At elevated temperatures, heat shock protein genes show altered ratios of different RNAs and expression of new RNAs, including several novel HSPB1 mRNAs encoding HSP27 protein isoforms

Gao, Xia; Zhang, Keyin; Zhou, Haïyan; Zellmer, Lucas; Yuan, Chengfu; Huang, Hai; Liao, D. Joshua

doi:10.3892/etm.2021.10332

Cited by 3 publications

(1 citation statement)

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“…Plants can acquire tolerance to environmental stresses via transcriptome reprogramming at the transcriptional and alternative splicing levels (Liu et al., 2017). For example, HSP responds to an increase in temperature in vitro by producing multiple mature RNAs and altering the ratios of different RNAs (Gao et al., 2021). Pm4 , a wheat race‐specific resistance gene for powdery mildew, undergoes constitutive alternative splicing, generating two isoforms with different protein domain topologies that are both essential for resistance (Sánchez‐Martín et al., 2021).…”

Section: Discussionmentioning

confidence: 99%

A long transcript mutant of the rubisco activase gene RCA upregulated by the transcription factor Ghd2 enhances drought tolerance in rice

et al. 2022

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The transcription factor Ghd2 increases rice yield potential under normal conditions and accelerates leaf senescence under drought stress. However, its mechanism on the regulation of leaf senescence under drought stress remains unclear. In the present study, to unveil the mechanism, one target of Ghd2, the Rubisco activase gene RCA, was identified through the combined analysis of Ghd2-CRISPR transcriptome data and Ghd2-overexpression microarray data. Ghd2 binds to the 'CACA' motif in the RCA promoter by its CCT domain and upregulates RCA expression. RCA has alternative transcripts, RCAS and RCAL, which are predominantly expressed under normal conditions and drought stress, respectively. Similar to Ghd2overexpressing plants, RCAL-overexpressing plants were more sensitive to drought stress than the wildtype. However, the plants overexpressing RCAS showed a weak drought-sensitive phenotype. Moreover, RCAL knockdown and knockout plants did not show yield loss under normal conditions, but exhibited enhanced drought tolerance and delayed leaf senescence. The chlorophyll content, the free amino acid content and the expression of senescence-related genes in the RCAL mutant were lower than those in the wild-type plants under drought stress. In summary, Ghd2 induces leaf senescence by upregulating RCAL expression under drought stress, and the RCAL mutant has important values in breeding droughttolerant varieties.

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Section: Discussionmentioning

confidence: 99%