectrometry are used in taught modules and research projects and our tutors are experts in these techniques.

You gain

  • a detailed and up-to-date understanding of molecular biology and cell biology
  • knowledge of how alterations or defects in cellular processes may lead to disease, such as cellular dysfunction leading to degenerative diseases, cell cycle dys-regulation in cancer, and how mutations result in genetic diseases
  • hands-on expertise in the latest techniques including cell culture, flow cytometry, real-time PCR, immuno-histochemistry and recombinant DNA technology
  • professional skills to further your career in research or the life science industry

The teaching on the course is split between formal lectures and tutorials, and laboratory-based work. A third of the course is a laboratory-based research project, where students are assigned to a tutor who is an active researcher in the biomedical research centre. Typically, taught modules have a mixture of lectures and tutorials and involve a significant amount of laboratory time. Other modules are tutorial-led with considerable input from the course leader who acts as personal tutor.

Tutors complete research within the Biomolecular Sciences Research Centre into cancer, musculoskeletal diseases, human reproduction, neurological disease, medical microbiology and immunological basis of disease. Their work is regularly published in international peer-reviewed journals, showing that the course is underpinned by relevant quality research.

Course structure

The masters (MSc) award is achieved by successfully completing 180 credits.

The postgraduate certificate (PgCert) is achieved by successfully completing 60 credits.

The postgraduate diploma (PgDip) is achieved by successfully completing 120 credits. 

Core modules:

  • Biomedical laboratory techniques (15 credits)
  • Cell biology (15 credits)
  • Molecular biology (15 credits)
  • Professional development (15 credits)
  • Research methods and statistics (15 credits)
  • Research project (60 credits)

Optional modules:

  • Biotechnology (15 credits)
  • Applied biomedical techniques (15 credits)
  • Cellular and molecular basis of cancer (15 credits)
  • Human genomics and proteomics (15 credits)

Assessment

Assessment methods include written examinations and coursework including

  • problem-solving exercises
  • case studies
  • reports from practical work.

Research project assessment includes a written report and viva voce. 

Employability

As a graduate you can find work in the expanding area of life sciences or enter a career in research. You can find careers in areas such as • medical research in universities hospital laboratories or research institutes • private industry.

The course also provides the skills and knowledge for those wishing to do research at PhD level.



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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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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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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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The programme aims to provide students with training and learning opportunities in the skills and specialised knowledge needed to equip them for a career in biotechnology, molecular biotechnology or molecular biology, in particular in industry. Read more

The programme aims to provide students with training and learning opportunities in the skills and specialised knowledge needed to equip them for a career in biotechnology, molecular biotechnology or molecular biology, in particular in industry.

Practical skills will include sessions on fermentation, molecular biology, immunology, cell biology and protein chemistry, and you will go on to complete a major, supervised laboratory or computer-based research project.

Course details

The programme aims to provide students with training and learning opportunities in the skills and specialised knowledge needed to equip them for a career in biotechnology, molecular biotechnology or molecular biology, in particular in industry.

Programme content

Modules (all core) are as follows:

  • Introduction to Molecular Biotechnology (10 credits)
  • Research Techniques in Molecular Biotechnology (20 credits)
  • Practical Applications of Molecular Biotechnology (20 credits)
  • Functional Genomics and Reverse Genetics (20 credits)
  • Gene Expression Analysis (20 credits)
  • Funding Science (10 credits)
  • Pharmaceuticals & Therapeutic Biologicals from Bench to Market (10 credits)
  • Research project (60 credits)

Module descriptions can be found here

Learning and teaching is via lectures, workshops, independent study, laboratory practicals, research and a lab-based project.

Skills gained

Transferable skills gained via this programme will include written and oral presentation skills, statistics, and the ability to plan and write a grant application or a business plan. Subject-specific skills will include key techniques used in molecular biotechnology, specialist knowledge in theoretical and practical aspects of the subject, including: process engineering, molecular biology, functional genomics, 'omics' technologies, protein expression systems and antibody engineering. Practical skills will include fermentation, molecular biology, immunology, cell biology and protein chemistry.

