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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/1238/genetics#!overview

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). 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.

You can select topics for the MSc from any of the research areas covered in the Research Areas section.

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 Centre 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-online/1238

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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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RESEARCH STRENGTHS AND FACILITIES. The Department of Medical Genetics Graduate Program is a leading program that attracts students from all over Canada and the world. Read more

Graduate Program

RESEARCH STRENGTHS AND FACILITIES
The Department of Medical Genetics Graduate Program is a leading program that attracts students from all over Canada and the world. The Program offers Master’s and Doctoral programs that take place in Vancouver, one of the world’s most livable cities, at locations affiliated with the University of British Columbia, an institution which is consistently ranked among the world’s best universities.

The Department is composed of dozens of faculty members at the forefront of their fields who use cutting edge genetic, epigenetic, genomic, and bioinformatic methodologies to gain insight into diseases such as cancer, diabetes, obesity, neurodegenerative and neurological disorders, and other genetic diseases. Research is highly interactive and often involves local, national, and international collaborations which further enrich the research experience.

Individual labs conduct clinical and/or translational research and basic experimental research engaging a wide variety of approaches including the use of model organisms such as mice, flies (D. melanogaster), worms (C. elegans), and yeast (S. cerevisiae). Prospective students with interests in the investigative areas below have an opportunity to pursue world class research in labs affiliated with the Medical Genetics Graduate Program.

Areas of Research

- Developmental genetics and birth defects
- Epigenetics and chromosome transmission
- Genomics and bioinformatics
- Genetic epidemiology and human gene mapping
- Neurogenetics and immunogenetics
- Stem cells and gene therapy
- Pharmacogenomics
- Clinical genetics, genetic counselling, ethics and policy

Quick Facts

- Degree: Master of Science
- Specialization: Medical Genetics
- Subject: Life Sciences
- Mode of delivery: On campus
- Program components: Coursework + Thesis required
- Faculty: Faculty of Medicine

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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

Read less
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 allow us to exploit technology and develop ground-breaking 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.

Our research degrees are based around lab-based and computational research projects. The MSc is a one year full-time programme (two years part-time).

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. You are supervised by a team which comprises your main supervisor(s) as well as supervisory chairs that give independent advice on progression.

Visit the website https://www.kent.ac.uk/courses/postgraduate/apply-online/1237

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.

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 -

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

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

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

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

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

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

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

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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/1239/microbiology

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.

Course structure

Our research degrees are based around lab-based and computational research projects. MScs are based around one-year research projects (Full Time). 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.

You can select topics for the MSc from any of the research areas covered in the Research Areas section.

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/1239

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These programmes offers the opportunity to begin or consolidate your research career under the guidance of internationally renowned researchers and professionals in the School of Mathematics, Statistics and Actuarial Science (SMSAS). Read more
These programmes offers the opportunity to begin or consolidate your research career under the guidance of internationally renowned researchers and professionals in the School of Mathematics, Statistics and Actuarial Science (SMSAS).

Research interests are diverse and include: Bayesian statistics; bioinformatics; biometry; ecological statistics; epidemic modelling; medical statistics; nonparametric statistics and semi-parametric modelling; risk and queueing theory; shape statistics.

Visit the website https://www.kent.ac.uk/courses/postgraduate/169/statistics

About the School of Mathematics, Statistics and Actuarial Science (SMSAS):

The School has a strong reputation for world-class research and a well-established system of support and training, with a high level of contact between staff and research students. Postgraduate students develop analytical, communication and research skills. Developing computational skills and applying them to mathematical problems forms a significant part of the postgraduate training in the School. We encourage all postgraduate statistics students to take part in statistics seminars and to help in tutorial classes.

The Statistics Group is forward-thinking, with varied research, and received consistently high rankings in the last two Research Assessment Exercises.

Statistics at Kent provides:

- a programme that gives you the opportunity to develop practical, mathematical and computing skills in statistics, while working on challenging and important problems relevant to a broad range of potential employers

- teaching and supervision by staff who are research-active, with established reputations and who are accessible, supportive and genuinely interested in your work

- advanced and accessible computing and other facilities

- a congenial work atmosphere with pleasant surroundings, where you can socialise and discuss issues with a community of other students.

