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Biological Sciences×

Imperial College London, Full Time MSc Degrees in Biological Sciences

We have 15 Imperial College London, Full Time MSc Degrees in Biological Sciences

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Applications are invited for the MSc in Bioinformatics and Theoretical Systems. Biology. The programme will provide an interdisciplinary training and applications. Read more
Applications are invited for the MSc in Bioinformatics and Theoretical Systems
Biology. The programme will provide an interdisciplinary training and applications
are invited from students graduating from any biological, physical, computational
or mathematical first degree course. We are keen to encourage graduates from
numerical and physical sciences to join the course.

This programme will provide students with the necessary skills to produce effective
research in Bioinformatics and Systems Biology. The course, which is based at the
South Kensington campus, has been designed and is taught by staff from the Faculties
Natural Sciences, Engineering (Computing) and Medicine.

In the first term, students take the following courses:
• Bioinformatics and Systems Biology - Introduction to biology; advanced tools for the
analysis of biological data; and approaches for modelling biological systems
• Computing - Python, R, & Unix
• Mathematics & statistical inference - high level algorithms & analysis of large datasets

The remainder of the year is devoted to three full-time research projects,
undertaken under the supervision of researchers at Imperial College.

Wellcome Trust 4 year PhD Programme

Please note there is also a separate funded 4 year PhD programme, supported by the Wellcome Trust, which starts with this Master’s course and then progresses to a three year PhD. The closing date for application is Monday 5 December 2016 for admission in October 2017. Details, including how to apply, can be found at

http://www.imperial.ac.uk/wellcome-bioinformatics-phd/

Applicants must have or be expected to obtain at least an upper second honours
degree or an equivalent overseas qualification. Please be aware that we do not
do any 'wet lab' research as part of our courses, it is purely computer based. If you
are not an EU citizen, we do not have any finance for our MSc. For further details and the application procedure
see:

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Over the past 10–20 years, biology has become increasingly quantitative, and mathematical sciences have in turn been increasingly influenced by biology. Read more
Over the past 10–20 years, biology has become increasingly quantitative, and mathematical sciences have in turn been increasingly influenced by biology.

In this unique course we teach quantitative methods and biological concepts together, through application of the methods to cutting-edge biological research problems.

This course is suitable for:

Life scientists wishing to expand their quantitative skills in light of the increasingly quantitative nature of modern biology
Physical scientists (mathematicians, physicists, statisticians, computer scientists) with a strong interest in biology
The course serves as ideal preparation for either PhD studies or employment in fields of applied quantitative biology, such as resource management and conservation.

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The Advanced Chemical Engineering (ACE) course allows students to undertake advanced study in chemical engineering coupled with appropriate background study in basic sciences, mathematics and computing techniques, while the specialised MSc streams (BIO, PSE or SPE) give you the opportunity to explore one area of chemical engineering in more depth. Read more
The Advanced Chemical Engineering (ACE) course allows students to undertake advanced study in chemical engineering coupled with appropriate background study in basic sciences, mathematics and computing techniques, while the specialised MSc streams (BIO, PSE or SPE) give you the opportunity to explore one area of chemical engineering in more depth.

The Biotechnology course provides a firm foundation in the science and engineering of biological processes, ranging from metabolic engineering and tissue engineering to wastewater treatment.

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This course provides an advanced academic, laboratory and research training in modern cellular and molecular immunology, with emphasis on the interface between the basic and clinical aspects of the subject. Read more
This course provides an advanced academic, laboratory and research training in modern cellular and molecular immunology, with emphasis on the interface between the basic and clinical aspects of the subject.

It provides ideal training for students wishing to pursue a career in science or medicine, but the transferable skills (e.g. giving presentations, poster preparation) gained during the course can also be applied to careers outside science.

On completion of the MSc the majority of students go on to study for a PhD.

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This course provides broad research training in ecology, evolution and conservation, focusing on fundamental concepts and theory, and their application to conservation and biodiversity science. Read more
This course provides broad research training in ecology, evolution and conservation, focusing on fundamental concepts and theory, and their application to conservation and biodiversity science.

Based at Silwood Park Campus, an internationally renowned centre of excellence for ecological research, the taught course covers a range of topics, each taught by a leading researcher in that field.

You also complete a five-month research project on a topic of your choice.

The course will be suitable for those interested in a career in applied ecology or conservation, or in preparing for a PhD.