Careers

While many graduates will go on to employment in biotechnology companies, you will also be employable in other life sciences industries or able to go on to further study and research.

Related links

School of Biosciences website: http://www.birmingham.ac.uk/biosciences

Learning and teaching

The MSc Molecular Biotechnology will provide you with the skills and specialised knowledge required for a career in biotechnology, molecular biotechnology or molecular biology, in particular within an industry setting.

Overall our aim is to equip you with a theoretical and practical background needed to apply your knowledge to biotechnology problems. We focus on key techniques used in molecular biotechnology, including aspects of process engineering, molecular biology, functional genomics, 'omics' technologies, protein expression systems and antibody engineering.

Practical skills will include sessions on fermentation, molecular biology, immunology, cell biology and protein chemistry, and you will go on to complete a major, supervised laboratory or computer-based research project. The course provides the opportunity to develop your writing and presenting skills and you will also study relevant numerical methods, and learn how to plan and write a grant application or a business plan.

Employability

What can I do with an MSc in Molecular Biotechnology?

Graduates from this programme will be well-placed for future careers in the biotechnology, pharmaceutical, biomedical and other science-based industries, many of which are undergoing a period of rapid international growth. 

The programme was designed in consultation with a senior scientist in a global pharmaceutical company, and includes relevant applied elements such as modules on product development and business plans, in addition to those covering the scientific aspects of the subject.



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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.

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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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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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There is a separate entry on admission to the P.Grad.Dip. in Molecular Medicine. Read more
There is a separate entry on admission to the P.Grad.Dip. in Molecular Medicine.

This course aims to give participants an indepth understanding of the emerging field of molecular medicine which draws together developments in molecular and cellular biology to describe disease processes at a functional level - that of molecular interactions.

The course aims to provide students with an understanding of the molecular basis of human disease and its implications for the practice of clinical medicine and research in the life sciences. The course will ensure that students from all disciplines have the skills necessary to conduct research and critically evaluate the scientific and medical literature.

The course includes lectures on cellular biology and molecular genetics as they apply generally to normal cell and tissue function and to disease processes. Modules on molecular signalling and therapeutics, bioinformatics and ethical-legal aspects of the discipline are included, as well as literature reviews, laboratory practicals and a laboratory project.

The course is available in a one-year, full-time and a two-year, part-time format. It consists of lectures on cellular biology and molecular genetics as they apply generally to normal cell and tissue function and more specifically to disease processes such as cancer, immune dysfunction, and diseases with an inherited component. The course content includes molecular signalling and therapeutics, molecular and population genetics, nanoscience, and high content cell analysis. There is a core, 'Research Skills' module which encompasses bioinformatics and ethical-legal aspects of the emerging discipline, literature reviews, and laboratory practicals in basic molecular and cellular techniques. Candidates will complete a laboratory project of three months (full-time) or six months (part-time) duration. Candidates must also complete the taught module, Molecular Mechanisms of Human Disease I. This course provides the applicant with state-of-the-art information and critical analysis of: The human genome at a molecular level, the integration of molecular and cellular biology in relation to human diseases; the molecular basis of human genetic disease; the molecular interactions between microbiological pathogens and the human host; the technology currently employed in researching molecular medicine; the molecular basis of common human inflammatory diseases and malignancies; the utilisation of knowledge on the molecular basis of human disease in planning and design of novel therapies, using pharmacological agents or gene therapy; the ethical and legal aspects of molecular medicine as it impinges on clinical practice. You will also gain a working appreciation of molecular and cellular biology at the practical level and development of the ability to perform independent research with the ability to apply bioinformatic and computational techniques in medical and biological research, and information retrieval. The student is examined on the basis of a submitted critical literature review essay, a written examination, assessment of laboratory practicals and the writing of a dissertation based on a research project. Candidates from health science (medical, dental, veterinary), biological science and other science disciplines (e.g. chemical or pharmacy), are invited to apply.

