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

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

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

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

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

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

Programme structure

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

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

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

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

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

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

Careers

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

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The degree is based around the bio-business teaching offered in the College of Life Sciences & Medicine. Students will be able to select other topics from a menu of courses with the help of an adviser to make up the 180 credits needed for the MSc degree of Bio-Business with Medical Sciences. Read more
The degree is based around the bio-business teaching offered in the College of Life Sciences & Medicine. Students will be able to select other topics from a menu of courses with the help of an adviser to make up the 180 credits needed for the MSc degree of Bio-Business with Medical Sciences. Topics include small molecule drug discovery, biologic drug discovery, molecular pharmacology, basic genetics, basic immunology and microbiology.

COURSES
Semester 1

Introduction to Bio-Business and the Commercialisation of Bioscience Research
Generic Skills
Basic Skills
Optional
Drug Metabolism & Toxicology
Molecular Pharmacology
Small Molecule Drug Discovery
Therapeutics
Introduction to Molecular Biology

Semester 2
Advanced Bio-Business and the Commercialisation of Bioscience Research
Biologic Drug Discovery
Basic Research Methods
Optional
Pharmacovigilance
Pharmacokinetics

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Biomedical scientists want to minimise the impact of diseases for humans and humankind. Smart, global visionaries are needed who want to solve health care issues in the lab and in the field. Read more
Biomedical scientists want to minimise the impact of diseases for humans and humankind. Smart, global visionaries are needed who want to solve health care issues in the lab and in the field.

Radboud University aims to educate the best biomedical scientists with not just a thorough understanding of the molecular, individual and population aspects of human health and disease, but also with unique areas of expertise. To do this we have constructed a Master’s programme in Biomedical Sciences that gives students the opportunity to construct their own programme based on personal academic and professional interests. Students choose one of three specialisations belonging to one of the research institutes and combine that with one of three career profiles. The research institute will be your learning environment, and a mentor of the institute will help you design your programme.

Biomedical Sciences specialisations and research institutes

For Molecular and cellular research, chose Radboud Institute for Molecular Life Sciences (RIMLS)
For Intervention, clinical and population research, chose Radboud Institute for Health Sciences (RIHS)
For Medical neuroscience, chose Donders Centre for Neuroscience
The programme provides students with a solid base in research methodology, statistics and biostatistics, laboratory research and communication skills. Leading scientists in fields ranging from metabolism, membrane transport, neuromuscular disease and inflammation to screening efficacy, clinical interventions and evidence-based medicine are involved in the teaching programme as lecturers and tutors.

A majority of our graduates become researchers in government departments, research organisations, universities and medical or pharmaceutical companies. Graduates also opt for careers as communication advisors or scientific consultant/advisor with a background in biomedical science, an expertise that is much in demand.

Why study Biomedical Sciences at Radboud University?

Possibility of specialising in any aspect of biomedical sciences from molecule (2 specialisations) to man (1 specialisation) to population (3 specialisations).
You can design your own programme so you can make it truly fit your academic and professional interests. A tutor will help you set up the best possible programme.
The programme has a strong career-driven focus with embedding in a research institute as a starting professional, room for long internships and the possibility to choose between a career profile in research, communication or consultancy.
Health care issues and biomedical research are placed in context. In the programme links are made between research and patient care (from bench to bedside), and vice versa.
Biomedical Sciences at Radboud University has a great reputation and graduates are highly valued by research institutes and health-care organisations all over the world.
Each of the three research institutes has its own mentors that are responsible for maintaining the quality of the programme as well as for coaching students in their specialist area. This system provides intensive career consultancy – an extremely valuable feature which is often lacking in other educational programmes in this field.

Change perspective

Thanks to the flexibility of designing a personal programme, graduates of the Radboud University’s Master’s programme in Biomedical Sciences will have developed a truly unique expertise in the field of biomedical science. You can broaden your view from molecule to man to population, or go in-depth into just one of these areas. Either way, you will have gained a new and refreshing perspective. And the intensive internships will guarantee you are prepared to enter the work force so that you can quickly start to play a vital role in improving human health.

