作者：Liwei Wang^#, Shi Sun^#, Tingting Wu, Luping, Xuegang Sun, Yupeng Cai, Jicun Li, Hongchang Jia, Shan Yuan, Li Chen, Bingjun Jiang, Cunxiang Wu, Wensheng Hou*, Tianfu Han*

　　影响因子：6.84

　　刊物名称：Plant Biotechnology Journal

　　出版年份：January 2020

　　doi: 10.1111/pbi.13346

　　https://onlinelibrary.wiley.com/doi/10.1111/pbi.13346

　　ABSTRACT                                                                  

　　Flowering time is a critical determinant of the geographic distribution and regional adaptability of soybean ( Glycine max ) and is strongly regulated by photoperiod and temperature. In this study, quantitative trait locus (QTL) mapping and subsequent candidate gene analysis revealed that GmPRR37 , encoding a pseudo-response regulator protein, is responsible for the major QTL qFT12-2, which was identifified from a population of 308 recombinant inbred lines (RILs) derived from a cross between a very late-flflowering soybean cultivar, ‘Zigongdongdou (ZGDD)’, and an extremely early-flflowering cultivar, ‘Heihe27 (HH27)’, in multiple environments. Comparative analysis of parental sequencing data confifirmed that HH27 contains a non-sense mutation that causes the loss of the CCT domain in the GmPRR37 protein. CRISPR/Cas9-induced Gmprr37- ZGDD mutants in soybean exhibited early flflowering under natural long-day (NLD) conditions. Overexpression of GmPRR37 signifificantly delayed the flflowering of transgenic soybean plants compared with wild-type under long photoperiod conditions. In addition, both the knockout and overexpression of GmPRR37 in soybean showed no signifificant phenotypic alterations in flowering time under short-day (SD) conditions. Furthermore, GmPRR37 down-regulated the expression of the flflowering-promoting FT homologues GmFT2a and GmFT5a , and up-regulated flflowering-inhibiting FT homologue GmFT1a expression under long-day (LD) conditions. We analysed haplotypes of GmPRR37 among 180 cultivars collected across China and found natural Gmprr37 mutants flflower earlier and enable soybean to be cultivated at higher latitudes. This study demonstrates that GmPRR37 controls soybean photoperiodic flflowering and provides opportunities to breed optimized cultivars with adaptation to specifific regions and farming systems.