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An interdisciplinary masters course covering the breadth of mathematical applications in biology. Read more
An interdisciplinary masters course covering the breadth of mathematical applications in biology.

Are you a biologically inclined mathematician or physicist, or a biologist with an keen interest in modelling and analysis? Do you want to know how to model fish population dynamics and harvests, to decipher the mathematics of viruses, or understand of the swimming behaviour of microrganisms? The new MSc in Advanced Mathematical Biology aims to provide answers to all of these questions, and more.

The MSc will provide insight into processes over a wide range of scales; from highly symmetric capsids (the cases that surround viruses) to the interactions of entire communities in oceans. Advanced statistical methods, systems biology and biological fluid dynamics will be covered, and there will be emphasis on applications to policy and industry throughout. This programme aspires to fill the language gap between technical mathematical concepts and real world applications in the biological and life sciences. Students will gain a comprehensive grounding in cutting edge theory coupled to training in the subtleties of application.

Biological concepts and mechanisms will be discussed during bespoke sessions in “Issues in modern biology,” and developed during interdisciplinary group projects. There will also be a range of challenging elective modules.

The MSc in Advanced Mathematical Biology is an intensive one year taught programme that will prepare students either for a career in industry in the quantitative life sciences or for further academic research in Mathematical Biology.

Placements

An important part of the programme is a summer work-based placement. At the end of the spring term, students will select a placement from a list of academic and industrial institutions across the sector. Students will spend a period of three months working closely with their chosen institution with a placement supervisor. Students will write a dissertation towards the end of the placement, and will be assessed by their academic supervisor who will also consult with the placement supervisor.

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The College of Liberal Arts and Sciences is a thriving center of intellectual excellence that encompasses 14 academic departments and 80 degree programs. Read more
The College of Liberal Arts and Sciences is a thriving center of intellectual excellence that encompasses 14 academic departments and 80 degree programs. Its more than 2,500 students are engaged in a wide variety of challenging courses and hands-on learning experiences that extend across all areas of the humanities and sciences – from the great philosophers and classic literature to the world economy and environmental sustainability.

At the core of each department are faculty members who have garnered national acclaim for their best-selling books, ground-breaking research and creative endeavors. Together, students and their professors explore globally significant subjects and work towards the goal of improving every aspect of the way in which human beings live. To learn more about a specific area of study, click on the left-hand navigation bar for a full listing of academic departments.

The department

The Department of Biology is renowned for its work in behavioral ecology, animal behavior, and marine biology. Here, you can study fish, turtles, and crustaceans in the Aquatic Research Laboratory, an advanced center that is equipped with high capacity fresh and saltwater tanks. Our Miracle-Gro Greenhouse offers the ideal environment to study plant anatomy, ecology and photosynthesis.

The first of its kind on Long Island and only the third in New York State, our Master of Science in Genetic Counseling program is accredited by the Accreditation Council for Genetic Counseling and is one of just 32 genetic counseling master’s degree programs nationwide.

Our campus is located close to outstanding natural resources, where students and faculty members conduct field research. Internships are available at well-known institutions such as North Shore-Long Island Jewish Health System, Cold Spring Harbor Laboratory, and the New York Hall of Science.

M.S. in Biology

The master’s degree program in biology affords students the opportunity to engage in world-class research alongside acclaimed professors, with state-of-the-art facilities and challenging, dynamic curricula. The M.S. in Biology is designed to prepare you for research, teaching and other disciplines within biology, which may lead you toward entry into a medical, dental or veterinary school, as well as for a wide variety of rewarding careers.

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Molecular Biology with Biotechnology (MSc). This taught MSc course in the School of Biological Sciences provides intensive training in this important area of Biology and is designed both for fresh graduates and for those wishing to develop and extend their expertise in this area. Read more
Molecular Biology with Biotechnology (MSc)

This taught MSc course in the School of Biological Sciences provides intensive training in this important area of Biology and is designed both for fresh graduates and for those wishing to develop and extend their expertise in this area. The course has a strong practical emphasis and will provide the advanced theoretical and practical background necessary for employment in the Biotechnology industry, as well as equipping students with the knowledge required to pursue advanced studies in this area.
Course structure

The course consists of a taught component and a Research project. During the taught phase of the degree, you will take modules in Marine Biotechnology, Molecular and Medical Laboratory Techniques, Techniques of Molecular Biology and Biotechnology; Systems Biology; Plant Biotechnology, Environmental Biotechnology and Medical Biotechnology.