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A ground-breaking MA in Games Design and Development, combining existing NFTS expertise in character creation, storytelling, design, animation, sound, and more, with input from games industry experts in games design, games art, games production and games audio. Read more
A ground-breaking MA in Games Design and Development, combining existing NFTS expertise in character creation, storytelling, design, animation, sound, and more, with input from games industry experts in games design, games art, games production and games audio.

Quick Facts:

2 Year Course
Full-time
Course runs Jan-Dec each year
Next intake: January 2017
NFTS Scholarships available for UK Students

Visit the website https://nfts.co.uk/our-courses/masters/games-design-development

APPLICATION DEADLINE: 07 JUL 2016

COURSE OVERVIEW

- Study games design and development working alongside the film and television industry’s best and brightest future prospects.
- Build up an in depth fluency in all games design and development disciplines.Develop industry contacts through conferences, event attendance, trade association involvement and visits from industry practitioners and luminaries.
- Gain a practical knowledge of games software development, and the ability to experiment with new pipelines and evolving technologies and techniques.
- Work on high profile solo and group projects, with plenty of opportunities to experiment, innovate and excel.
- Unlike other schools, production costs are met by the School.

Taught by leading games practitioners and experts in the field, our MA in Games Design and Development is a world-leading postgraduate games programme with the reputation, accreditation and alumni credits to back this up. Learning and working alongside film, television and animation practitioners, the course provides a unique opportunity for future games innovators to hone their creative and technical skills, developing fluency in all the core videogames development disciplines such as games design, code, art, animation, production, audio, interface and more. The NFTS provides MA Games students with an unrivalled creative context, as well as the inestimable collaborative opportunities presented by the course’s setting at the heart of the NFTS media development and production studios.

WHY STUDY GAMES DESIGN AND DEVELOPMENT?

Videogames are a relatively young medium, in a continual state of innovation and evolution, which means creatively there is still everything to play for. New platforms and technologies have broadened out the field, with fantastic opportunities for technical invention and artistic innovation. The NFTS Games course provides the practical skills and creative knowhow to design, devise and make games from inception to delivery, and the vision and temperament to provide creative leadership in an industry which continually strives to increase its cultural reach, broaden its audiences and create new and engaging experiences for an innovation-hungry marketplace. Games students develop projects in collaboration with students from other NFTS disciplines including sound design, composing, screenwriting, cinematography, producing, production design, digital effects, editing and production management.

*There are a number of different scholarships that support this course, including the Wellcome Trust Science Media Studentship. For more information see Scholarships and the Wellcome Trust - http://www.wellcome.ac.uk/Funding/Public-engagement/Funding-schemes/Broadcast-games-and-film-awards/Science-Media-Studentships/index.htm

CURRICULUM

In the first year students undertake a series of set projects – both group and solo – during which they also learn core games development disciplines of design, art, animation, coding and production. The modules and workshops cover 3D modelling/animation, game programming (C#/Unity), game design, character creation, producing and project management. Students also take classes in Life Drawing and theory lectures in cultural and critical studies to support their practical work. In the second year students focus on their Final Major Project, working in multi-disciplinary teams with students from other disciplines. Numerous fruitful partnerships have been formed with sound designers, composers, screenwriters, producers, production designers, cinematographers, digital effects artists and others, but the exact composition of development teams varies according to the nature of the projects. External practitioners can also be brought in on projects where needed. Early in the second year students also undertake a detailed module on commercial aspects of game development and present professional business cases for their projects to a panel of experts as a practical output.

PORTFOLIO DEVELOPMENT AND PROJECT OUTPUT

Students develop a cumulative portfolio of work throughout the course. First year output will include the following projects at minimum: ‘Hello World’ (an extensive playable 3D environment made a as a group project); ‘App Factory’ (a mobile/tablet game); ‘Synthespian’ (a player controlled interactive character performing to a set text); ‘Moments of Consequence’ (a short interactive drama). Students work in teams with other school specialisms depending on the specifics of the project. Second year output is exhibited at major shows and expos in various stages during the year, as well as at the Games Graduation Expo which takes place alongside the NFTS Graduation Film, Television and Animation screenings in February.

Students also participate in competitions, game jams and external projects throughout the course, and work is shown and shared on NFTS Games department blog (http://www.nfts-games.com) as well as on students’ own individually maintained portfolio websites. The department also actively promotes student output and activity on our well-followed social media presences.

