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GmPIN1-mediated auxin asymmetry regulates leaf petiole angle and plant architecture in soybean 被引量:3

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摘要 Crop breeding during the Green Revolution resulted in high yields largely due to the creation of plants with semi-dwarf architectures that could tolerate high-density planting.Although semi-dwarf varieties have been developed in rice,wheat and maize,none was reported in soybean(Glycine max),and few genes controlling plant architecture have been characterized in soybean.Here,we demonstrate that the auxin efflux transporter PINFORMED1(GmPIN1),which determines polar auxin transport,regulates the leaf petiole angle in soybean.CRISPR-Cas9-induced Gmpin1abc and Gmpin1bc multiple mutants displayed a compact architecture with a smaller petiole angle than wildtype plants.GmPIN1 transcripts and auxin were distributed asymmetrically in the petiole base,with high levels of GmPIN1a/c transcript and auxin in the lower cells,which resulted in asymmetric cell expansion.By contrast,the(iso)flavonoid content was greater in the upper petiole cells than in the lower cells.Our results suggest that(iso)flavonoids inhibit GmPIN1a/c expression to regulate the petiole angle.Overall,our study demonstrates that a signal cascade that integrates(iso)flavonoid biosynthesis,GmPIN1a/c expression,auxin accumulation,and cell expansion in an asymmetric manner creates a desirable petiole curvature in soybean.This study provides a genetic resource for improving soybean plant architecture.
出处 《Journal of Integrative Plant Biology》 SCIE CAS CSCD 2022年第7期1325-1338,共14页 植物学报(英文版)
基金 supported by the National Key Research and Development Program of China(2017YFA0506100) Major Program of Natural Science Foundation in Fujian Province(2021J02011) Training Program for Excellent Young Scholars of Fujian Agriculture and Forestry University(KSYLX011)to Xu Chen National Natural Science Foundation of China(31900213) Natural Science Foundation of Fujian(2019J01420) Distinguished Young Scholar Program of Fujian Agriculture and Forestry University(xjq201921)and to Zhen Gao National Natural Science Foundation of China(32001571)to Le Gao。
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