Integrative analysis of metabolome and transcriptome reveals new insights into major quality formation and regulation in two strawberry cultivars with different fruit flavor

Integrative analysis of metabolome and transcriptome reveals new insights into major quality formation and regulation in two strawberry cultivars with different fruit flavor

Soluble sugars, organic acids, and vitamin C (AsA) are the major metabolites contributing to strawberry fruit quality. To date, the metabolomics and genetic information for the above metabolites are still limited. In this study, we integrated the metabolome and transcriptome in two cultivars with re...

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Main Authors: Lingzhi Wei, Huabo Liu, Yang Ni, Rong Xiong, Shuangtao Li, Rui Sun, Yongqing Wei, Hongli Zhang, Jing Dong, Linlin Chang, Chuanfei Zhong, Yuntao Zhang, Jian Sun, Guixia Wang, Yongshun Gao
Format: Article
Language:English
Published: Maximum Academic Press 2024-01-01
Series:Vegetable Research
Subjects:
metabolome
transcriptome
strawberry
fruit flavor
co-expression
regulatory factor
Online Access:https://www.maxapress.com/article/doi/10.48130/vegres-0024-0011
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Summary:Soluble sugars, organic acids, and vitamin C (AsA) are the major metabolites contributing to strawberry fruit quality. To date, the metabolomics and genetic information for the above metabolites are still limited. In this study, we integrated the metabolome and transcriptome in two cultivars with remarkably different fruit quality. The significant difference of fructose, sucrose, and malic acid content illustrated the flavor discrepancy in two cultivars, in addition, the recycling pathway was showed to play a vital role in AsA accumulation. Conjoint analysis implied the key metabolizing enzymes related to soluble sugars, organic acids and AsA, respectively, further construction of co-expression regulatory networks identified the transcription factors for the above structural genes. Specifically, it was suggested that the accumulation of soluble sugars and AsA were highly likely to be synchronously regulated by MYB, bHLH, NAC, AP2 and bZIP family members during fruit ripening. This work provides new insights into the accumulation and regulation of core metabolites in strawberry fruits, and the identified gene resources are promising for further improvement of strawberry fruit quality with molecular breeding.
ISSN:2769-0520

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