Final Projects are as varied and diverse as our student group. We’ve proudly presented cutting edge virtual reality experiences, a playable political thriller, episodic interactive dramas, comedic ghost stories, a Dostoevsky-inspired interactive story environment, a motion-controlled playable monster, an interactive romantic comedy, to name a handful. Many more on the way.

CREATIVE COMMUNITY

Since 2012, the NFTS Games course has fed into a creative community of alumni, course contacts, indie developers, games journalists and development studio people who visit the course and follow our work. Students entering the course rapidly become part of this community through networking events, meetup groups, conference attendance and involvement with industry associations such as UKIE, Bafta Games, Creative Skillset and others. Not only does this provide a healthy exchange of ideas and knowledge, but it also provides a network of contacts for future employment, partnership opportunities and funding sources.

A significant proportion of NFTS Games grads have secured funding or distribution for projects developed on the course and have formed their own studio start-ups to make them, while others go on to work at games studios such as Sony Computer Entertainment or Reloaded. Students have also been successful in securing grant funding for projects through our partnership with the Wellcome Trust. Our alumni have also had their fair share of awards and prizes.

INDUSTRY INPUT

As well as an advisory group including members drawn from Sony, Electronic Arts, Microsoft, Media Molecule, Bossa Studios, Natural Motion, NDreams and others, we have regular workshops delivered by experienced industry practitioners. Recent visiting tutors include Siobhan Reddy (Media Molecule), Imre Jele (Bossa Studios), Tara Saunders (Sony), Andrew Oliver (Radiant Worlds), Richard Lemarchant (ex Naughy Dog), Phil Harrison (ex Microsoft), Barry Mead (Fireproof games), Mike Bithell, Jess Curry (The Chinese Room). As well as giving overview talks, where time permits guest tutors have one-to-one sessions with students and give specific input of current project work.

The course is a member of the Sony Playstation®First programme which give students access to Sony PS4 devkits and professional software development kits. We are also a Creative Skillset accredited MA course.

ENTRY REQUIREMENTS

Games design and development students at the NFTS come from a wide range of backgrounds and prior experiences, and have demonstrated an excitement, aptitude, creativity and willingness to learn new skills. We actively seek a diverse and interesting group of people who have something new to bring into the games development fold. Successful applicants have come to us with previous qualifications from across the arts, sciences and humanities; and from all walks of life as far as profession and practice is concerned. Games development experience is welcome, but by no means essential.

The NFTS games course provides a truly unique opportunity to enter one of the most exciting creative industries of the modern age.

APPLY WITH

- A critical analysis of a computer game of your choice. No more than two sides A4, typed.
- A brief outline of the kind of game project you wish to undertake
- A digital portfolio containing samples of your work.

Feel free to contact the NFTS games department via for any further information. You can also keep up to date with all our latest developments on the course blog at
http://www.nfts-games.com , our facebook page http://www.facebook.com/NFTS.Games or twitter feed @NFTS_Games.

HOW TO APPLY

You can apply directly to us at the NFTS by clicking on the link below:

APPLY FOR GAMES DESIGN & DEVELOPMENT COURSE - https://nfts.co.uk/sign-me-up/apply-now/?nid=28

You can apply online, or download a word document of the application form to submit via email
When selecting your course, please ensure that you have read the entry requirements and details of the supporting materials that should accompany your application.

TIMING YOUR APPLICATION

We are happy to receive applications 24/7 and 365 days a year up until the deadline. That said, there is no particular advantage to submitting your application very early. The important thing is that your application shows us your latest work and tell us about your most recent filmmaking experiences.

Visit the Games Blog site - http://www.nfts-games.com/

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The MPhil is offered by the Department of Chemistry as a full-time period of research and introduces students to research skills and specialist knowledge. Read more
The MPhil is offered by the Department of Chemistry as a full-time period of research and introduces students to research skills and specialist knowledge. Students are integrated into the research culture of the Department by joining a research group, supervised by one of our academic staff, in one of the following areas of Chemistry:

Biological:

with a focus on enzymes, nucleic acids, protein folding and misfolding, and physical techniques; with relevance to health and disease, drug discovery, sensors, nanotechnology, ageing and energy research applications.