Course structure

The research interests of the group are in line with the mainstream of statistics, with emphasis on both theoretical and applied subjects.

There are strong connections with a number of prestigious research universities such as Texas A&M University, the University of Texas, the University of Otago, the University of Sydney and other research institutions at home and abroad.

The group regularly receives research grants. The EPSRC has awarded two major grants, which support the National Centre for Statistical Ecology (NCSE), a joint venture between several institutions. A BBSRC grant supports stochastic modelling in bioscience.

Research areas

- Biometry and ecological statistics

Specific interests are in biometry, cluster analysis, stochastic population processes, analysis of discrete data, analysis of quantal assay data, overdispersion, and we enjoy good links within the University, including the School of Biosciences and the Durrell Institute of Conservation and Ecology. A recent major joint research project involves modelling the behaviour of yeast prions and builds upon previous work in this area. We also work in collaboration with many external institutions.

- Bayesian statistics

Current work includes non-parametric Bayes, inference robustness, modelling with non-normal distributions, model uncertainty, variable selection and functional data analysis.

- Bioinformatics, statistical genetics and medical statistics

Research covers bioinformatics (eg DNA microarray data), involving collaboration with the School of Biosciences. Other interests include population genetics, clinical trials and survival analysis.

- Nonparametric statistics

Research focuses on empirical likelihood, high-dimensional data analysis, nonlinear dynamic analysis, semi-parametric modelling, survival analysis, risk insurance, functional data analysis, spatial data analysis, longitudinal data analysis, feature selection and wavelets.

Careers

Students often go into careers as professional statisticians in industry, government, research and teaching but our programmes also prepare you for careers in other fields requiring a strong statistical background. You have the opportunity to attend careers talks from professional statisticians working in industry and to attend networking meetings with employers.

Recent graduates have started careers in diverse areas such as the pharmaceutical industry, financial services and sports betting.

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

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Biophysics at the University of Guelph is a unique interdisciplinary program that seeks to further our understanding of biological processes through the application of the concepts and techniques of the physical sciences. Read more
Biophysics at the University of Guelph is a unique interdisciplinary program that seeks to further our understanding of biological processes through the application of the concepts and techniques of the physical sciences. Biophysics research spans the entire breadth of the life sciences spectrum, including structural biology, biochemistry, molecular biology, biological chemistry, microbiology, bioinformatics and biomechanics. Computational tools are applied to predict the behaviour of biological systems at levels ranging from genes to populations. In Biophysics at Guelph, your program of study will be personalized to your needs and you will never have to fit into a box.

Faculty

-Biophysics Graduate Faculty members come from 11 Departments across campus and from other Universities
-Many members of our Graduate Faculty are award winning researchers and international leaders in their field
-Our research programs are funded by various national and provincial agencies
-Many Biophysics graduate students are co-advised by two faculty members, often from different Departments

Research Environment and Facilities

-A wide range of state-of-the-art facilities at the University of Guelph that facilitate high level of interdisciplinary research: 800, 600 and 500 MHz high resolution and solid-state NMR spectrometry; protein X-ray crystallography; high-throughput protein purification facilities; confocal, atomic force and cryo-electron microscopy; fluorescence spectroscopy; facilities for growth of bacterial, yeast and mammalian cells; genomic and microarray facilities; Fourier transform infra-red spectroscopy; biomechanics instrumentation including parallel robots, motion capture, telemetered electromyography, and biaxial and uniaxial materials testing; mass spectrometry; SHARCNET supercomputing cluster
-Many of these facilities are located in the Summerlee Science Complex, a 400,000 sq ft building designed to enhance team-based science that crosses traditional discipline boundaries

Funding

Most of our graduate students are funded through a combination of research assistantships, teaching
assistantships and/or internal or external scholarships.

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The Department of Integrative Biology is comprised of faculty members in three overlapping fields of emphasis. Ecology, Evolutionary Biology and Comparative Physiology. Read more
The Department of Integrative Biology is comprised of faculty members in three overlapping fields of emphasis: Ecology, Evolutionary Biology and Comparative Physiology. Research is focused on a wide variety of organisms (from microbes to plants to animals) at multiple levels of organization (from molecules and cells through to entire ecosystems). Basic research is being used as a foundation to address some of the most important regional and global issues.