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Cell-to-cell signalling in development and disease. Do you have a clear and specific interest in cancer, stem cells or developmental biology? Our Master’s programme. Read more

Cell-to-cell signalling in development and disease

Do you have a clear and specific interest in cancer, stem cells or developmental biology? Our Master’s programme Cancer, Stem Cells and Developmental Biology combines research in three areas: oncology, molecular developmental biology and genetics. The focus is on molecular and cellular aspects of development and disease, utilising different model systems (mice, zebrafish, C. elegans, organoids and cell lines). The programme will guide you through the mysteries of embryonic growth, stem cells, signalling, gene regulation, evolution, and development as they relate to health and disease.

The right choice for you?

Given that fundamental developmental processes are so often impacted by disease, an understanding of these processes is vital to the better understanding of disease treatment and prevention. Adult physiology is regulated by developmental genes and mechanisms which, if deregulated, may result in pathological conditions. If you have a specific interest in cancer, stem cells or developmental biology, this Master’s programme is the right choice for you. Cancer, Stem Cells and Developmental Biology offers you international, high ranked research training and education that builds on novel methodology in genomics, proteomics, metabolomics and bioinformatics technology applied to biomedical and developmental systems and processes.

What you’ll learn

In the Cancer, Stem Cells and Developmental Biology programme you will learn to focus on understanding processes underlying cancer and developmental biology using techniques and applications of post-genomic research, including microarray analysis, next generation sequencing, proteomics, metabolomics and advanced microscopy techniques. You explore research questions concerning embryonic growth, stem cells, signaling pathways, gene regulation, evolution and development in relation to health and disease using various model systems. As a Master’s student you will take theory courses and seminars, as well as master classes led by renowned specialists in the field. The courses are interactive, and challenge you to further improve your writing and presenting skills.

Why study Cancer, Stem Cells and Developmental Biology at Utrecht University?

Compared to most other Master’s programmes in cancer and stem cell biology in the Netherlands, in Utrecht we offer:

  • Strong focus on fundamental molecular aspects of disease related questions, particularly questions related to cancer and the use of stem cells in regenerative medicine
  • A unique emphasis on Developmental Biology, a process with many connections to cancer
  • The opportunity to carry out two extensive research projects at renowned research groups
  • An intensive collaboration with national and international research institutes, allowing you to do your internship at prestigious partner institutions all around the world

Career in Cancer, Stem Cells and Developmental Biology

As a MSc graduate trained in both fundamental and disease-oriented aspects of biomedical genetics you are in great demand. You’ll be prepared for PhD study in one of the participating or associated groups. Alternatively, leaving after obtaining your MSc degree you will profit from a solid education in molecular genetics, in addition to your specialised knowledge of developmental biology. You’ll find your way to biotechnology, the pharmaceutical industry or education.



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The MRes in Biochemistry and Cell Biology at University College Cork is a research-intensive course designed to maximize a student's hands-on laboratory experience and research skills. Read more

Key Features of the MRes in Biochemistry and Cell Biology

The MRes in Biochemistry and Cell Biology at University College Cork is a research-intensive course designed to maximize a student's hands-on laboratory experience and research skills. The 12-month research project is supervised by an internationally-recognized investigator based in the School of Biochemistry and Cell Biology. Research projects are available in the areas of bioanalysis, bioinformatics, proteomics, cancer biology, cell signaling, gene expression, trafficking, molecular genetics, neurobiology, RNA biology, translational control and synthetic biology. The MRes has a strong focus on presentation and writing skills that are required for a successful research career, including research planning proposal writing. In addition to this, students develop their general and transferable skills in laboratory techniques and safety, research ethics and integrity, information literary, science communication and statistics. Students are also required to attend weekly research seminars presented by both external and internal speakers.

