Abstract
Starch is the main component of crop grains. Jasmonate-ZIM domain (JAZ1), is a transcriptional repressor in the jasmonate signaling pathway, has been widely studied in plant development, and stresses responses. However, its function in crop starch biosynthesis remains unclear. In this study, the intrinsic relationship between TaJAZ1 and starch biosynthesis was studied using barley stripe mosaic virus-induced gene silencing (BSMV-VIGS) method. The results showed that, compared with the control, grain length, thousand kernel weight, contents of total starch and amylopectin were significantly increased in grains of BSMV-TaJAZ1-silenced plants. And its starch ultrastructures, such as volume, surface area, relative crystallinity, and some viscosity parameters were also significantly changed in above grains. Moreover, the molecular mechanisms of TaJAZ1 involving starch biosynthesis were further explored by measuring the expression levels of starch synthesis-related genes. Results showed that TaJAZ1 gene silencing increased the expression of TaAGPS1, TaAGPL1, TaBEIIb and TaSSI and decreased TaGBSSI or TaSSIIIa, while their expressions were separately decreased or increased in TaJAZ1 transiently overexpression wheat plants. To conclude, these findings showed that TaJAZ1 involved starch synthesis by affecting the expression levels of six starch synthesis enzyme-related genes further changing the components, ultrastructures, and physicochemical properties of starch in wheat grain.
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