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Designed to appeal to both clinical and basic scientists, the course provides a comprehensive, theoretical and practical training using state-of-the-art techniques in molecular and cellular biology as applied to medicine. Read more
Designed to appeal to both clinical and basic scientists, the course provides a comprehensive, theoretical and practical training using state-of-the-art techniques in molecular and cellular biology as applied to medicine.

The practice of clinical medicine is currently being revolutionised by rapid and extraordinary technological advances in molecular biology in areas such as gene discovery, cancer, inherited diseases and gene therapy.

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This unique course will give you the skills required for success in the highly competitive field of international conservation. It is taught in partnership with three of the most high-profile conservation practitioners in the UK. Read more
This unique course will give you the skills required for success in the highly competitive field of international conservation.

It is taught in partnership with three of the most high-profile conservation practitioners in the UK:

The Royal Botanic Gardens at Kew
The Institute of Zoology, the research division of the Zoological Society of London
The Durrell Wildlife Conservation Trust

You will be immersed in the ongoing conservation work of these organisations, and will be able to choose six-month research project topics linked to their conservation programmes, ensuring that your project contributes to real-world conservation.

The course provides a strong quantitative basis for conservation work, including decision theory, conservation planning, statistical computing and modelling.

By learning to collect, analyse and use both socioeconomic and biological information, you will gain a truly interdisciplinary understanding of the theory and practice of conservation.

By the end of the course you will not only have developed an ability to analyse conservation issues, but you will also know how to put this understanding into action, implementing successful conservation projects.

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The objectives of this course are to equip those intending to pursue a career in academic or industrial research with the required knowledge and skills, and to provide a solid foundation for those who aim to go on to study at PhD level. Read more

Overview

The objectives of this course are to equip those intending to pursue a career in academic or industrial research with the required knowledge and skills, and to provide a solid foundation for those who aim to go on to study at PhD level.

During the course you will develop an in-depth understanding of the structure and function of viruses and the processes of viral infection and viral diseases at the molecular level.

The course also provides training in laboratory and research skills in a supportive learning environment.

Two parts of the course:

The course is comprised of two parts, a taught component, which is given over the first two terms (approximately 5 months) and a full-time laboratory based research project (7 months) which is carried out over the remainder of the session. The taught component is comprised of lectures, laboratory practical’s, tutorials and student presentations and covers the most important aspects of viruses and viral diseases under the 6 topic headings.

Testing of the knowledge acquired is through a combination of written examinations, assessed coursework in the form of laboratory write-ups and essays (Element 2), and the individual research project dissertation and viva (Element 2).

Course content

Introductory Core Lecture Programme

Virus Architecture and Virus Interactions with Cells

Virus Genomes, Gene Expression and Replication

Host Responses to Virus Infection

Diagnosis, Vaccines and Therapies

Epidemiology, Transmission and Evolution of Viruses

You can apply online

http://www.imperial.ac.uk/study/pg/apply/how-to-apply/

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As a graduate in the life-sciences, this MSc in Reproductive and Developmental Biology can help you reach the next stage of your career - be that PhD posts, entry to medical school, or clinical speciality training. Read more

Developing your knowledge and skills for a scientific/clinical career

As a graduate in the life-sciences, this MSc in Reproductive and Developmental Biology can help you reach the next stage of your career - be that PhD posts, entry to medical school, or clinical speciality training. With both a full-time MSc and a PGCert (Postgraduate Certificate) on offer, you can choose the pathway most suited to you, and use the specific scientific skills and the transferable skills we give you to take the next step.

Is this programme for you?

Applicants to this course are looking to improve your theoretical knowledge in the areas of reproductive and developmental biology, alongside gaining practical skills within a vibrant research environment.

Please note that we do not provide training in any technologies or techniques of Assisted Reproduction (IVF); however, previous students have gained places on the highly competitive Scientist Training Programme that is now required for those who wish to work as embryologists within the NHS.

You will need to be an independent person, who is looking for a challenge. If you're not afraid of hard work, then we would welcome an application from you.

Application

Offers are made on a first-come, first served basis. Once places are filled, we will close to new applications, so ensure that you submit your application sooner, rather than later.

You will receive notification of a conditional offer or rejection in the weeks following your submission. If you do not hear from us, it is because you have been placed on the waiting list.

Please note that we are unable to consider your application without at least one academic reference from your most recent institution.

