| Literature DB >> 27062090 |
Xiang Lu1,2, Qing-Tian Li1,2, Qing Xiong1,2, Wei Li3, Ying-Dong Bi3, Yong-Cai Lai3, Xin-Lei Liu4, Wei-Qun Man4, Wan-Ke Zhang1, Biao Ma1, Shou-Yi Chen1, Jin-Song Zhang1.
Abstract
Cultivated soybean has undergone many transformations during domestication. In this paper we report a comprehensive assessment of the evolution of gene co-expression networks based on the analysis of 40 transcriptomes from developing soybean seeds in cultivated and wild soybean accessions. We identified 2680 genes that are differentially expressed during seed maturation and established two cultivar-specific gene co-expression networks. Through analysis of the two networks and integration with quantitative trait locus data we identified two potential key drivers for seed trait formation, GA20OX and NFYA. GA20OX encodes an enzyme in a rate-limiting step of gibberellin biosynthesis, and NFYA encodes a transcription factor. Overexpression of GA20OX and NFYA enhanced seed size/weight and oil content, respectively, in seeds of transgenic plants. The two genes showed significantly higher expression in cultivated than in wild soybean, and the increases in expression were associated with genetic variations in the promoter region of each gene. Moreover, the expression of GA20OX and NFYA in seeds of soybean accessions correlated with seed weight and oil content, respectively. Our study reveals transcriptional adaptation during soybean domestication and may identify a mechanism of selection by expression for seed trait formation, providing strategies for future breeding practice.Entities:
Keywords: Glycine max; Glycine soja; promoter variation; seed trait formation; soybean domestication; transcriptomic signature
Mesh:
Year: 2016 PMID: 27062090 DOI: 10.1111/tpj.13181
Source DB: PubMed Journal: Plant J ISSN: 0960-7412 Impact factor: 6.417