Yeast9: a consensus genome-scale metabolic model for S. cerevisiae curated by the community

Chengyu Zhang; Benjamín J Sánchez; Feiran Li; Cheng Wei Quan Eiden; William T Scott; Ulf W Liebal; Lars M Blank; Hendrik G Mengers; Mihail Anton; Albert Tafur Rangel; Sebastián N Mendoza; Lixin Zhang; Jens Nielsen; Hongzhong Lu; Eduard J Kerkhoven

doi:10.1038/s44320-024-00060-7

Molecular Systems Biology (Aug 2024)

Yeast9: a consensus genome-scale metabolic model for S. cerevisiae curated by the community

Chengyu Zhang,
Benjamín J Sánchez,
Feiran Li,
Cheng Wei Quan Eiden,
William T Scott,
Ulf W Liebal,
Lars M Blank,
Hendrik G Mengers,
Mihail Anton,
Albert Tafur Rangel,
Sebastián N Mendoza,
Lixin Zhang,
Jens Nielsen,
Hongzhong Lu,
Eduard J Kerkhoven

Affiliations

Chengyu Zhang: State Key Laboratory of Microbial Metabolism, School of Life Sciences and Biotechnology, Shanghai Jiao Tong University
Benjamín J Sánchez: The Novo Nordisk Foundation Center for Biosustainability, Technical University of Denmark
Feiran Li: Institute of Biopharmaceutical and Health Engineering, Tsinghua Shenzhen International Graduate School, Tsinghua University
Cheng Wei Quan Eiden: School of Chemistry, Chemical Engineering and Biotechnology, Nanyang Technological University
William T Scott: UNLOCK, Wageningen University & Research
Ulf W Liebal: Institute of Applied Microbiology - iAMB, Aachen Biology and Biotechnology - ABBt, RWTH Aachen University
Lars M Blank: Institute of Applied Microbiology - iAMB, Aachen Biology and Biotechnology - ABBt, RWTH Aachen University
Hendrik G Mengers: Institute of Applied Microbiology - iAMB, Aachen Biology and Biotechnology - ABBt, RWTH Aachen University
Mihail Anton: Department of Life Sciences, National Bioinformatics Infrastructure Sweden, Science for Life Laboratory, Chalmers University of Technology
Albert Tafur Rangel: The Novo Nordisk Foundation Center for Biosustainability, Technical University of Denmark
Sebastián N Mendoza: Center for Mathematical Modeling, University of Chile
Lixin Zhang: State Key Laboratory of Bioreactor Engineering, and School of Biotechnology, East China University of Science and Technology (ECUST)
Jens Nielsen: Department of Life Sciences, Chalmers University of Technology
Hongzhong Lu: State Key Laboratory of Microbial Metabolism, School of Life Sciences and Biotechnology, Shanghai Jiao Tong University
Eduard J Kerkhoven: The Novo Nordisk Foundation Center for Biosustainability, Technical University of Denmark

DOI: https://doi.org/10.1038/s44320-024-00060-7
Journal volume & issue: Vol. 20, no. 10
pp. 1134 – 1150

Abstract

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Abstract Genome-scale metabolic models (GEMs) can facilitate metabolism-focused multi-omics integrative analysis. Since Yeast8, the yeast-GEM of Saccharomyces cerevisiae, published in 2019, has been continuously updated by the community. This has increased the quality and scope of the model, culminating now in Yeast9. To evaluate its predictive performance, we generated 163 condition-specific GEMs constrained by single-cell transcriptomics from osmotic pressure or reference conditions. Comparative flux analysis showed that yeast adapting to high osmotic pressure benefits from upregulating fluxes through central carbon metabolism. Furthermore, combining Yeast9 with proteomics revealed metabolic rewiring underlying its preference for nitrogen sources. Lastly, we created strain-specific GEMs (ssGEMs) constrained by transcriptomics for 1229 mutant strains. Well able to predict the strains’ growth rates, fluxomics from those large-scale ssGEMs outperformed transcriptomics in predicting functional categories for all studied genes in machine learning models. Based on those findings we anticipate that Yeast9 will continue to empower systems biology studies of yeast metabolism.

Published in Molecular Systems Biology

ISSN: 1744-4292 (Online)
Publisher: Springer Nature
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General); Medicine: Medicine (General)
Website: https://www.embopress.org/journal/17444292

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