The early responsive to dehydration-like(ERDL or ERD)subfamily,subclade within the monosaccharide transporter(MST)superfamily,is crucial in the regulation of growth and seed yield in Arabidopsis.Here,we identified Os ...The early responsive to dehydration-like(ERDL or ERD)subfamily,subclade within the monosaccharide transporter(MST)superfamily,is crucial in the regulation of growth and seed yield in Arabidopsis.Here,we identified Os ERD5 as an At ERDL6 homologue and explored the function of Os ERD5.We found that Os ERD5 overexpression significantly enhanced the tiller number and grain yield of rice.Os ERD5 was widely expressed in aboveground tissues,encoded a tonoplast-localized protein,and exhibited transport activities for fructose,glucose and mannose when expressed in yeast.Expression character assay revealed that Os ERD5 mediated hexose efflux across tonoplasts and participated in maintaining the diurnal rhythm-regulated intracellular hexose homeostasis.Additional physiological and molecular evidence showed that Os ERD5 overexpression promoted vacuolar glucose efflux,enhanced sucrose synthesis and transport,increased sugar content in the shoot base,and promoted rice tillering by activating the synthesis of cytokinin simultaneously repressing strigolactone and gibberellin signaling.This study elucidates the function of Os ERD5 and the mechanism underlying the overexpression of Os ERD5 increasing rice tillering and yield.展开更多
基金supported by the National Natural Science Foundation of China(32401743)the Earmarked Fund for the China Agriculture Research System(CARS-01)+1 种基金the Hunan Natural Science Foundation Project(2021JJ40235)the Science and Technology Innovation Program of Hunan Province(2022RC3053)。
文摘The early responsive to dehydration-like(ERDL or ERD)subfamily,subclade within the monosaccharide transporter(MST)superfamily,is crucial in the regulation of growth and seed yield in Arabidopsis.Here,we identified Os ERD5 as an At ERDL6 homologue and explored the function of Os ERD5.We found that Os ERD5 overexpression significantly enhanced the tiller number and grain yield of rice.Os ERD5 was widely expressed in aboveground tissues,encoded a tonoplast-localized protein,and exhibited transport activities for fructose,glucose and mannose when expressed in yeast.Expression character assay revealed that Os ERD5 mediated hexose efflux across tonoplasts and participated in maintaining the diurnal rhythm-regulated intracellular hexose homeostasis.Additional physiological and molecular evidence showed that Os ERD5 overexpression promoted vacuolar glucose efflux,enhanced sucrose synthesis and transport,increased sugar content in the shoot base,and promoted rice tillering by activating the synthesis of cytokinin simultaneously repressing strigolactone and gibberellin signaling.This study elucidates the function of Os ERD5 and the mechanism underlying the overexpression of Os ERD5 increasing rice tillering and yield.
