Litcius/Paper detail

Regulation by fungal endophyte of <i>Rhodiola crenulata</i> from enzyme genes to metabolites based on combination of transcriptome and metabolome

Jin‐Long Cui, Xiaoyin Gao, Vinod Vijayakumar, Zhang‐Xuan Guo, Meng‐Liang Wang, Jun‐Hong Wang, Lei Liu

2020Journal of the Science of Food and Agriculture10 citationsDOI

Abstract

BACKGROUND: The contents of some its crucial metabolites tend to decrease when Rhodiola crenulata is cultured at low altitude. Interestingly, it was found that an endophyte, Phialocephala fortinii, could alleviate this problem. RESULTS: There were 16 151 differential genes including 14 706 up-regulated and 1445 down-regulated unigenes with significant differences (P < 0.05), and a total of 1432 metabolites exhibited statistically significant (P < 0.05) metabolic differences comprising 27 different marker metabolites which showed highly significant values of VIP > 5 and P < 0.01. Results highlight differential regulation of 20 enzymatic genes that are involved in the biosynthesis of five different marker metabolites including acetaldehyde, homocysteine, cyclopropylamine, 1-pyrrolinium and halistanol sulfate. CONCLUSIONS: The positive physiological effect of P. fortinii on R. crenulata encompasses differential regulation in carbohydrate metabolism, lipid metabolism and secondary metabolite synthesis. © 2020 Society of Chemical Industry.

Topics & Concepts

MetabolomeMetaboliteBiologyTranscriptomeBiochemistryMetabolomicsMetabolic pathwayRhodiolaEnzymeMetabolismEndophyteAcetaldehydeGeneBotanyGene expressionSalidrosidePharmacologyBioinformaticsEthanolMedicinal Plants and Bioactive CompoundsBiochemical Acid Research StudiesGut microbiota and health
Regulation by fungal endophyte of <i>Rhodiola crenulata</i> from enzyme genes to metabolites based on combination of transcriptome and metabolome | Litcius