Topics covered in these modules will include Agrobacterium Ti plasmid based plant transformation vectors and the development of transgenic crops; the use and interpretation of microarrays and proteome systems; the development of transgenic fish and the diagnosis of fish diseases using molecular markers; bioremediation, biomining and the use of bacteria to degrade novel organic pollutants; stem cell technologies and the diagnosis of genetic disease using single nucleotide polymorphisms. image of students in the labDuring this part of the course, you will also take part in intensive laboratory exercises designed to introduce you to essential techniques in molecular biology and biotechnology including nucleic acid and protein extraction, PCR and QTL analysis, northern, southern and western blotting etc. In addition, most of the taught theory modules will have an associated practical component. The Research project will take place during the summer and will be conducted under the direct supervision of one of the staff involved in teaching the course. Students will be able to choose their Research project from a wide range of topics which will be related to the taught material.

Career options

The 21st century post genomics era offers a wide range of job opportunities in the agricultural, medical, pharmaceutical, aquaculture, forensics and environmental science areas. The rapidly developing economies of China and India in particular have recognised the enormous opportunities offered by Biotechnology. Job openings in sales and marketing with companies who have a science base are also common. Some graduates will also choose to extend their knowledge base by undertaking PhD programmes in relevant areas.

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The Master of Biological Science with a specialisation in Conservation Biology will allow you to help mitigate the increasing pressures of human activity and population growth on threatened species and communities, and prepares you for a wide range of jobs in conservation and restoration science. Read more
The Master of Biological Science with a specialisation in Conservation Biology will allow you to help mitigate the increasing pressures of human activity and population growth on threatened species and communities, and prepares you for a wide range of jobs in conservation and restoration science.

The Conservation Biology specialisation focuses on the ecology, conservation, evolution and management of plants and animals and the ecosystems in which they occur. A graduate will have advanced knowledge of the evolution of our flora and fauna and the ecosystems in which they occur and are well-prepared to engage in field as well as desktop studies to analyse and mitigate species and ecosystem threats.

UWA is well equipped for teaching and research in conservation biology. Our teaching is supported by the world class research of the Kings Park and Botanic Gardens Biodiversity Conservation Centre, the WA Biogeochemistry Centre, the Ecosystem Restoration Laboratory, the Centre for Evolutionary Biology, The Oceans Institute and the Centre of Excellence in Natural Resource Management.

Why study Biological Science in Western Australia?

Western Australia is widely renowned as one of the world's hotspots for terrestrial and marine biodiversity. There are about 13,000 species of plants in Western Australia, with more being discovered all the time. About 3,000 of these species are yet to be formally named. Nearly 70% of Australia's mammal species are found within the state, with 25 species being found nowhere else. Reptile species are even more diverse with higher endemism. Up to 80 per cent of the region's fish and invertebrates found nowhere else in the world. All of this biodiversity means that Western Australia is the ideal place to study biological sciences at all levels of organisation from ecosystems to molecules.

Career opportunities

Conservation Biology graduates are employed in private sector companies (consultancies, the resources sector), in government departments (for example, Parks and Wildlife, State Fisheries), in public agencies (such as botanic gardens, conservation groups), and in environment and conservation research agencies (CSIRO), while others join academic institutions.

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Deepen your knowledge and experience in a rigorous biology graduate program customized to you and your research interests. At Acadia, you will be part of one of the most vibrant and community-focused departments in the region. Read more
Deepen your knowledge and experience in a rigorous biology graduate program customized to you and your research interests. At Acadia, you will be part of one of the most vibrant and community-focused departments in the region.
In Acadia's Master of Science in Biology you will enhance your expertise in modern research methods in biology and deepen your knowledge in your chosen area of study. Although we have a wide variety of research areas to suit your interest, you will benefit from a small school experience, working closely with your supervisor and others in the same research group, and developing a close relationship with your fellow graduate students.

Within our graduate program emphasis is placed on research rather than coursework. You will work with your supervisor and advisory committee to determine an individualized program of study suited to your research interests. Through many of our research programs you will also gain experience working with individuals and organizations in the local community.

Be Inspired

Acadia is located near the tidal mud flats of the Bay of Fundy (named one of the Seven Natural Wonders of the World) and within the Annapolis Valley, so our location provides you with access to a variety of ecosystems including, aquatic, wetland, farm, and forest. These habitats are used in field-based research work to give you a balance of outdoor and indoor learning experiences throughout the program.

We have also taken leadership roles in some of the largest projects in the Atlantic region. Acadia, through the Acadia Tidal Energy Institute, is actively involved in tidal power initiatives in the Bay of Fundy. Acadia is a partner with Ducks Unlimited Canada in waterfowl and wetlands conservation projects. Watershed management and estuarine systems are studied through the Acadia Centre for Estuarine Research, the only centre of its kind in Canada.

