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Enhancing Genome-Scale Model by Integrative Exometabolome and Transcriptome: Unveiling Carbon Assimilation towards Sphingolipid Biosynthetic Capability of Cordyceps militaris

Authors :
Pattsarun Cheawchanlertfa
Suwalak Chitcharoen
Nachon Raethong
Qing Liu
Pramote Chumnanpuen
Panyawarin Soommat
Yuanda Song
Mattheos Koffas
Kobkul Laoteng
Wanwipa Vongsangnak
Source :
Journal of Fungi, Vol 8, Iss 8, p 887 (2022)
Publication Year :
2022
Publisher :
MDPI AG, 2022.

Abstract

Cordyceps militaris is an industrially important fungus, which is often used in Asia as traditional medicine. There has been a published genome-scale metabolic model (GSMM) of C. militaris useful for predicting its growth behaviors; however, lipid metabolism, which plays a vital role in cellular functions, remains incomplete in the GSMM of C. militaris. A comprehensive study on C. militaris was thus performed by enhancing GSMM through integrative analysis of metabolic footprint and transcriptome data. Through the enhanced GSMM of C. militaris (called iPC1469), it contained 1469 genes, 1904 metabolic reactions and 1229 metabolites. After model evaluation, in silico growth simulation results agreed well with the experimental data of the fungal growths on different carbon sources. Beyond the model-driven integrative data analysis, interestingly, we found key metabolic responses in alteration of lipid metabolism in C. militaris upon different carbon sources. The sphingoid bases (e.g., sphinganine, sphingosine, and phytosphingosine) and ceramide were statistically significant accumulated in the xylose culture when compared with other cultures; this study suggests that the sphingolipid biosynthetic capability in C. militaris was dependent on the carbon source assimilated for cell growth; this finding provides a comprehensive basis for the sphingolipid biosynthesis in C. militaris that can help to further redesign its metabolic control for medicinal and functional food applications.

Details

Language :
English
ISSN :
2309608X
Volume :
8
Issue :
8
Database :
Directory of Open Access Journals
Journal :
Journal of Fungi
Publication Type :
Academic Journal
Accession number :
edsdoj.6b8db272f9946c198dcbdde59d468be
Document Type :
article
Full Text :
https://doi.org/10.3390/jof8080887