Materials Chemistry:

including surfaces, interfaces, polymers, nanoparticles and nanoporous materials, self assembly, and biomaterials, with applications relevant to: oil recovery and separation, catalysis, photovoltaics, fuel cells and batteries, crystallization and pharmaceutical formulation, gas sorption, energy, functional materials, biocompatible materials, computer memory, and sensors.

Physical Chemistry:

including atmospheric sciences, surfaces and interfaces, materials, and physical and chemical aspects of the behaviour of biopolymers and other soft systems.

Synthetic Chemistry:

including complex molecule synthesis, synthetic catalysis, synthetic assembly, synthetic biology and medicine, new technology for efficient synthesis, green synthesis, and preparation of new materials.

Theory, Modelling and Informatics:

including quantum dynamics, modelling soft materials, protein folding and binding, biomolecules in motion, pharmacological activity, molecular switches, redox chemistry, designing bioactive molecule and drugs, chemical biology, crystallography, and simulation of spectroscopic studies.

Potential supervisors and their area of research expertise may be found at Department of Chemistry (Research): http://www.ch.cam.ac.uk/research

Visit the website: http://www.graduate.study.cam.ac.uk/courses/directory/pcchmpmch

Course detail

Educational aims of the MPhil programme:

- to give students with relevant experience at first degree level the opportunity to carry out focussed research in the discipline under close supervision; and

- to give students the opportunity to acquire or develop skills and expertise relevant to their research interests and a broader set of transferable skills.

Learning Outcomes

By the end of the programme, students will have:

- a comprehensive understanding of techniques, and a thorough knowledge of the literature, applicable to their own research;
- demonstrated originality in the application of knowledge, together with a practical understanding of how research and enquiry are used to create and interpret knowledge in their field;
- shown abilities in the critical evaluation of current research and research techniques and methodologies;
- demonstrated some self-direction and originality in tackling and solving problems, and acted autonomously in the planning and implementation of research.

Format

The MPhil involves minimal formal teaching. Students may attend the Department's programme of research seminars and other graduate courses, including the Transferable Skills programme that forms part of the PhD programme. Informal opportunities to develop research skills also exist through mentoring and other opportunities by fellow students and members of staff. However, most research training is provided within the research group structure and all students are assigned a research supervisor.

All graduate students receive termly reports written by their supervisors.

Assessment

The scheme of examination for the MPhil in Chemistry shall consist of a thesis, of not more than 15,000 words in length, exclusive of tables, footnotes, bibliography, and appendices, on a subject approved by the Degree Committee for the Faculty of Physics and Chemistry, submitted for examination at the end of 11 months. The examination shall include an oral examination on the thesis and on the general field of knowledge within which it falls. The thesis shall provide evidence to satisfy the Examiners that a candidate can design and carry out investigations, assess and interpret the results obtained, and place the work in the wider perspectives of the subject.

Continuing

The Department offers a PhD in Chemistry course and MPhil students can apply to continue as a graduate student on this course.

MPhil students currently studying a relevant course at the University of Cambridge will need to pass their MPhil course (if examined only by thesis) or obtain a minimum merit (if there is a marked element) in order to be eligible to continue onto the PhD in Chemistry.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

There are no specific funding opportunities advertised for this course. For information on more general funding opportunities, please follow the link below.

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

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This course enables you to develop and further your knowledge of chemistry from our extensive range of modules. You can expand your interests by completing a research project to allow you to match it to your interests and career aspirations. Read more
This course enables you to develop and further your knowledge of chemistry from our extensive range of modules. You can expand your interests by completing a research project to allow you to match it to your interests and career aspirations.

Graduates from this course have gone on to work in sectors such as:
-pharmaceuticals
-liquid crystals
-defence
-advanced materials engineering

Core modules

-Research methods and independent study
-Research project

Optional modules

-Organic synthesis and characterisation of biologically active compounds
-Drug detection, analysis, and screening
-Inorganic chemistry beyond the molecule
-Physical properties of solid-state and nano-composite materials
-Chemotherapeutics

COME VISIT US ON OUR NEXT OPEN DAY!

Register here: https://www.ntu.ac.uk/university-life-and-nottingham/open-days/find-your-open-day/science-and-technology-postgraduate-and-professional-open-event2.

