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Transport and spatio-temporal conversion of sugar facilitate the formation of spatial gradients of starch in wheat caryopses.

Yingxin ZhongYuhua ChenMingsheng PanXiangnan LiKim HebelstrupJian CaiQin ZhouTingbo DaiWeixing CaoDong Jiang
Published in: Communications biology (2024)
Wheat grain starch content displays large variations within different pearling fractions, which affecting the processing quality of corresponding flour, while the underlying mechanism on starch gradient formation is unclear. Here, we show that wheat caryopses acquire sugar through the transfer of cells (TCs), inner endosperm (IE), outer endosperm (OE), and finally aleurone (AL) via micro positron emission tomography-computed tomography (PET-CT). To obtain integrated information on spatial transcript distributions, developing caryopses are laser microdissected into AL, OE, IE, and TC. Most genes encoding carbohydrate transporters are upregulated or specifically expressed, and sugar metabolites are more highly enriched in the TC group than in the AL group, in line with the PET-CT results. Genes encoding enzymes in sucrose metabolism, such as sucrose synthase, beta-fructofuranosidase, glucose-1-phosphate adenylyltransferase show significantly lower expression in AL than in OE and IE, indicating that substrate supply is crucial for the formation of starch gradients. Furthermore, the low expressions of gene encoding starch synthase contribute to low starch content in AL. Our results imply that transcriptional regulation represents an important means of impacting starch distribution in wheat grains and suggests breeding targets for enhancing specially pearled wheat with higher quality.
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