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Genome-wide association study for flowering time, maturity dates and plant height in early maturing soybean (Glycine max) germplasm
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Genome-wide association study for flowering time, maturity dates and plant height in early maturing soybean (Glycine max) germplasm
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Genome-wide association study for flowering time, maturity dates and plant height in early maturing soybean (Glycine max) germplasm
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Journal Article
Genome-wide association study for flowering time, maturity dates and plant height in early maturing soybean (Glycine max) germplasm
2015
Overview
Background
Soybean (
Glycine max
) is a photoperiod-sensitive and self-pollinated species. Days to flowering (DTF) and maturity (DTM), duration of flowering-to-maturity (DFTM) and plant height (PH) are crucial for soybean adaptability and yield. To dissect the genetic architecture of these agronomically important traits, a population consisting of 309 early maturity soybean germplasm accessions was genotyped with the Illumina Infinium SoySNP50K BeadChip and phenotyped in multiple environments. A genome-wide association study (GWAS) was conducted using a mixed linear model that involves both relative kinship and population structure.
Results
The linkage disequilibrium (LD) decayed slowly in soybean, and a substantial difference in LD pattern was observed between euchromatic and heterochromatic regions. A total of 27, 6, 18 and 27 loci for DTF, DTM, DFTM and PH were detected via GWAS, respectively. The
Dt1
gene was identified in the locus strongly associated with both DTM and PH. Ten candidate genes homologous to
Arabidopsis
flowering genes were identified near the peak single nucleotide polymorphisms (SNPs) associated with DTF. Four of them encode MADS-domain containing proteins. Additionally, a pectin lyase-like gene was also identified in a major-effect locus for PH where LD decayed rapidly.
Conclusions
This study identified multiple new loci and refined chromosomal regions of known loci associated with DTF, DTM, DFTM and/or PH in soybean. It demonstrates that GWAS is powerful in dissecting complex traits and identifying candidate genes although LD decayed slowly in soybean. The loci and trait-associated SNPs identified in this study can be used for soybean genetic improvement, especially the major-effect loci associated with PH could be used to improve soybean yield potential. The candidate genes may serve as promising targets for studies of molecular mechanisms underlying the related traits in soybean.
Publisher
BioMed Central,BioMed Central Ltd