Core and Elective Modules

Students in the MRes programme begin their research projects with a selected supervisor in week two, following a research induction and orientation. In addition to the research component, the following modules must be completed:
- Scientific Communication of Current Topics in Molecular Cell Biology
- Scientific Research Planning and Proposals
Students must also complete one (10-credit) or two (5-credit) electives from several options:
- Scientific Training for Enhanced Postgraduate Studies
- Biotechniques
- Information Literacy Skills
- Scientific Outreach and Communication
- Introduction to Research Ethics
- Statistics and Data Analysis for Postgraduate Research Students

Why choose the MRes in Biochemistry and Cell Biology?

With an emphasis on the individual, the MRes has a dedicated director and experienced academic staff who will help students fulfill their research career ambitions. The School of Biochemistry and Cell Biology is a strong research unit based at University College Cork, Ireland's first 5 star university (QS) and the world's first 'Green Campus'. Recently named 'University of the Year 2016' by The Sunday Times and located within walking distance of Cork city centre, UCC enjoys a great location and a vibrant campus.
Students who complete the MRes will be competitive to secure a PhD position or enter directly into employment within the biotechnology or pharmaceutical sectors. All of the students in our current class have ambitions of continuing on to a PhD.

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

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

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

Modules

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

COME VISIT US ON OUR NEXT OPEN DAY!

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



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

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

Visit the website https://www.kent.ac.uk/courses/postgraduate/1236/cell-biology

About the School of Biosciences

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

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

Course structure

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

Research areas

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

The School’s research has three main themes:

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

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

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

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

Careers

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

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

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply-online/1236

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At the beginning of the 21st century, novel technologies are allowing us to make exciting new discoveries and obtain detailed knowledge of how molecules, cells, tissues, and organisms operate. Read more
At the beginning of the 21st century, novel technologies are allowing us to make exciting new discoveries and obtain detailed knowledge of how molecules, cells, tissues, and organisms operate. Furthermore, these advances are changing the way in which we diagnose and treat human disease. In light of these developments, it is crucial that we educate today’s students about biology at the molecular level. Koç University’s Molecular Biology and Genetics Masters Program succeeds in providing broad and deep education in the biological sciences. The Molecular Biology and Genetics Masters Program offers advanced cell and molecular biology and genetics courses as well as electives in areas, such as cancer biology, neuroscience, and bioinformatics. Students in the Molecular Biology and Genetics program will engage in experimental research by working with faculty members in their cutting-edge research programs. The program will prepare students for careers in areas including: academia, pharmaceutical discovery and development, biotechnology, environmental sciences, food quality control, and forensics.

Current faculty projects and research interests:

• Bioinformatics
• Genomics
• Proteomics
• Cancer
• Mitochondrial Function and Ageing
• Neuroscience
• Cell division/Cell Cycle
• Molecular Biology of Human Diseases
• Circadian Rhythm
• Plant Biotechnology
• Stem Cell Biology

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This course provides comprehensive training in molecular cellular and developmental biology, with particular emphasis on animal systems. Read more
This course provides comprehensive training in molecular cellular and developmental biology, with particular emphasis on animal systems. If you're looking to develop new skills for your career, or prepare for a higher degree such as an MSc or PhD, this is an ideal refresher or top-up course.

We’ll also give you practical training in modern molecular cell biology laboratory techniques, including experimental design, analysis and presentation.

You'll gain in-depth knowledge and understanding of the processes that govern embryonic development. You’ll also learn about the molecular and genetic processes that underpin cell biology of body systems.

Lectures and practicals will highlight the relevance of developmental and cell biology to the fields of stem cell and cancer biology, cellular homeostasis and tissue regeneration, and to the process of normal ageing.

Core modules

Advanced Developmental Biology
Advanced Molecular Biology
Practical Molecular Cell Biology

Teaching

Lectures
Laboratory sessions

Assessment

Essays
Practical work
Exams

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