Research Environment and Facilities

The University of Guelph is home to diverse, state-of-the-art facilities that contribute to research and graduate training. Extensive freshwater and saltwater holding facilities for aquatic organisms are available in the Hagen Aqualab. The University is home to one of the largest herbariums in Canada, and has a strong partnership with the Royal Botanical Gardens. The Biodiversity Institute of Ontario
provides first class facilities to investigate the genetic diversity of organisms, and the Limnotron enables experimental manipulation of aquatic food webs.

The department engages in field work throughout the world including local (the Arboretum, RARE in Cambridge, Algonquin Park), Arctic (Churchill, MB, Alaska, Yukon), African (Serengeti), and tropical (Costa Rica, Cambodia) sites. The department has access to field sites at the Arboretum, Algonquin Park, and the Huntsman Marine Science Center in New Brunswick, as well as access to extensive greenhouse and plant growth facilities across campus. Graduate students have access to facilities in the Advanced Analysis Centre including those for Genomics, Mass Spectrometry, NMR, X-ray crystallography and facilities for the growth of bacteria, yeast, mammalian and plant cells. These latter facilities are located in the Summerlee Science Complex, a 400,000 sq. ft building designed to enhance team-based science that crosses traditional discipline boundaries.

Funding

All graduate students are guaranteed financial support through Research Assistantships, Teaching Assistantships and internal/external scholarships.

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The MCB graduate program offers opportunities for interdisciplinary studies in molecular and cellular biology leading to the MSc and PhD degrees. Read more
The MCB graduate program offers opportunities for interdisciplinary studies in molecular and cellular biology leading to the MSc and PhD degrees. The research groups directed by the faculty are engaged in the pursuit of fundamental and applied research questions involving diverse biological systems (plants, humans and other animals, prokaryotic and eukaryotic microbes). In general, they follow lines of scientific enquiry at the level of molecules to cells.

Faculty

Many faculty members in the program are nationally or internationally recognized as leaders in their research fields. They include Canada Research Chairs and University Research Chairs, as well as recipients of other national career development awards. The faculty members have received many high-profile awards for research and teaching. Faculty members carry out well-funded, leading-edge research in fundamental aspects of molecular and cellular biology and address major emerging issues in the area of cell and plant biology, biochemistry, microbiology and molecular biology and genetics.

Research Environment and Facilities

We have a wide range of state-of-the-art facilities at the University of Guelph that contribute to a high-quality research and
graduate training environment. This includes laboratories associated with the Advanced Analysis Centre and its constituent laboratories dealing with Confocal and Electron Microscopy, Advanced Genomics Technologies, Mass Spectrometry, NMR, X-ray crystallography, and facilities for the growth of bacterial, yeast and mammalian cells. Additional equipment is available to support all avenues of contemporary research in the molecular biosciences. All of these facilities are located in the Science Complex, a 400,000 square foot building designer to enhance team-based science that crosses traditional discipline boundaries.

Funding

All graduate students are guaranteed financial support through Research Assistantships, Teaching Assistantships, and internal/external scholarships.

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Research projects are available in the field of Molecular Cell Biology that include; the analysis of structure, function and dynamics of telomeres in yeast… Read more
Research projects are available in the field of Molecular Cell Biology that include; the analysis of structure, function and dynamics of telomeres in yeast and parasites, and of centromeric DNA in mammalian cells; investigation of stress-response networks in the nematode Caenorhabditis elegans and of micro RNAs during the evolution of developmental processes in Drosophila; establishment of the relationship between nuclear structure and function using the giant nuclei of amphibian oocytes; analysis of biological membranes, biomaterials and biophysical aspects of cellular interactions as well as filopodia, lamellipodia and stress fiber formation; investigation of blood substitutes from microbial cell factories and of artificial gas-carrying fluids for enhancing growth of cells in culture.

APPLICATION PROCEDURES

After identifying which Masters you wish to pursue please complete an on-line application form
https://pgapps.nottingham.ac.uk/
Mark clearly on this form your choice of course title, give a brief outline of your proposed research and follow the automated prompts to provide documentation. Once the School has your application and accompanying documents (eg referees reports, transcripts/certificates) your application will be matched to an appropriate academic supervisor and considered for an offer of admission.