The course is a part of the School of Science and Technology (http://www.ntu.ac.uk/sat) which has first-class facilities (http://www.ntu.ac.uk/sat/facilities).

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This course provides advanced training in modern organic and medicinal chemistry from conception to production of novel drugs. It enables you to understand and experience the way modern small molecule medicine is developing. Read more

Course Overview

This course provides advanced training in modern organic and medicinal chemistry from conception to production of novel drugs. It enables you to understand and experience the way modern small molecule medicine is developing. You will gain hands-on experience of working within a medicinal chemistry team during your research project.

The course is suitable if you have a background in the chemical or pharmaceutical sciences. It includes 120 credits of taught modules and a 60 credit practical project.

Themes include drug design, metabolism and toxicology with an understanding of synthetic organic chemistry. Building on University research strengths, specialist topics include bio-imaging and modern approaches to chemotherapy. You will develop expertise in drug design as practised in the pharmaceutical industry and in academia.

You will also gain knowledge of modern and experimental therapies developing in the Northern Institute for Cancer Research.

Modules

For detailed module information see http://www.ncl.ac.uk/postgraduate/courses/degrees/drug-chemistry-msc/#modules

How to apply

For course application information see http://www.ncl.ac.uk/postgraduate/courses/degrees/drug-chemistry-msc/#howtoapply

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The MRes in Biomedical Research offers advanced research training in a broad range of laboratory based medical science. The emphasis of the course is how to do successful research and the research area is decided by the student. Read more
The MRes in Biomedical Research offers advanced research training in a broad range of laboratory based medical science. The emphasis of the course is how to do successful research and the research area is decided by the student. Participating departments include Biomolecular Medicine, Molecular Medicine, Cancer Medicine, Reproductive and Developmental Biology, Anaesthetics, Pain Medicine and Intensive Care, Biosurgery and Surgical Technology, Leukocyte Biology and Cardiovascular Sciences.

The research interests of the participating departments cover many aspects of molecular, cellular and physiological science including Bacterial virulence, Biomarkers of disease, Bioinformatics, Carcinogenesis, Cancer Biology, Cell Biology, Cell Signalling, Chemokines and their receptors, DNA damage and Repair, Electrophysiology, Immunosuppression, Leukocyte biology, Live cell imaging, Metabolomics/Metabonomics, Microbial Pathogenesis, Molecular Genetics, Molecular Motors, Molecular Pharmacology, Molecular Toxicology, Muscle Physiology, and Vascular Development, Neurological receptors, Nuclear receptors, Sepsis, Single molecule microscopy, Stem Cell Biology.

Students complete two research projects of their own choosing and through a core programme learn how to collect, analyse and interpret scientific research findings. They learn how to prepare data for publication, how to present and defend research data at scientific meetings and how to put together a grant application. The core programme also introduces students to advanced research techniques through a series of workshops and offers students a wide range of transferable skills courses. In addition to the core programme, the course comprises of other streams that offer further opportunities in specific areas. The course is an excellent grounding for students wishing to pursue a career in research and about 90% of past graduates have progressed to the PhD degree.

Please visit the course website for more information about how to apply, and for more information about the streams of specialism which run within the course.

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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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The MSc in Cancer Chemistry provides a unique combination of skills in the chemistry and biology of cancer and gives direct experience of cutting-edge research. Read more
The MSc in Cancer Chemistry provides a unique combination of skills in the chemistry and biology of cancer and gives direct experience of cutting-edge research. The course covers new approaches to cancer diagnosis and treatment and involves the design and synthesis of small molecule cancer drugs. It prepares graduates for employment in the pharmaceutical industry and in academia.
The course modules are
Cancer Chemistry
Characterisation Methods
Introduction to Molecular Techniques
Research methods in Cell Biology
Advanced Topics in Cancer Biology
Research Methodologies
Research project

Applications are invited from graduates in chemistry or a related discipline and non-graduates with appropriate experience.

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Clinicians, scientists and students engaged in cancer research at Newcastle share a common purpose. to improve treatment outcomes for patients with cancer. Read more

Programme Overview

Clinicians, scientists and students engaged in cancer research at Newcastle share a common purpose: to improve treatment outcomes for patients with cancer. Work covers a broad spectrum - understanding the biological and molecular differences between normal and malignant cells and using this knowledge to develop new anti-cancer drugs.

