GEN2052 - Genomics and population genetics - 2017

The structure, function, variation and evolution of DNA and of genomes are examined at both the individual and population levels in a range of organisms, including humans. Topics include: genome structure and approaches to genome analysis; genome projects and bioinformatics; functional and comparative genomics; evolution of gene families and movement of genes from organelle to nuclear genomes; genome variation between individuals and species and its applications in genetics; processes that change the genetic constitution of populations and species during evolution.

On completion of this unit students will be able to:

1. Explain how genes are organised in chromosomes and genomes and the implications of this for gene expression and function, how genomes are mapped and sequenced, how genes and genomes are analysed at a molecular level, and the uses of genomics in modern genetic research;
2. Illustrate how DNA and genomes change and the implications of this for evolution and its uses in modern applications such as DNA profiling;
3. Explain how genes behave in populations, describe concepts such as mutation and genetic drift, and illustrate how genetic variation can result in fitness differences that may drive evolution through the process of natural selection;
4. Describe the relevance and value of genetics to human society;
5. Demonstrate skills in basic laboratory techniques, in population genetics and genomics problem-solving and experimental design, and in data collection, analysis, interpretation and presentation;

Examination (2 hours): 50%

Practical reports and lecture quizzes: 45%

Weekly problem sets: 5%

Two 1-hour lectures and one 3-hour combined tutorial/laboratory session per week

See also Unit timetable information

Dr Kay Hodgins

Genetics

BIO1011 and one of BIO1022 or BIO1042, plus GEN2041

BMS2042