Programme structure

Both courses start with six months of teaching on our current understanding of key topics in reproductive and developmental biology. This is split into 6 topics:

•Development of the Male and Female Reproductive Systems
•Endocrinology - Activation of the Gonads and Regulation of Gametogenesis
•Fertilisation and Early Embryo Development
•Experimental Approaches to Improved Understanding of Reproduction and Development
•Pregnancy
•Development and Stem Cell Biology

During this taught component, you will receive practical training in, for example:

•Microscopy (dissection, confocal, and fluorescence)
•QPCR
•Western Blotting

You will be assessed throughout the course component, with the PG Certificate concluding with the final examination in March. At this point, MSc students will enter their research project.

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The science of human genetics has been transformed in the past decade. Following the sequencing of the entire human genome, a wealth of resources is now available to researchers aiming to identify the genetic variants that influence human health. Read more
The science of human genetics has been transformed in the past decade. Following the sequencing of the entire human genome, a wealth of resources is now available to researchers aiming to identify the genetic variants that influence human health. These findings will shed light on the underlying molecular pathology of many diseases that are poorly understood at present, eventually paving the way for novel treatment and prevention strategies. The speed at which these discoveries are being made is accelerating, and it is likely that molecular genetics will soon underpin much of modern medicine.

Career Pathways:
The MSc in Human Molecular Genetics programme is designed to prepare you for a genetics research career, either in human gene function and genetic disease, or molecular approaches to diagnosis and health care biotechnology. It provides a broad grounding in Human Genetics, with emphasis on molecular aspects, to give a solid basis for subsequent academic or industrial research, or for entry to NHS Genetics training. Approximately 40% of our students go on to do a PhD, 40% become research assistants/associates, while others go on to jobs in industry or further studies (bioinformatics/computing medicine). One or two students every year enter the NHS in clinical genetics training posts.

Programme Structure:
You will study the fundamentals of human and molecular genetics, models of inheritance for rare and common/ complex polygenic diseases, cytogenetics, analytical methods in human genetics and genomics, animal models and transgenesis, gene therapy, epigenetics, cancer genetics and an introduction to clinical genetics and genetic counselling services.

There are four weeks of intensive laboratory practical sessions, as well as computer science practicals applied to problems in genetics, genomics and bioinformatics, regular research seminars on site, student seminar and journal presentations, study group activities and a six-month full-time research project in the summer.

The programme is based on an average 20 hours contact time per week. This will vary between 15 hours in most weeks and approximately 40 hours during intensive practicals and projects. Private study time is included within the schedule: you are expected to contribute an additional 10-15 hours private study per week to the course. We do not recommend you try to support yourself by taking a part-time employment whilst studying as your work may suffer.

Assessment:
There are 3 x 3-hour written papers in late February, coursework assessments (poster presentation, analytical methods in genetics, oral presentation), a project report and a viva examination in September.

Programme Location:
The programme is primarily based at Hammersmith Campus in West London although some teaching modules are held at St Mary's Campus and the Northwick Park Campus.

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visit course pages for more information about the next Open Day at NHM on Wednesday 7 June 2017. Taxonomy and systematics provide the foundation for studying the great diversity of the living world. Read more

Open Day

visit course pages for more information about the next Open Day at NHM on Wednesday 7 June 2017.

Course Overview

Taxonomy and systematics provide the foundation for studying the great diversity of the living world. These fields are rapidly changing through new digital and molecular technologies. There is ever greater urgency for species identification and monitoring in virtually all the environmental sciences, and evolutionary ‘tree thinking’ is now applied widely in most areas of the life sciences.

This course provides in-depth training in the study of biodiversity based on the principles of phylogenetics, evolutionary biology, palaeobiology and taxonomy. The emphasis is on quantitative approaches and current methods in DNA-based phylogenetics, bioinformatics, and the use of digital collections.

Location

This course is a collaboration of Imperial College London (Silwood Park) with the Natural History Museum. This provides an exciting scientific environment of two institutions at the forefront of taxonomic and evolutionary research.

The MSc in Taxonomy and Biodiversity comprises two terms of taught modules, mostly based at the Natural History Museum, and covers core areas in biodiversity, palaeobiology, phylogenetics, molecular systematics, phylogenomics and taxonomic principles. This is followed by a 16-week laboratory or field-based research project at the NHM or Imperial College’s Silwood Park or South Kensington campuses.

