SUPR
Ross King Lab - AlexanderG RNA analysis computation
Dnr:

NAISS 2024/22-146

Type:

NAISS Small Compute

Principal Investigator:

Alexander Gower

Affiliation:

Chalmers tekniska högskola

Start Date:

2024-02-29

End Date:

2025-03-01

Primary Classification:

10610: Bioinformatics and Systems Biology (methods development to be 10203)

Webpage:

Allocation

Abstract

Scientific discovery in biology is difficult due to the complexity of the systems involved and the expense of obtaining high quality experimental data. Automated techniques are a promising way to make scientific discoveries at the scale and pace required to model large biological systems. A key problem for 21st century biology is to build a computational model of the eukaryotic cell. The yeast Saccharomyces cerevisiae is the best understood eukaryote, and genome-scale metabolic models (GEMs) are rich sources of background knowledge that we can use as a basis for automated inference and investigation. We are developing LGEM+, a system for automated abductive improvement of GEMs consisting of: a compartmentalised first-order logic framework for describing biochemical pathways (using curated GEMs as the expert knowledge source); and a two-stage hypothesis abduction procedure. We are testing these hypotheses using in vivo experiments, and we plan to compare predictions of metabolic network configuration and transcriptomic profiles with the experimentally acquired data.