Graduate Studies
First Advisor
Rajib Saha
Degree Name
Doctor of Philosophy (Ph.D.)
Department
Chemical and Biomolecular Engineering
Date of this Version
10-2024
Document Type
Dissertation
Citation
A dissertation presented to the faculty of the Graduate College at the University of nebraska in partial fulfillment of requirements for the degree of Doctor of Philosophy
Major: Chemical & Biomolecular Engineering
Under the supervision of Professor Rajib Saha
Lincoln, Nebraska, October 2024
Abstract
Predicting phenotypes from genotypes is a central challenge in systems biology in understanding how organisms respond to environmental and genetic changes. To address this, genome-scale metabolic models (GSMs) integrated with omics data and machine learning provide a comprehensive framework to connect genotype to phenotype. This dissertation utilizes these approaches in plants and bacterial systems, revealing key metabolic adaptations. In maize, a root-specific GSM reveals metabolic reprogramming under nitrogen stress, offering strategies for improving stress tolerance. Building on this, a multi-organ maize GSM of temperature stress identifies metabolic bottlenecks, providing targets to enhance crop resilience. Similarly, in rice, a grain-specific GSM uncovers metabolic markers tied to grain chalkiness under rising night temperatures, providing strategies for better crop quality. Moving to bacterial systems, a GSM of Rhodopseudomonas palustris explores regulatory pathways controlling cellular redox balance, while a Chlamydia trachomatis model identifies enzymes vital for persistence during nutrient deprivation. To complement these findings, machine learning models, based on omics data, predict bacterial growth responses to lignin degradation in R. palustris, identifying genes critical for growth. Together, these integrated approaches demonstrate the power of GSMs and machine learning in predicting phenotypes.
Advisor: Rajib Saha
Recommended Citation
Chowdhury, Niaz Bahar, "A Systems Biology Approach to Predict Phenotypes from Genotypes for Plants and Bacteria" (2024). Dissertations and Doctoral Documents from University of Nebraska-Lincoln, 2023–. 215.
https://digitalcommons.unl.edu/dissunl/215
Comments
Copyright 2024, Niaz Bahar Chowdhury. Used by permission