Research Interests

-Animal movement and its relationship to population dynamics and conservation
-Cancer immunology
-Coevolution of parasites and hosts
-Conservation biology
-Developmental biology, and its relation to evolutionary change
-Ecology and health of coastal habitats
-Fungal endophytes of coastal and marine plants
-Immune cell developmental pathways
-Impacts of anthropogenic disturbances in coastal ecosystems on fish
-Insect pheromone processing and behaviour
-Interaction between parasites and host ecology
-Management and recovery of species at risk
-Molecular evolution and molecular systematics in bivalves and mammals
-Natural history of beetles and birds in forested and agricultural landscapes
-Floral character evolution in family Rosaceae and genus Vaccinum
-Pest management in forestry and agriculture
-Plant ecology
-Plant systematics, phylogeny and evolution
-Population dynamics
-Role of relaxin family peptides and their receptors in neuroprotection
-Tidal energy and its impacts
-Watershed management

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JCU’s programs in tropical marine ecology and fisheries biology are dedicated to the study of tropical, shallow water marine systems. Read more
JCU’s programs in tropical marine ecology and fisheries biology are dedicated to the study of tropical, shallow water marine systems. There is an emphasis on whole organism biology, the ecology and biogeography of tropical marine organisms, and the evolutionary mechanisms that underlie their diversity.
Proximity to the Great Barrier Reef provides unparalleled opportunities for investigating ecological and evolutionary questions for reef fish, corals, and other marine organisms.
Students will develop their knowledge and skills in quantitative marine ecology, conservation biology, and the biology, life history and taxonomy of tropical marine organisms. Preliminary coursework subjects consist of semester-long offerings. More advanced subjects are offered by block mode, which are 2-week intensive sessions on campus. The courses are flexible, with a range of electives available. Students devise a study program to meet their professional goals, in consultation with the course coordinator. Programs may include a research component if approved.

Course learning outcomes

On successful completion of the Graduate Certificate of Science, graduates will be able to:
*Integrate and apply specialised theoretical and technical knowledge in one or more science disciplines
*Retrieve, analyse, synthesise and evaluate knowledge from a range of sources
*Plan and conduct reliable, evidence-based laboratory and/or field experiments/practices by selecting and applying methods, techniques and tools, as appropriate to one or more science disciplines
*Organise, analyse and interpret complex scientific data using mathematical, statistical and technological skills
*Communicate complex scientific ideas, arguments and conclusions clearly and coherently to a variety of audiences through advanced written and oral English language skills and a variety of media
*Identify, analyse and generate solutions to unpredictable or complex problems, especially related to tropical, rural, remote or Indigenous contexts, by applying scientific knowledge and skills with initiative and high level judgement
*Explain and apply regulatory requirements, ethical principles and, where appropriate, cultural frameworks, to work effectively, responsibly and safely in diverse contexts
*Reflect on current skills, knowledge and attitudes to manage their professional learning needs and performance, autonomously and in collaboration with others.

Award title

Graduate Certificate of Science (GCertSc)

Course articulation

Students who complete the Graduate Certificate of Science are eligible for entry to the Graduate Diploma of Science, and may be granted advanced standing for all subjects completed under the Graduate Certificate.

Entry requirements (Additional)

English band level 1 - the minimum English Language test scores you need are:
*Academic IELTS – 6.5 (no component lower than 6.0), OR
*TOEFL – 570 (plus minimum Test of Written English score of 4.5), OR
*TOEFL (internet based) –90 (minimum writing score of 21), OR
*Pearson (PTE Academic) - 64

If you meet the academic requirements for a course, but not the minimum English requirements, you will be given the opportunity to take an English program to improve your skills in addition to an offer to study a degree at JCU. The JCU degree offer will be conditional upon the student gaining a certain grade in their English program. This combination of courses is called a packaged offer.
JCU’s English language provider is Union Institute of Languages (UIL). UIL have teaching centres on both the Townsville and Cairns campuses.

Minimum English language proficiency requirements

Applicants of non-English speaking backgrounds must meet the English language proficiency requirements of Band 1 – Schedule II of the JCU Admissions Policy.

Why JCU?

James Cook University is a leading education and research centre for biology in the tropics.
*Internationally-recognised undergraduate, postgraduate and research programs in biological sciences
*dedicated research vessel, and research stations at Orpheus Island and Paluma
*more tropical courses and subjects than any other institution in the world
*teaching and research facilities including the Advanced Analytical Centre and the Aquaculture Research Facility.

Application deadlines

*1st February for commencement in semester one (February)
*1st July for commencement in semester two (mid-year/July)

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JCU’s programs in tropical marine ecology and fisheries biology are dedicated to the study of tropical, shallow water marine systems. Read more
JCU’s programs in tropical marine ecology and fisheries biology are dedicated to the study of tropical, shallow water marine systems. There is an emphasis on whole organism biology, the ecology and biogeography of tropical marine organisms, and the evolutionary mechanisms that underlie their diversity.
Proximity to the Great Barrier Reef provides unparalleled opportunities for investigating ecological and evolutionary questions for reef fish, corals, and other marine organisms.
Students will develop their knowledge and skills in quantitative marine ecology, conservation biology, and the biology, life history and taxonomy of tropical marine organisms. Preliminary coursework subjects consist of semester-long offerings. More advanced subjects are offered by block mode, which are 2-week intensive sessions on campus. The courses are flexible, with a range of electives available. Students devise a study program to meet their professional goals, in consultation with the course coordinator. Programs may include a research component if approved.