Research Supervision

Exploratory biology, target and biomarker discovery
Molecular genetic and mechanistic studies are used to identify critical molecular changes in cancer and their relevance to disease development and progression, and to validate these as biomarkers and targets for therapeutic intervention. A wide range of contemporary genomic, bioinformatic, molecular biology, biochemical and cell biology techniques are used.

Studies focus on haematological malignancies (leukaemia and lymphoma), paediatric solid tumours (neuroblastoma and medulloblastoma), and adult solid tumours (eg breast, ovarian, prostate, bladder and liver cancers).

Drug development
The exploitation of novel targets is achieved by the use of rational drug design, notably the use of structure-based design, in conjunction with medium-throughput screening. Target molecule synthesis and multiple parallel synthesis approaches are used for lead optimisation, and candidate drugs are evaluated in cell-free and whole cell target-based assays.

Biomarker development
We exploit critical molecular defects as biomarkers to enhance disease detection and diagnosis, prediction of disease course, sensitivity to specific drugs and therapeutic monitoring. We play leading roles in molecular diagnostics, biomarker assessment and therapeutic monitoring for national and international clinical trials.

Clinical trials
Clinical trials (Phase I/II/III) are undertaken in both adults and children. Trials have a strong hypothesis-testing translational research component and are performed under the auspices of national or international research networks (eg CR–UK, CCLG, EORTC), as well as directly in collaboration with the pharmaceutical industry.

Training and Skills

As a research student you will receive a tailored package of academic and support elements to ensure you maximise your research and future career. The academic information is in the programme profile and you will be supported by our Faculty of Medical Sciences Graduate School.

For further information see http://www.ncl.ac.uk/postgraduate/courses/degrees/cancer-mphil-phd-md/#training&skills

How to apply

For course application information see http://www.ncl.ac.uk/postgraduate/courses/degrees/cancer-mphil-phd-md/#howtoapply

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The MRes in Analytical Chemistry is designed to meet the needs of a wide range of students. Read more
The MRes in Analytical Chemistry is designed to meet the needs of a wide range of students. In particular, it is geared towards the analytical professionals seeking to refresh their knowledge of analytical chemistry and recent graduates in a wide range of sciences allied to chemistry including, Biology, Chemistry, Environmental Science, Forensic Science and Physics.

This course enables you to develop and further your knowledge of chemical analysis, with a carefully put together range of core modules. You can expand your interests further by selecting module options and an analytical chemistry led research project within one of the diverse range of internationally recognised analytical chemistry research groups (alongside PhD students and post doctoral research fellows).

This is a new course which follows on from our well-established BSc Pharmaceutical and Medicinal Chemistry, BSc Chemistry and MChem Chemistry cluster of programmes.

We have links with scientists from AstraZeneca and Vectura who deliver some of the module content relevant to their workplace. Other guest lecturers from a variety of other companies and universities also present their research.

Modules

- Drug detection, analysis, and screening
- Research Methods and Independent Study
- Research Project
- Organic Synthesis and Characterisation of Biologically Active Compounds
- Physical Properties of Solid-state and Nanocomposite Materials
- Inorganic Chemistry Beyond the Molecule

COME VISIT US ON OUR NEXT OPEN DAY!

Register here: http://ow.ly/PvxT302hwoq. Can't make it to Nottingham, have a look around our Virtual Open Day - https://www4.ntu.ac.uk/virtual_open_day/.

The course is a part of the School of Science and Technology (http://www.ntu.ac.uk/sat) which has first-class facilities (http://www.ntu.ac.uk/sat/facilities).

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This course will provide you with the advanced knowledge, skills and attributes required for a career in analytical chemistry and its sub-disciplines, or act as a base for entry to PhD studies. Read more
This course will provide you with the advanced knowledge, skills and attributes required for a career in analytical chemistry and its sub-disciplines, or act as a base for entry to PhD studies.

This course enables you to develop and further your knowledge of Materials with a carefully put together range of core modules. You can expand your interests further by selecting a materials research project within one of the diverse range of internationally recognised material engineering research groups (alongside PhD students and post doctoral research fellows).