COURSE STRUCTURE
The MRes degree course consists of two elements:
160 credits of assessed work. The assessed work will normally be based entirely on a research project and will be the equivalent of around 10 ½ months full-time research work. AND
20 credits of non-assessed generic training. Credits can be accumulated from any of the courses offered by the Graduate School. http://www.nottingham.ac.uk/gradschool/research-training/index.phtml The generic courses should be chosen by the student in consultation with the supervisor(s).

ASSESSMENT
The research project will normally be assessed by a dissertation of a maximum of 30,000 to 35,000 words, or equivalent as appropriate*. The examiners may if they so wish require the student to attend a viva.
*In consultation with the supervisor it maybe possible for students to elect to do a shorter research project and take a maximum of 40 credits of assessed modules.

The School of Life Sciences will provide each postgraduate research student with a laptop for their exclusive use for the duration of their studies in the School.

SCHOLARSHIPS FOR INTERNATIONAL STUDENTS
http://www.nottingham.ac.uk/studywithus/international-applicants/scholarships-fees-and-finance/scholarships/masters-scholarships.aspx

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Research in this area will examine systems responsible for maintaining genome integrity and securing accurate chromosome transmission in bacteria, archaea, yeast and vertebrates. Read more
Research in this area will examine systems responsible for maintaining genome integrity and securing accurate chromosome transmission in bacteria, archaea, yeast and vertebrates. It will also examine the genetics and biochemistry of bacterial motility. Specific projects will focus on chromosome biology, the mechanics of homologous recombination and DNA repair, predatory activities of Bdellovibrio bacteriovorus. Telomere biology and genome dynamics are also major areas of interest.

APPLICATION PROCEDURES

After identifying which Masters you wish to pursue please complete an on-line application form
https://pgapps.nottingham.ac.uk/
Mark clearly on this form your choice of course title, give a brief outline of your proposed research and follow the automated prompts to provide documentation. Once the School has your application and accompanying documents (eg referees reports, transcripts/certificates) your application will be matched to an appropriate academic supervisor and considered for an offer of admission.

COURSE STRUCTURE
The MRes degree course consists of two elements:
160 credits of assessed work. The assessed work will normally be based entirely on a research project and will be the equivalent of around 10 ½ months research work. AND
20 credits of non-assessed generic training. Credits can be accumulated from any of the courses offered by the Graduate School. http://www.nottingham.ac.uk/gradschool/research-training/index.phtml The generic courses should be chosen by the student in consultation with the supervisor(s).

ASSESSMENT
The research project will normally be assessed by a dissertation of a maximum of 30,000 to 35,000 words, or equivalent as appropriate*. The examiners may if they so wish require the student to attend a viva.
*In consultation with the supervisor it maybe possible for students to elect to do a shorter research project and take a maximum of 40 credits of assessed modules.

The School of Life Sciences will provide each postgraduate research student with a laptop for their exclusive use for the duration of their studies in the School.

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The MSc Molecular Genetics course aims to provide instruction in current concepts and techniques of molecular genetics as applied in modern research. Read more
The MSc Molecular Genetics course aims to provide instruction in current concepts and techniques of molecular genetics as applied in modern research. The MSc offers practical experience of experimental techniques and provides a framework to develop skills to plan research and devise strategies to achieve specific goals. The MSc acts as a springboard for graduates who want employment in molecular, biomedical or biotechnological research, or for entry to PhD programmes.

The MSc was established in 1988 and has been developed over the years to reflect the research strengths within the Faculty. Our students find the course to be demanding and challenging but also exciting, stimulating and rewarding.

The MSc consists of 180 course credits and is split into two phases:
Taught Phase 60 credits September - January
Research Project 120 credits January - August

Taught Phase
The taught phase is based around a series of taught practical experiments that introduce a variety of modern molecular techniques and research strategies. The experiments are run Tuesday-Friday of each week in the period September-December, with the Monday being reserved for a supporting lecture programme. The practical experiments are intensive and are used to help students develop analytical and reasoning skills as well as to learn how to plan and execute experimental investigations. There are some weeks set aside for students to complete written assignments and prepare for exams.

