A third study was a computational and statistical methods in the identification and analysis of a putative minimal mycolic acid bacterial genome so as to better understand (1) the genomic requirements to encode a mycolic acid bacterial cell and (2) the role and type of genes and genetic elements that lead to the massive increase in genome size in environmental mycolic acid bacteria. Using a reciprocal comparison approach, a total of 690 orthologous gene clusters forming a putative minimal genome were identified across 24 mycolic acid bacterial species. In order to identify new potential drug candidates against the pathogenic mycolic acid bacteria, a drug target analysis of the protein-coding genes, that are conserved across 15 pathogens, identified a total of 175 potential broad spectrum drug candidates. The activity of the predicted targets can be modified by a total of 306 chemical compounds, 34 of which have been approved by the Food and Drug Administration (FDA), for human treatment.
|Date of Award||Dec 2012|
|Original language||English (US)|
- Computer, Electrical and Mathematical Science and Engineering
|Supervisor||Vladimir Bajic (Supervisor) & John Archer (Supervisor)|
- Mycolic Acid Bacteria