Modules

• Taxonomy of major groups and the Tree-of-Life: An introduction of major branches of the Tree, including identification exercises, presented by NHM experts
• Statistics and Computing: A two-week intensive course at Silwood Park
• Field course: trapping and collecting techniques for terrestrial and aquatic ecosystems
• Phylogenetic Reconstruction: the principles of building phylogenetic trees
• Molecular Systematics: generating and analysing molecular data; model-based phylogenetics
• Phylogenomics: Genomic techniques for studying evolutionary processes and biodiversity
• Biodiversity (Concepts): speciation, radiation, macroevolution
•Biodiversity (Applied): Measuring biodiversity, geospatial analysis, collection management and biodiversity informatics
• Palaeobiology: Studying the fossil record and what we can learn for biodiversity

Post Study

Students on the course will become the new generation of taxonomists in the broadest sense. They will be familiar with these new tools, as well as the wider concepts of biodiversity science, evolutionary biology and genomics. Most importantly, students gain the abilities to work as an independent scientist and researcher, to be able to solve questions about the future of biodiversity and to communicate them to peers and the public.
Students have many options for future employment in evolutionary and ecological research labs in industry, government and non-governmental organisations, conservation, and scientific publishing and the media. The courses are an excellent starting point for PhD level careers, feeding into various Doctoral Training Programmes available at NHM and Imperial, or elsewhere.

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

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

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

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

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

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

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This course provides both theoretical and hands on training in the application of ecological and evolutionary science to planning, monitoring, management and control. Read more
This course provides both theoretical and hands on training in the application of ecological and evolutionary science to planning, monitoring, management and control.

Based at Silwood Park Campus, an internationally renowned centre of excellence for ecological research, the course is run with outside partners such as:

The Biological Records Centre
The Centre for Ecology and Hydrology
CABI
Syngenta
Surrey Wildlife Trust
Natural England
Thomson Ecology

This makes it of direct relevance to current applied research.

Each module is taught by a leading researcher in that field, focusing on the practical, quantitative and analytical skills desired by ecological employers in industry, the public sector and NGOs, or in preparing for a PhD in applied ecology.

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This is a new, innovative program to educate students from a wide range of backgrounds (from basic scientists to all levels of healthcare professionals) to interpret and understand genomic data that increasingly impacts on service delivery to patients and the community. Read more

Introduction

This is a new, innovative program to educate students from a wide range of backgrounds (from basic scientists to all levels of healthcare professionals) to interpret and understand genomic data that increasingly impacts on service delivery to patients and the community. The programme is flexible and modular and includes full- and part-time MSc options, delivered over one or two years respectively. There are also full-time and part-time Postgraduate Certificate (PG Cert) or Postgraduate Diploma (PG Dip) options. In addition, students can select individual modules to study as a short course for CPPD purposes. Our aim is to enhance knowledge and skills in this rapidly evolving, expanding and clinically relevant field by providing a flexible, multi-disciplinary and multi-professional perspective in genomics applied to clinical practice and medical research.

Course Structure

The MSc programme also includes a core research module with opportunities to access the emerging data from the 100,000 Genomes Project through the Genomics England Clinical Interpretation Partnership (GeCIP) training domains. The programme is one of the preferred providers for Health Education England and our course values and upholds the NHS Constitution.

The programme includes collaborations with the Institute for Cancer Research and Brunel University London.

The course is flexible and modular and is available as a full- or part-time MSc, delivered over one or two years respectively. There are also full-time and part-time Postgraduate Certificate (PG Cert) and Postgraduate Diploma (PG Dip) options.

HEE funding

Applicants who are funded by HEE will have their fees paid in full. To be eligible for HEE funding, you must be an NHS healthcare professional working in England, with the support of your employing institution. To apply for HEE funding, see the Genomic Education Programme full-time/part-time application guidance.

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This new Master’s course provides academic, laboratory and research training in the methods and strategies used to elucidate which and how potential targets identified through Omics technologies- genomics, proteomics, transcriptomics- may be relevant to human disease. Read more
This new Master’s course provides academic, laboratory and research training in the methods and strategies used to elucidate which and how potential targets identified through Omics technologies- genomics, proteomics, transcriptomics- may be relevant to human disease. Students will gain insight on target selection given a large data set, and the in vitro and in vivo techniques that could be applied to study an identified target in the context of disease. The emphasis will be on critical analysis of data and published information, and the design of experimental protocols/pipeline to answer specific scientific questions.

Programme structure

The course is organised as follows:
•October - February: 5-month taught section – 5 modules
•March - September: 7-month laboratory-based research project

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