Research Project
For the research project students become part of an active research group and choose from a broad range of projects offered by departments of the Faculty of Medicine and Biological Sciences, the MRC Toxicology Unit, or collaborating research institutes or industrial partners (when available). The spread of projects covers a wide variety of disciplines involving molecular genetics and a variety of organisms.

Below are examples of project titles from a previous year:

• Molecular engineering of novel ligands with therapeutic potential

• Detection of oxidative damage to DNA in specific gene sequences

• Analyzing human disease genes in yeast

• Single molecule methods for watching the assembly of splicing complexes

• Secretory protein expression in pancreatic β-cells

• The iron responsive regulatory system of Campylobacter jejuni

• Non-recombining segments of the human genome as tools to study evolutionary history

• Analysis of telomere length dynamics in mice that lack telomerase by the amplification of single mouse telomeres.

• Molecular mechanisms underlying antisense-RNA mediated CpG island methylation in mammalian cells

• Mutations in the LMNA Gene in Emery Dreyfuss Muscular Dystrophy – consequences for in vitro differentiation of muscle cell cultures

• Alternative lengthening of telomeres in chronic lymphocytic leukaemia


Assessment of the research project is based on:
• Research performance (60 credits)
• A written report on the research (50 credits)
• A research seminar (10 credits).

Students submit the project report in August and the research seminars are held near the end of August.

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Genetics is the scientific study of inheritance and as such is a very broad research area. Within the School of Life Sciences, research in Genetics is focussed on the Institute of Genetics, most groups of which are located within the Queen's Medical Centre. Read more
Genetics is the scientific study of inheritance and as such is a very broad research area. Within the School of Life Sciences, research in Genetics is focussed on the Institute of Genetics, most groups of which are located within the Queen's Medical Centre. Projects in genetics cover a wide spectrum from population and evolutionary genetics through to molecular and biochemical genetics. They have the common aim of understanding how the genetic material achieves its functions and how it is passed down through generations. Some of the research involves classic genetic approaches including the isolation of mutants with specific phenotypes and the study of their behaviour in genetic crosses. These studies involve model organisms that include bacteria, yeasts and other fungi, Xenopus, zebrafish and mice. Other research in Genetics at Nottingham employs molecular techniques and bioinformatics to address fundamental evolutionary problems such as the evolution of AIDS viruses, the genetic changes that are associated with speciation and the evolution of transposable elements and genome structure. There also projects available in Genetics research groups who are focussing on the systems responsible for maintaining gene and genome integrity and securing accurate chromosome transmission in bacteria, archaea, yeast and vertebrates.

APPLICATION PROCEDURES

After identifying which Masters you wish to pursue please complete an on-line application form
https://pgapps.nottingham.ac.uk/
Mark clearly on this form your choice of course title, give a brief outline of your proposed research and follow the automated prompts to provide documentation. Once the School has your application and accompanying documents (eg referees reports, transcripts/certificates) your application will be matched to an appropriate academic supervisor and considered for an offer of admission.

COURSE STRUCTURE
The MRes degree course consists of two elements:
160 credits of assessed work. The assessed work will normally be based entirely on a research project and will be the equivalent of around 10 ½ months full-time research work. AND
20 credits of non-assessed generic training. Credits can be accumulated from any of the courses offered by the Graduate School. http://www.nottingham.ac.uk/gradschool/research-training/index.phtml The generic courses should be chosen by the student in consultation with the supervisor(s).

ASSESSMENT
The research project will normally be assessed by a dissertation of a maximum of 30,000 to 35,000 words, or equivalent as appropriate*. The examiners may if they so wish require the student to attend a viva.
*In consultation with the supervisor it maybe possible for students to elect to do a shorter research project and take a maximum of 40 credits of assessed modules.

The School of Life Sciences will provide each postgraduate research student with a laptop for their exclusive use for the duration of their studies in the School.

SCHOLARSHIPS FOR INTERNATIONAL STUDENTS
http://www.nottingham.ac.uk/studywithus/international-applicants/scholarships-fees-and-finance/scholarships/masters-scholarships.aspx

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