Transcriptome and metabolome profiling of interspecific CSSLs reveals general and specific mechanisms of drought resistance in cotton

Update date: 20 October 2022
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Bei HanFengjiao WangZhilin LiuLin ChenDandan YueWeinan SunZhongxu LinXianlong ZhangXiaofeng Zhou & Xiyan Yang

 

Theoretical and Applied Genetics October 2022; vol. 135: 3375–3391

 

Description: Assay of drought resistance of the two cotton cultivars. (A) Seedlings... |  Download Scientific Diagram

Figure: Assay of drought resistance of the two cotton cultivars. (Chen et al. 2013)

 

Abstract

In order to understand the molecular mechanism of cotton's response to drought during the flowering and boll stage, transcriptomics and metabolomics were carried out for two introgression lines (drought-tolerant line: T307; drought-sensitive line: S48) which were screened from Gossypium hirsutum cv. ‘Emian22’ with some gene fragments imported from Gossypium barbadense acc. 3–79, under drought stress by withdrawing water at flowering and boll stage. Results showed that the basic drought response in cotton included a series of broad-spectrum responses, such as amino acid synthesis, hormone (abscisic acid, ABA) signal transduction, and mitogen-activated protein kinases signal transduction pathway, which activated in both drought-tolerant and drought-sensitive lines. However, the difference of their imported fragments and diminished sequences triggers endoplasmic reticulum (ER) protein processing, photosynthetic-related pathways (in leaves), and membrane solute transport (in roots) in drought-tolerant line T307, while these are missed or not activated in drought-sensitive line S48, reflecting the different drought tolerance of the two genotypes. Virus-induced gene silencing assay of drought-tolerant differentially expressed heat shock protein (HSP) genes (mainly in leaf) and ATP-binding cassette (ABC) transporter genes (mainly in roots) indicated that those genes play important role in cotton drought tolerant. Combined analysis of transcriptomics and metabolomics highlighted the important roles of ER-stress-related HSP genes and root-specific ABC transporter genes in plants drought tolerance. These results provide new insights into the molecular mechanisms underlying the drought stress adaptation in cotton.

 

See https://link.springer.com/article/10.1007/s00122-022-04174-0

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