Course learning outcomes

The graduates of James Cook University are prepared and equipped to create a brighter future for life in the tropics world-wide.
JCU graduates are committed to lifelong learning, intellectual development, and to the display of exemplary personal, professional and ethical standards. They have a sense of their place in the tropics and are charged with professional, community, and environmental responsibility. JCU graduates appreciate the need to embrace and be acquainted with the Aboriginal and Torres Strait Islander Peoples of Australia. They are committed to reconciliation, diversity and sustainability. They exhibit a willingness to lead and to contribute to the intellectual, environmental, cultural, economic and social challenges of regional, national, and international communities of the tropics.
On successful completion of the Graduate Diploma of Science, graduates will be able to:
*Integrate and apply advanced theoretical and technical knowledge in one or more science disciplines
*Retrieve, analyse, synthesise and evaluate knowledge from a range of sources
*Plan and conduct reliable, evidence-based laboratory and/or field experiments/practices by selecting and applying methods, techniques and tools, as appropriate to one or more science disciplines
*Organise, analyse and interpret complex scientific data using mathematical, statistical and technological skills
*Communicate complex scientific ideas, arguments and conclusions clearly and coherently to a variety of audiences through advanced written and oral English language skills and a variety of media
*Identify, analyse and generate solutions to unpredictable or complex problems, especially related to tropical, rural, remote or Indigenous contexts, by applying scientific knowledge and skills with initiative and high level judgement
*Explain and apply regulatory requirements, ethical principles and, where appropriate, cultural frameworks, to work effectively, responsibly and safely in diverse contexts
*Reflect on current skills, knowledge and attitudes to manage their professional learning needs and performance, autonomously and in collaboration with others.

Award title

GRADUATE DIPLOMA OF SCIENCE (GDipSc)

Course articulation

Students who complete the Graduate Diploma of Science are eligible for entry to the Master of Science, and may be granted advanced standing for all subjects completed under the Graduate Diploma.

Entry requirements (Additional)

English band level 1 - the minimum English Language test scores you need are:
*Academic IELTS – 6.5 (no component lower than 6.0), OR
*TOEFL – 570 (plus minimum Test of Written English score of 4.5), OR
*TOEFL (internet based) –90 (minimum writing score of 21), OR
*Pearson (PTE Academic) - 64

If you meet the academic requirements for a course, but not the minimum English requirements, you will be given the opportunity to take an English program to improve your skills in addition to an offer to study a degree at JCU. The JCU degree offer will be conditional upon the student gaining a certain grade in their English program. This combination of courses is called a packaged offer.
JCU’s English language provider is Union Institute of Languages (UIL). UIL have teaching centres on both the Townsville and Cairns campuses.

Minimum English language proficiency requirements

Applicants of non-English speaking backgrounds must meet the English language proficiency requirements of Band 1 – Schedule II of the JCU Admissions Policy.

Why JCU?

James Cook University is a leading education and research centre for biology in the tropics.
*Internationally-recognised undergraduate, postgraduate and research programs in biological sciences
*dedicated research vessel, and research stations at Orpheus Island and Paluma
*more tropical courses and subjects than any other institution in the world
*teaching and research facilities including the Advanced Analytical Centre and the Aquaculture Research Facility.

Application deadlines

*1st February for commencement in semester one (February)
*1st July for commencement in semester two (mid-year/July)

Read less
JCU’s programs in tropical marine ecology and fisheries biology are dedicated to the study of tropical, shallow water marine systems. Read more
JCU’s programs in tropical marine ecology and fisheries biology are dedicated to the study of tropical, shallow water marine systems. There is an emphasis on whole organism biology, the ecology and biogeography of tropical marine organisms, and the evolutionary mechanisms that underlie their diversity.
Proximity to the Great Barrier Reef provides unparalleled opportunities for investigating ecological and evolutionary questions for reef fish, corals, and other marine organisms.
Students will develop their knowledge and skills in quantitative marine ecology, conservation biology, and the biology, life history and taxonomy of tropical marine organisms. Preliminary coursework subjects consist of semester-long offerings. More advanced subjects are offered by block mode, which are 2-week intensive sessions on campus. The courses are flexible, with a range of electives available. Students devise a study program to meet their professional goals, in consultation with the course coordinator. Programs may include a research component if approved.

Course learning outcomes

On successful completion, graduates will be able to:
*Demonstrate an advanced level of scientific knowledge from with their chosen major
*Critically analyse scientific theory, models, concepts and techniques from within their chosen major
*Critically read and evaluate quantitative and qualitative research findings from within their chosen major
*Apply analytic tools and methodologies to define and describe scientific problems from within their chosen major
*Communicate effectively and persuasively, both orally and in writing.

