State Key Lab of Plant Genomics, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China; University of Chinese Academy of Sciences, Beijing 100049, China.
Institute of Soybean Research, Heilongjiang Provincial Academy of Agricultural Sciences, Harbin 150086, China.
Mol Plant. 2017 May 1;10(5):670-684. doi: 10.1016/j.molp.2017.03.006. Epub 2017 Mar 28.
Cultivated soybeans may lose some useful genetic loci during domestication. Introgression of genes from wild soybeans could broaden the genetic background and improve soybean agronomic traits. In this study, through whole-genome sequencing of a recombinant inbred line population derived from a cross between a wild soybean ZYD7 and a cultivated soybean HN44, and mapping of quantitative trait loci for seed weight, we discovered that a phosphatase 2C-1 (PP2C-1) allele from wild soybean ZYD7 contributes to the increase in seed weight/size. PP2C-1 may achieve this function by enhancing cell size of integument and activating a subset of seed trait-related genes. We found that PP2C-1 is associated with GmBZR1, a soybean ortholog of Arabidopsis BZR1, one of key transcription factors in brassinosteroid (BR) signaling, and facilitate accumulation of dephosphorylated GmBZR1. In contrast, the PP2C-2 allele with variations of a few amino acids at the N-terminus did not exhibit this function. Moreover, we showed that GmBZR1 could promote seed weight/size in transgenic plants. Through analysis of cultivated soybean accessions, we found that 40% of the examined accessions do not have the PP2C-1 allele, suggesting that these accessions can be improved by introduction of this allele. Taken together, our study identifies an elite allele PP2C-1, which can enhance seed weight and/or size in soybean, and pinpoints that manipulation of this allele by molecular-assisted breeding may increase production in soybean and other legumes/crops.
栽培大豆在驯化过程中可能会丢失一些有用的遗传基因座。野生大豆基因的渐渗可以拓宽遗传背景并改善大豆的农艺性状。在这项研究中,通过对一个来自野生大豆 ZYD7 和栽培大豆 HN44 杂交的重组自交系群体进行全基因组测序,并对种子重量的数量性状位点进行作图,我们发现野生大豆 ZYD7 的一个磷酸酶 2C-1(PP2C-1)等位基因有助于增加种子重量/大小。PP2C-1 可能通过增强表皮细胞大小并激活一组与种子特性相关的基因来实现此功能。我们发现 PP2C-1 与大豆中拟南芥 BZR1 的同源物 GmBZR1 相关,BZR1 是油菜素内酯(BR)信号转导中的关键转录因子之一,有助于去磷酸化 GmBZR1 的积累。相比之下,具有 N 端几个氨基酸变异的 PP2C-2 等位基因则没有表现出这种功能。此外,我们还表明 GmBZR1 可以在转基因植物中促进种子重量/大小。通过对栽培大豆品系的分析,我们发现 40%的被检测品系没有 PP2C-1 等位基因,这表明可以通过引入这个等位基因来改良这些品系。总之,我们的研究确定了一个优秀的等位基因 PP2C-1,它可以增强大豆的种子重量和/或大小,并指出通过分子辅助育种来操纵这个等位基因可能会增加大豆和其他豆科作物/农作物的产量。
