A High-Quality Genome-Scale Model for Rhodococcus opacus Metabolism

通量平衡分析 焊剂(冶金) 新陈代谢 转录组 代谢通量分析 计算生物学 化学 生物 生物化学 基因 有机化学 基因表达
作者
Garrett W. Roell,Christina Schenk,Winston E. Anthony,Rhiannon R. Carr,Aditya Ponukumati,Joonhoon Kim,Elena Akhmatskaya,Marcus Foston,Gautam Dantas,Tae Seok Moon,Yinjie J. Tang,Hector Garcia Martin
出处
期刊:ACS Synthetic Biology [American Chemical Society]
标识
DOI:10.1021/acssynbio.2c00618
摘要

Rhodococcus opacus is a bacterium that has a high tolerance to aromatic compounds and can produce significant amounts of triacylglycerol (TAG). Here, we present iGR1773, the first genome-scale model (GSM) of R. opacus PD630 metabolism based on its genomic sequence and associated data. The model includes 1773 genes, 3025 reactions, and 1956 metabolites, was developed in a reproducible manner using CarveMe, and was evaluated through Metabolic Model tests (MEMOTE). We combine the model with two Constraint-Based Reconstruction and Analysis (COBRA) methods that use transcriptomics data to predict growth rates and fluxes: E-Flux2 and SPOT (Simplified Pearson Correlation with Transcriptomic data). Growth rates are best predicted by E-Flux2. Flux profiles are more accurately predicted by E-Flux2 than flux balance analysis (FBA) and parsimonious FBA (pFBA), when compared to 44 central carbon fluxes measured by 13C-Metabolic Flux Analysis (13C-MFA). Under glucose-fed conditions, E-Flux2 presents an R2 value of 0.54, while predictions based on pFBA had an inferior R2 of 0.28. We attribute this improved performance to the extra activity information provided by the transcriptomics data. For phenol-fed metabolism, in which the substrate first enters the TCA cycle, E-Flux2’s flux predictions display a high R2 of 0.96 while pFBA showed an R2 of 0.93. We also show that glucose metabolism and phenol metabolism function with similar relative ATP maintenance costs. These findings demonstrate that iGR1773 can help the metabolic engineering community predict aromatic substrate utilization patterns and perform computational strain design.

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