This is a new course that follows on from our well-established BSc Chemistry and MChem Chemistry cluster of programmes. Our staff were entered in the General Engineering section of the 2008 Research Assessment Exercise and were ranked as 4* (world-leading). These results put materials engineering research at NTU at the highest level and will inevitably appeal to potential students interested in furthering their studies in materials engineering.

We have links with scientists from AstraZeneca and Vectura who deliver some of the module content relevant to their workplace. Other guest lecturers from a variety of other companies and universities also present their research.

Modules

-Physical Properties of Solid-state and Nanocomposite Materials
-Inorganic Chemistry Beyond the Molecule
-Research Methods and Independent Study
-Research Project

COME VISIT US ON OUR NEXT OPEN DAY!

Register here: https://www.ntu.ac.uk/university-life-and-nottingham/open-days/find-your-open-day/science-and-technology-postgraduate-and-professional-open-event2.

The course is a part of the School of Science and Technology (http://www.ntu.ac.uk/sat) which has first-class facilities (http://www.ntu.ac.uk/sat/facilities).

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In our MSc in Drug Discovery and Development we train students in major areas of biochemical and molecular pharmacology and therapeutics relevant to the drug discovery and development business. Read more
In our MSc in Drug Discovery and Development we train students in major areas of biochemical and molecular pharmacology and therapeutics relevant to the drug discovery and development business. This includes training in molecular pharmacology, drug metabolism and toxicology, therapeutics, pharmacokinetics, pharmcovigilance, regulatory affairs and clinical pharmacology.

COURSES
Introduction to Bio-Business and Commercialisation of Bioscience Research
Drug Metabolism and Toxicology
Generic Skills
Basic Skills - Introduction
Small Molecule Drug Discovery

Semester 2
Advanced Bio- Business and the Commercialisation of Bioscience Research 2
Pharmokinetics
Basic Research Methods
Biologic Drug Discovery

Semester 3
Research Project

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We offer postgraduate research degrees in Physics at the MPhil and PhD level in all of our major research areas such as Emerging Technology and Materials, Applied Mathematics, and Photoelectron Spectroscopy. Read more

Course Overview

We offer postgraduate research degrees in Physics at the MPhil and PhD level in all of our major research areas such as Emerging Technology and Materials, Applied Mathematics, and Photoelectron Spectroscopy.

We supervise MPhil and PhD students whose interests match the expertise we have in our four main research themes.

Condensed matter and nanoscale physics

We research electronic, optical, structural and magnetic properties of novel solid-state materials, particularly novel semi-conductor structures and nanostructured materials such as nanocrystals and nanowires. Theoretical studies use quantum mechanical approaches and involve massively parallel supercomputing.

Our development of new approaches to quantum modelling is changing the size and complexity of systems that can be modelled. Experimental work takes place at synchrotron facilities in Europe and America and related work takes place with colleagues in the Emerging Technology and Materials (ETM) Group in the School of Electrical, Electronic and Computer Engineering.

Biophysics

Our research in biophysics explores the structure and function of cells with the aim of creating artificial life and building machines based on biological parts. Projects include protocell development and the construction of a cyborg robot. An understanding of biological physics is needed that uses techniques including single molecule manipulation, atomic force microscopy and scanning tunnelling microscopy.

Astrophysics

Galaxies and the interstellar medium, the source of the galactic magnetic field and its influence on the structure of the galaxy form the focus of our research in astrophysics. There is also interest in cosmology, particularly the early universe and its origin in the big bang.

Ultrafast optics

Our research focuses on coherent optical control of atomic collisions in ultracold gases by femtosecond laser light for studies of problems in fundamental physics, such as the measurement of time dependence of the fundamental constants of nature. We also research metrological protocols for characterisation of broadband light, specifically those relating to foundational aspects of quantum mechanics and its application.

Training and Skills

As a research student you will receive a tailored package of academic and support elements to ensure you maximise your research and future career. The academic information is in the programme profile and you will be supported by our Postgraduate Researcher Development Programme, doctoral training centres and Research Student Support Team.

For further information see http://www.ncl.ac.uk/postgraduate/courses/degrees/physics-mphil-phd/#training&skills

How to apply

For course application information see http://www.ncl.ac.uk/postgraduate/courses/degrees/physics-mphil-phd/#howtoapply

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