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Research in this area will examine systems responsible for maintaining genome integrity and securing accurate chromosome transmission in bacteria, archaea, yeast and vertebrates. It will also examine the genetics and biochemistry of bacterial motility. Specific projects will focus on chromosome biology, the mechanics of homologous recombination and DNA repair, flagellar motors and motile predatory bacteria. Telomere biology and genome dynamics are also major areas of interest. APPLICATION PROCEDURES After identifying which Masters you wish to pursue please complete an on-line application form https:pgapps.nottingham.ac.uk Mark clearly on this form your choice of course title, give a brief outline of your proposed research and follow the automated prompts to provide documentation. Once the School has your application and accompanying documents (eg referees reports, transcriptscertificates) your application will be matched to an appropriate academic supervisor and considered for an offer of admission. COURSE STRUCTURE The MRes degree course consists of two elements: 160 credits of assessed work. The assessed work will normally be based entirely on a research project and will be the equivalent of around 10 ? months research work. AND 20 credits of non-assessed generic training. Credits can be accumulated from any of the courses offered by the Graduate School. http:www.nottingham.ac.ukgradschoolresearch-trainingindex.phtml The generic courses should be chosen by the student in consultation with the supervisor(s). ASSESSMENT The research project will normally be assessed by a dissertation of a maximum of 30,000 to 35,000 words, or equivalent as appropriate*. The examiners may if they so wish require the student to attend a viva. *In consultation with the supervisor it maybe possible for students to elect to do a shorter research project and take a maximum of 40 credits of assessed modules. The School of Biology will provide each postgraduate research student with a laptop for their exclusive use for the duration of their studies in the School.

Research in this area will examine systems responsible for maintaining genome integrity and securing accurate chromosome transmission in bacteria, archaea, yeast and vertebrates. It will also examine the genetics and biochemistry of bacterial motility. Specific projects will focus on chromosome biology, the mechanics of homologous recombination and DNA repair, flagellar motors and motile...

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