Award title

MASTER OF SCIENCE (MSc)

Entry requirements (Additional)

English band level 1 - the minimum English Language test scores you need are:
*Academic IELTS – 6.0 (no component lower than 5.5), OR
*TOEFL – 570 (plus minimum Test of Written English score of 4.5), OR
*TOEFL (internet based) – 90 (minimum writing score of 21), OR
*Pearson (PTE Academic) - 64

If you meet the academic requirements for a course, but not the minimum English requirements, you will be given the opportunity to take an English program to improve your skills in addition to an offer to study a degree at JCU. The JCU degree offer will be conditional upon the student gaining a certain grade in their English program. This combination of courses is called a packaged offer.
JCU’s English language provider is Union Institute of Languages (UIL). UIL have teaching centres on both the Townsville and Cairns campuses.

Minimum English Language Proficiency Requirements

Applicants of non-English speaking backgrounds must meet the English language proficiency requirements of Band 1 – Schedule II of the JCU Admissions Policy.

Why JCU?

James Cook University is a leading education and research centre for biology in the tropics.
*Internationally-recognised undergraduate, postgraduate and research programs in biological sciences
*dedicated research vessel, and research stations at Orpheus Island and Paluma
*more tropical courses and subjects than any other institution in the world
*teaching and research facilities including the Advanced Analytical Centre and the Aquaculture Research Facility.

Application deadlines

*1st February for commencement in semester one (February)
*1st July for commencement in semester two (mid-year/July)

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The only Master’s specialisation in the Netherlands covering the function of our epigenome, a key factor in regulating gene expression and in a wide range of diseases. Read more

Master's specialisation in Medical Epigenomics

The only Master’s specialisation in the Netherlands covering the function of our epigenome, a key factor in regulating gene expression and in a wide range of diseases.
Our skin cells, liver cells and blood cells all contain the same genetic information. Yet these are different types of cells, each performing their own specific tasks. How is this possible? The explanation lies in the epigenome: a heritable, cell-type specific set of chromosomal modifications, which regulates gene expression. Radboud University is specialised in studying the epigenome and is the only university in the Netherlands to offer a Master’s programme in this field of research.

Health and disease

The epigenome consists of small and reversible chemical modifications of the DNA or histone proteins, such as methylation, acetylation and phosphorylation. It changes the spatial structure of DNA, resulting in gene activation or repression. These processes are crucial for our health and also play a role in many diseases, like autoimmune diseases, cancer and neurological disorders. As opposed to modifications of the genome sequence itself, epigenetic modifications are reversible. You can therefore imagine the great potential of drugs that target epigenetic enzymes, so-called epi-drugs.

Big data

In this specialisation, you’ll look at a cell as one big and complex system. You’ll study epigenetic mechanisms during development and disease from different angles. This includes studying DNA and RNA by next-generation sequencing (epigenomics) and analysing proteins by mass spectrometry (proteomics). In addition, you‘ll be trained to design computational strategies that allow the integration of these multifaceted, high-throughput data sets into one system.

Why study Medical Epigenomics at Radboud University?

- Radboud University combines various state-of-the-art technologies – such as quantitative mass spectrometry and next-generation DNA sequencing – with downstream bioinformatics analyses in one department. This is unique in Europe.
- This programme allows you to work with researchers from the Radboud Institute for Molecular Life sciences (RIMLS), one of the leading multidisciplinary research institutes within this field of study worldwide.
- We have close contacts with high-profile medically oriented groups on the Radboud campus and with international institutes (EMBL, Max-Planck, Marie Curie, Cambridge, US-based labs, etc). As a Master’s student, you can choose to perform an internship in one of these related departments.
- Radboud University coordinates BLUEPRINT, a 30 million Euro European project focusing on the epigenomics of leukaemia. Master’s students have the opportunity to participate in this project.

Career prospects

As a Master’s student of Medical Epigenomics you’re trained in using state-of-the art technology in combination with biological software tools to study complete networks in cells in an unbiased manner. For example, you’ll know how to study the effects of drugs in the human body.
When you enter the job market, you’ll have:
- A thorough background of epigenetic mechanisms in health and disease, which is highly relevant in strongly rising field of epi-drug development
- Extensive and partly hands-on experience in state-of-the-art ‘omics’ technologies: next-generation sequencing, quantitative mass spectrometry and single cell technologies;
- Extensive expertise in designing, executing and interpreting scientific experiments in data-driven research;
- The computational skills needed to analyse large ‘omics’ datasets.

With this background, you can become a researcher at a:
- University or research institute;
- Pharmaceutical company, such as Synthon or Johnson & Johnson;
- Food company, like Danone or Unilever;
- Start-up company making use of -omics technology.

