The sequencing of the human genome was a landmark achievement in science and medicine, marking the 'Age of Genomics'. Now we can access the blueprints for life, but need to uncover how those blueprints work, allowing organisms to respond to internal and external environmental changes, and how we can utilise this plethora of DNA sequence information to improve human and planetary health. This unit will investigate the function of the genome by examining the proteome, metabolome and beyond. You will investigate links between the central dogma of molecular biology and the complexities of living genomes - from modifications that massively increase diversity to the dynamic metabolome. You will explore fundamental cellular processes and discover how they are shaped by the proteome via gene expression, post-translational modification and protein complex formation. These processes will be examined in the context of human health and cardiovascular and metabolic disorders (e. g. type 2 diabetes) to demonstrate how global approaches can define, diagnose and help develop treatments for disease. You will practice methods employed in the post-genome era, including the 'Multi-omics' approaches that provide a global view of living systems, and discover how they are applied to solve problems in biology, biomedicine and agriculture. Beyond the Genome (Advanced) has the same overall structure as BCMB3004 but focuses on a more advanced level of practical work, data analysis and interpretation, using cutting-edge technologies. By the end of the unit students will understand why global 'omics approaches are needed in the post-genome era and know how best to apply such tools to given biological and biomedical problems.
lectures 2 hrs/week, practicals 3 hrs/week, 4 x 1 hr advanced tutorials, 8 x 1 hr advanced practicals
4 x in-practical reports (10%), take-home computational practical (5%), 1000-1500wd scientific report (10%), mid-semester quiz (10%), 1500-2000wd data analysis and interpretation scientific report (15%), final exam (50%)
Students should understand basic concepts in human, mammalian, plant and/or prokaryotic biology. Students should have a basic understanding of the 'genome' and of the central dogma of molecular biology (gene transcription and protein translation). Additional knowledge of basic chemistry and protein biochemistry will be helpful.
An average mark of 75 or above in 12 credit points from (AMED3001 or BCHM2X71 or BCHM2X72 or BCHM3XXX or BCMB2X01 or BCMB2X02 or BCMB3XXX or BIOL2X29 or BMED2401 or BMED2405 or GEGE2X01 or MBLG2X01 or MEDS2002 or MEDS2003 or PCOL2X21 or QBIO2001)Prohibitions
BCHM3X92 or BCMB3004