期刊
PLANT CELL AND ENVIRONMENT
卷 41, 期 5, 页码 1022-1037出版社
WILEY
DOI: 10.1111/pce.12949
关键词
embryo; endosperm; gene expression; imbibition; plant hormones
资金
- Natural Sciences and Engineering Research Council of Canada (NSERC)
- NSERC Scholarships
Seed germination is a complex process regulated by intrinsic hormonal cues such as abscisic acid (ABA) and gibberellin (GA), and environmental signals including temperature. Using pharmacological, molecular and metabolomics approaches, we show that supraoptimal temperature delays wheat seed germination through maintaining elevated embryonic ABA level via increased expression of ABA biosynthetic genes (TaNCED1 and TaNCED2), increasing embryo ABA sensitivity through upregulation of genes regulating ABA signalling positively (TaPYL5, TaSnRK2, ABI3 and ABI5) and decreasing embryo GA sensitivity via induction of TaRHT1 that regulates GA signalling negatively. Endospermic ABA and GA appeared to have minimal roles in regulating germination at supraoptimal temperature. Germination inhibition by suboptimal temperature is associated with elevated ABA level in the embryo and endosperm tissues, mediated by induction of TaNCEDs and decreased expression of endospermic ABA catabolic genes (TaCYP707As), and increased ABA sensitivity in both tissues via upregulation of TaPYL5, TaSnRK2, ABI3 and ABI5 in the embryo and TaSnRK2 and ABI5 in the endosperm. Furthermore, suboptimal temperature suppresses GA synthesis in both tissues and GA sensitivity in the embryo via repressing GA biosynthetic genes (TaGA20ox and TaGA3ox2) and inducing TaRHT1, respectively. These results highlight that spatiotemporal modulation of ABA and GA metabolism and signalling in wheat seeds underlies germination response to temperature. Temperature is one of the major environmental factors regulating seed germination, a complex physiological process determined mainly by the balance between two antagonistically acting plant hormones, abscisic acid (ABA) and gibberellin (GA). We investigated the poorly understood molecular mechanisms underlying temperature regulation of ABA and GA metabolism and signalling during seed germination in wheat. Our results show that temperature regulates the germination of wheat seeds by modulating the spatiotemporal balance between ABA and GA levels and tissue sensitivity to these phytohormones via altering the expression of specific genes involved in their metabolic and signalling pathways.
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