Apart from research into genomics and epigenomics, you could also work on topics such as miniaturising workflows, improving experimental devices, the interface between biology and informatics, medicine from a systems approach.

Or you can become a:
- Biological or medical consultant;
- Biology teacher;
- Policy coordinator, regarding genetic or medical issues;
- Patent attorney;
- Clinical research associate;

PhD positions at Radboud University

Each year, the Molecular Biology department (Prof. Henk Stunnenberg, Prof. Michiel Vermeulen) and the Molecular Developmental Biology department (Prof. Gert-Jan Veenstra) at the RIMLS offer between five and ten PhD positions. Of course, many graduates also apply for a PhD position at related departments in the Netherlands, or abroad.

Our approach to this field

- Systems biology
In the Medical Epigenomics specialisation you won’t zoom in on only one particular gene, protein or signalling pathway. Instead, you’ll regard the cell as one complete system. This comprehensive view allows you to, for example, model the impact of one particular epigenetic mutation on various parts and functions of the cell, or study the effects of a drug in an unbiased manner. One of the challenges of this systems biology approach is the processing and integration of large amounts of data. That’s why you’ll also be trained in computational biology. Once graduated, this will be a great advantage: you’ll be able to bridge the gap between biology, technology and informatics , and thus have a profile that is desperately needed in modern, data-driven biology.

- Multiple OMICS approaches
Studying cells in a systems biology approach means connecting processes at the level of the genome (genomics), epigenome (epigenomics), transcriptome (transcriptomics), proteome (proteomics), etc. In the Medical Epigenomics specialisation, you’ll get acquainted with all these different fields of study.

- Patient and animal samples
Numerous genetic diseases are not caused by genetic mutations, but by epigenetic mutations that influence the structure and function of chromatin. Think of:
- Autoimmune diseases, like rheumatoid arthritis and lupus
- Cancer, in the forms of leukaemia, colon cancer, prostate cancer and cervical cancer
- Neurological disorders, like Rett Syndrome, Alzheimer, Parkinson, Multiple Sclerosis, schizophrenia and autism

We investigate these diseases on a cellular level, focusing on the epigenetic mutations and the impact on various pathways in the cell. You’ll get the chance to participate in that research, and work with embryonic stem cell, patient, Xenopus or zebra fish samples.

See the website http://www.ru.nl/masters/medicalbiology/epigenomics

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Our degrees are centered on the development and performance of an original research project, ranging from the molecular level through a broad range of interests in organismal biology to ecology and evolutionary biology. Read more
Our degrees are centered on the development and performance of an original research project, ranging from the molecular level through a broad range of interests in organismal biology to ecology and evolutionary biology.

Our recent graduates have gone on to be: Aquatic Ecologists, Wildlife Biologists, Consultants, Project Managers, Analysts, Research Scientists and Professors.

Research centres, facilities and collaborators

The Canadian Rivers Institute (CRI), Stable Isotopes in Nature Laboratory (SINLAB), Centre of Environmental and Molecular Algae Research, Connell Memorial Herbarium, ultracentrifuges, microscopy facilities, cell fractionators, fish culture rooms, stable isotope facility, growth chambers, biohazard containment facilities and a greenhouse complex located on the roof.

We are associated with such organizations as NB Co-operative Fish & Wildlife Research, Natural Resources Canada, Hugh John Flemming Forest Research Centre, Agriculture Canada Research Station, Mactaquac Fish Hatchery, Huntsman Marine Science Centre and St. Andrews Biological Station.

We typically have 25-30 active MSc and 25-30 active PhD students at any given time. Our graduate students work hand in hand with faculty members on original research projects.

Request More Information

You can request more information about our Graduate Programs here: http://www.unb.ca/admissions/request-information.html

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Human activity in our oceans affect marine environments and conservation. You develop practical and analytical skills to apply to marine ecosystems. Read more
Human activity in our oceans affect marine environments and conservation. You develop practical and analytical skills to apply to marine ecosystems. The programme is relevant to those who want to work for environmental and conservation organisations.

COURSES

Semester 1
Marine Ecology and Ecosystem Management
Fish Biology
Experimental Design and Analysis
Population and Community Ecology
Introduction to GIS

Semester 2
Readings in Ecology, Conservation and Environment
Research Project Planning
Optional
Ecology, Conservation and Society
Marine Spatial Management and Top Predators
Advanced Modelling for Ecology and Conservation
Spatial Information Analysis
Sustainable Management of Marine Resources
Catchment Management

Semester 3
Research Project

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This Masters programme in Ecology and Environmental Biology is mainly intended to provide training for students who hope to enter a PhD programme in the areas of ecology and environmental biology, and who wish training in transferable skills and in ecological and environmental disciplines. Read more
This Masters programme in Ecology and Environmental Biology is mainly intended to provide training for students who hope to enter a PhD programme in the areas of ecology and environmental biology, and who wish training in transferable skills and in ecological and environmental disciplines.

