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University of Birmingham Masters Degrees in Genetics

We have 3 University of Birmingham Masters Degrees in Genetics

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

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

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

Course details

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

Programme content

Modules (all core) are as follows:

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

Module descriptions can be found here

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

Skills gained

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

Careers

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

Related links

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

Learning and teaching

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

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

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

Employability

What can I do with an MSc in Molecular Biotechnology?

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

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



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The course is especially designed for healthcare professionals from a range of backgrounds. Read more

The course is especially designed for healthcare professionals from a range of backgrounds. It follows a syllabus specified by Health Education England (HEE) for training NHS staff in Genomic Medicine, and HEE has ring-fenced funding to allow NHS staff to study for the MSc (Genomic Medicine) at accredited provider institutions, including Birmingham.

Further information about HEE funding is now available. You can choose to study for the full Masters, the intermediate qualifications of Postgraduate Diploma or Postgraduate Certificate, or select individual modules as CPD.

The course is also suitable for other Home/EU or international students who wish to learn about the advances in genomics and bioinformatics particularly as relevant to medical applications, and the challenges of introducing the technology into a healthcare system.

Course details

The Programme aims to equip you with the knowledge, understanding and skills relating to genomics that will empower you to help lead the holistic integration of genomic technology into patient care within the National Health Service, including via the ambitious Genomics England Ltd (GeL) 100,000 Genomes Project which commenced in 2015.

The course begins with a brief revision of DNA, genes and genetics and updates these concepts to the scale of contemporary, whole-genome information. It will introduce to you the technologies for generating genome-wide data, and how the resulting vast quantities of data can be approached and interrogated to generate meaningful information that can be useful for families affected by inherited conditions, or for patients with acquired diseases including cancer and infections.

You will learn how to interrogate genomic data using bioinformatic tools to identify and investigate the pathogenicity of genetic variants, and relate these to real-life case-studies. The core modules also include consideration of the ethical, legal and social issues that surround genomic medicine, which can be further explored in an optional module. Other options include counselling skills and advanced bioinformatics.

Finally, you can choose either a 60-credit research project (which could be a computer-based bioinformatics project, a lab-based or clinically-based project, either in Birmingham or at your home institution), or a 30-credit dissertation (combined with additional taught modules), to hone your research skills while exploring a genomics-related project of your choice.

Learning and teaching

As a Birmingham student, you will be joining the academic elite and will have the privilege of learning from world-leading experts, as well as from your peers. From the outset you will be encouraged to become an independent and self-motivated learner. We want you to be challenged and will encourage you to think for yourself.

The course combines face-to-face teaching in lectures, tutorials, workshops, student presentations etc. with independent or group learning, which can be done remotely, using published papers or online resources. Following a 2-day Induction, the face-to-face teaching of most modules is delivered over 5 days, either consecutive (for the two introductory modules), or spread over 5 weeks for most others.

You will have access to a comprehensive support system that will assist and encourage you, including personal tutors and welfare tutors who can help with both academic and welfare issues.

Employability

The course is especially designed for healthcare professionals working within the National Health Service, to improve their capabilities and support career progression. It could be similarly beneficial for those working or aspiring to work in other healthcare systems.

Students who are not healthcare professionals would acquire knowledge, understanding and skills that should help them gain employment or PhD positions especially in the expanding fields of genomics, bioinformatics, or other medically-related research and development in either academia or the pharmaceutical industry.

We have gathered some profiles to give you an idea of the breadth of students we have on our programme.



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One of the most rapidly developing areas of toxicology. . This programme provides students with a research-orientated training in the application of molecular and cell biology to develop an understanding of chemical toxicity at the cellular and molecular level. Read more

One of the most rapidly developing areas of toxicology. 

This programme provides students with a research-orientated training in the application of molecular and cell biology to develop an understanding of chemical toxicity at the cellular and molecular level. You will study within a lively, highly interactive teaching and research environment.

Course details

One of the most rapidly developing areas of toxicology is the use of molecular, cell biology and omics to identify adverse outcome pathways (AOPs) and to develop a mechanistic understanding of chemical toxicity at the cellular and molecular level. This is not only of fundamental interest (i.e., understanding the mechanism of action) but it also relates to an increased need for a mechanistic component in chemical risk assessment and development of high throughput screens for chemical toxicity.

The MRes in Molecular Mechanistic Toxicology is a one-year full-time programme that provides students with a research-orientated training in a lively, highly interactive teaching and research environment.

Programme content

The programme is coordinated by the School of Biosciences, which is recognised internationally as a major centre for both teaching and research in Toxicology. Molecular Toxicology is a major component of the School of Biosciences research activities along with interactions with other departments including Chemistry and the Medical School.

Specific areas of active research include:

  • Mechanisms of cell toxicity
  • Development of novel DNA binding chemicals
  • Cellular proliferation and differentiation
  • Environmental genomics and metabolomics
  • Molecular biomarkers of genotoxicity, oxidative stress and cellular responses
  • Role of environmental and genetic factors in disease

Learning and teaching

Two five-week taught modules are held in Semester 1 in conjunction with the taught MSc in Toxicology programme. Training in generic and laboratory research skills is also an important element of the programme. The programme also includes a six-month research project, which provides students with an opportunity for further advanced research training and hands-on experience of molecular and cellular biology techniques embedded in a research laboratory. Research projects can take place either in academic or industrial institutions.

Semester 1

  • Module 1 Metabolism and Mechanisms of Toxicity (20 credits)
  • Module 2 Forensic, Clinical and Occupational Toxicology (20 credits)
  • Skills Module (10 credits)

Semester 2:

  • Laboratory research project (130 credits)

Assessment

You will be taught through a combination of lectures, tutorials, coursework, practical classes, student seminars and placement in a research laboratory. The taught component is assessed by a combination of examinations and coursework. The dissertation component is assessed by preparation of a research thesis. 

Skills gained

After completing the course you will have gained a detailed knowledge of the molecular mechanisms of chemical toxicity (e.g. polymorphisms and metabolism, genotoxic and non-genotoxic carcinogens, mechanisms of apoptosis, cDNA microarray and other high throughput screening strategies). You will also be able to critically evaluate and interpret available scientific literature, and effectively present the results of your research to peers using both written reports and oral communications. The programme will help you to develop laboratory skills and enable you to effectively interact in a research laboratory setting.

Careers

There is a demand for Toxicologists with molecular biology training in industry and other research organisations. The skills you gain from this course will stand you in good stead to enter research-based careers in the pharmaceutical industry and the medical sciences. You will also have enhanced your opportunities to further your research training by studying for the degree of PhD.



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