期刊
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
卷 23, 期 4, 页码 -出版社
MDPI
DOI: 10.3390/ijms23042186
关键词
transcriptome; cold stratification; hormone; carbohydrate metabolism; seed dormancy; dormancy release
资金
- Natural Science Foundation of Jiangsu Province [BK20190896]
- National Key Research and Development Program of China [2018YFD1000107]
- Natural Science Foundation of China [32001983]
- Doctor for Entrepreneurship and Innovation Program of Jiangsu Province
- Yangzhou City's Green and Golden Phoenix Program
This study analyzed the transcriptome profiles of pear seeds during cold stratification, revealing the crucial role of hormones, carbohydrate metabolism, transcription factors, and lipid metabolism in the release of pear seed dormancy.
Seed dormancy transition is a vital developmental process for seedling propagation and agricultural production. The process is precisely regulated by diverse endogenous genetic factors and environmental cues. Callery pear (Pyrus calleryana Decne) is an important rootstock species that requires cold stratification to break seed dormancy, but the mechanisms underlying pear seed dormancy release are not yet fully understood. Here, we analyzed the transcriptome profiles at three different stages of cold stratification in callery pear seeds using RNA sequencing combined with phytohormone and sugar content measurements. Significant alterations in hormone contents and carbohydrate metabolism were observed and reflected the dormancy status of the seeds. The expressions of genes related to plant hormone metabolism and signaling transduction, including indole-3-acetic acid (IAA) biosynthesis (ASAs, TSA, NITs, YUC, and AAO) genes as well as several abscisic acid (ABA) and gibberellic acid (GA) catabolism and signaling transduction genes (CYP707As, GA2ox, and DELLAs), were consistent with endogenous hormone changes. We further found that several genes involved in cytokinin (CTK), ethylene (ETH), brassionolide (BR), and jasmonic acid (JA) metabolism and signaling transduction were differentially expressed and integrated in pear seed dormancy release. In accordance with changes in starch and soluble sugar contents, the genes associated with starch and sucrose metabolism were significantly up-regulated during seed dormancy release progression. Furthermore, the expression levels of genes involved in lipid metabolism pathways were also up-regulated. Finally, 447 transcription factor (TF) genes (including ERF, bHLH, bZIP, NAC, WRKY, and MYB genes) were observed to be differentially expressed during seed cold stratification and might relate to pear seed dormancy release. Our results suggest that the mechanism underlying pear seed dormancy release is a complex, transcriptionally regulated process involving hormones, sugars, lipids, and TFs.
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