Why this programme

-This Ecology and Evnvironmental Biology degree programme draws on the research expertise of a large number of University staff and allows you the chance to obtain experience in a wide range of modern research techniques.
-There is considerable expertise in this area of biology available at Glasgow, especially in ornithology, fish biology, aquatic ecosystems, and theoretical, physiological, molecular and evolutionary ecology.
-Excellent research and teaching facilities are available at the Scottish Centre for Ecology and the Natural Environment (SCENE) and Cochno Farm and Research Centre
-You will be encouraged to tailor the MSc Ecology and Environmental Biology programme to your own specific requirements and interests, within the limitations of the courses and projects offered.

Programme structure

The programme consists of a taught component, and two research projects in individual laboratories and/or field based.

The taught component consists of core research skills and specialist option in analytical and sampling techniques.

The main part of the degree, however, is devoted to experience of research techniques. You will carry out two 20-week research projects with individual placements chosen to reflect your interests and the skills you wish to acquire. After each project, you will write a scientific report.

Core and optional courses

Core Courses
-Key Research Skills
-Research Project (x 2)

Optional Courses
-Programming in R (prerequisite for all modelling and epidemiology)
-Infectious Disease Ecology & the Dynamics of Emerging Disease
-Single-species Models
-Conservation Genetics & Phylodynamics
-Freshwater Sampling Techniques
-Invertebrate Identification
-Molecular Analyses for DNA Barcoding and Biodiversity Measurement
-Phyloinformatics
-Vertebrate Identification

Career prospects

The programme will provide an excellent training for those who want to undertake a PhD programme and enter ecological management or conservation businesses. It should also serve as an excellent introduction to research in the UK for overseas students intending to proceed to a PhD in this country.

Some of the Institutions/Organisations our M.Res students went on to:
-Bremen Institute for Tropical Marine Ecology (ZMT)
-Clyde River Foundation
-Dakshin Foundation, India
-Victoria University, Wellington (New Zealand)
-University of Glasgow
-Warwick University

Some of the more exotic locations for MRes projects in recent years have included southern Brazil, Trinidad, Tobago, Kuwait, Egypt, Svalbard (Norway), Canada, the Azores (Portugal), Oman, Cayman Islands, and The Philippines.

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Run in collaboration with staff at Marine Scotland Science http://www.gov.scot/Topics/marine, this MSc programme will provide you with an appreciation of the key issues that are central to the management of marine resources, practical skills and field work experience that you can apply to real world situations, and opportunities to expand your professional network. Read more
Run in collaboration with staff at Marine Scotland Science http://www.gov.scot/Topics/marine, this MSc programme will provide you with an appreciation of the key issues that are central to the management of marine resources, practical skills and field work experience that you can apply to real world situations, and opportunities to expand your professional network.

COURSES
Semester 1

Compulsory
Marine Ecology and Ecosystem Management
Fish Biology
Population and Community Ecology
Experimental Design and Analysis
Introduction to GIS

Semester 2
Compulsory
Fisheries Technologies and Surveys
Fishery Analysis and Assessment
Research Project Planning

Optional
Sustainable Management of Marine Resources
Marine Spatial management and Top Predators
Spatial Information Analysis
Advanced Modelling for Ecology and Conservation
Ecology, Conservation and Society
Catchment Management

Semester 3
Research Project

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Aquaculture is now recognised as the fastest growth sector of agribusiness on a global scale – learn about this growing industry through our multidisciplinary approach, which places emphasis on sustainable use of aquatic and marine resources for commercial exploitation for food and products. Read more
Aquaculture is now recognised as the fastest growth sector of agribusiness on a global scale – learn about this growing industry through our multidisciplinary approach, which places emphasis on sustainable use of aquatic and marine resources for commercial exploitation for food and products. You’ll discover the scientific rationale for improving aquatic animal health, production and reducing environmental impact and address the socio-economic factors.

Key features

-Develop an appreciation for the growing aquaculture industry within a sustainable agenda for meeting the needs of culturing fish, crustacean, mollusc, aquatic plants and invertebrates for their products.
-Choose specialised modules and draw on the expertise of research active staff with proven track records of teaching and national as well as international recognition in their fields.
-Seize the opportunity to research an aspect of aquaculture.
-Undertake a variety of projects and technical training with our contemporary facilities such as wet labs/aquaria, nutrition and feed analytical suites as well as teaching laboratories, molecular biology and an electron microscopy centre.
-Learn from internationally recognised scientists and personnel from Plymouth University and the National Lobster Hatchery.
-Gain access to expertise from leaders in industry and commerce in a variety of aquaculture systems, advancing your technical and scientific knowledge.
-Benefit from our strong relationships with government agencies, commercial enterprising and advisory organisations.
-Join our well established postgraduate environment where PhD students interact and engage in related specialised areas to foster a sound academic forum for sharing ideas and technical knowledge.
-Graduate opportunities include various career paths within the aquaculture industry as well as associated fields relating to fish and shellfish health, welfare and research. Previous graduates have progressed into careers in these fields or PhD programmes in the UK, Europe, Asia and Africa.

Course details

You’ll learn about the scale and nature of the global industry and the challenges required to develop sustainable solutions. The programme reflects key aspects of fish, shellfish and algae production relating to modern aquaculture practices with emphasis on nutrition, feed management, health, welfare and sustainable technology. It also incorporates the socio-economic and geo-political developments in this expanding area as well as marketing and enterprise. Topics include: fish nutrition, feed technology, fish and shellfish health management, disease prevention and genetic improvement of stock for aquaculture; management of fish production, ornamental fish culture and global demand for aquatic trades in captive fish species; environmental and legislative regulations in different countries and the problems of aquaculture expansion in rural areas; economics of the marine environment; seafood processing; and a research project leading to your dissertation.

Core module
-BIO504 Health and Production in Aquaculture
-BIO505 Research Project
-BIO5125 Sustainable Use of Resources in Biological Systems
-BIO5131 Postgraduate Research Skills & Methods
-BIO5208 Contemporary Issues in Aquaculture

Optional modules
-MAR529 Marine Planning
-BIO5209 Seafood Processing - Current Perspectives
-MAR507 Economics of the Marine Environment

Every postgraduate taught course has a detailed programme specification document describing the programme aims, the programme structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

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Are you passionate about animal welfare and keen to shape the management of the zoos of the future? Students from over 20 nationalities have chosen our unique programme, the first of its kind in the world. Read more
Are you passionate about animal welfare and keen to shape the management of the zoos of the future? Students from over 20 nationalities have chosen our unique programme, the first of its kind in the world. Study factors affecting animal behaviour, conservation, welfare and their interactions, as well as international zoo management and collaboration. Our partnership with Paignton Zoo gives you regular access to their connections, research and expertise – so you’re primed to make a difference.

Key features

-Delivered in conjunction with the staff at Paignton Zoo and its parent body, the Whitley Wildlife Conservation Trust which also owns Newquay Zoo and Living Coasts.
-Develop your scientific knowledge, professional and technical skills as a conservation biologist. Learn how to manage animal collections for the purpose of education, conservation and wildlife research.
-Study aspects of animal behaviour and ecology, as well as how welfare, housing, nutrition and health all have a part to play in species management.
-Learn to troubleshoot problems at the level of a social group within a particular zoological collection, right up to the level of a species globally. Explore how breeding programmes for endangered species are international in scope.
-Benefit from the knowledge and guidance of Plymouth University’s expert staff with specialisms including the behaviour of captive animals, animal nutrition, the welfare of captive birds and the application of population genetics to captive and natural fish populations.
-Find out how the science of zoos is used to inform government policy. Two of our teaching team are the only academic representatives on the government’s Zoos Expert Committee.
-Get behind-the-scenes insight with a day of study each week with our partners at Paignton Zoo Environmental Park. Deepen your understanding of the business and conservation work of zoos, and how networks and collaborations work between them.
-Access the latest research and information from the Whitley Wildlife Conservation Trust, including information on their co-ordinated breeding programmes for endangered species.
-Be inspired by opportunities to visit a range of zoos in the region – including Dartmoor, Bristol and Newquay – and to travel abroad for research projects. A recent student travelled to Louisiana Zoo for her research project on golden tamarin monkeys.
-Graduates work in zoos as educators, researchers, managers and keepers. Many go on to PhD study or work in further education. Other employers include the European Association for Zoos and Aquaria; the Natural History Unit (BBC); national and international conservation organisations.

Course details

As a full-time student, you’ll study seven modules taking in everything from genetics to environmental enrichment, preventative health to budgeting. We update modules to reflect current thinking and you can specialise within them. If you’re interested in working with tigers, for example, this can be reflected across your work. You’ll be assessed through coursework with practical tasks focused on your future career. Core modules include introduction to zoo organisation, animal conservation, applied animal behaviour and management, animal metabolism and nutrition, animal health and welfare and business management. You’ll then do a final three-month research project of your choice. Previous investigations have included everything from female mate choice in white faced saki monkeys to how peripheral and/or invasive activity affects the behaviour and enclosure use of captive sand tiger sharks.

Core modules
-BIO505 Research Project
-ANIM5006 Contemporary Zoo Management
-BIO5131 Postgraduate Research Skills & Methods
-ANIM5005 Zoo Animal Behaviour and Welfare
-ANIM5007 Small Population Conservation
-ANIM5008 Conservation Ecology and Society
-ANIM5009 Zoo Animal Health, Nutrition and Management

Every postgraduate taught course has a detailed programme specification document describing the programme aims, the programme structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

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