Allelic Variations at Four Major Maturity E Genes and Transcriptional Abundance of the E1 Gene Are Associated with Flowering Time and Maturity of Soybean Cultivars

The time to flowering and maturity are ecologically and agronomically important traits for soybean landrace and cultivar adaptation. As a typical short-day crop, long day conditions in the high-latitude regions require soybean cultivars with photoperiod insensitivity that can mature before frost. Al...

Descripción completa

Detalles Bibliográficos
Autores principales: Zhai, Hong, Lü, Shixiang, Wang, Yueqiang, Chen, Xin, Ren, Haixiang, Yang, Jiayin, Cheng, Wen, Zong, Chunmei, Gu, Heping, Qiu, Hongmei, Wu, Hongyan, Zhang, Xingzheng, Cui, Tingting, Xia, Zhengjun
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4022622/
https://www.ncbi.nlm.nih.gov/pubmed/24830458
http://dx.doi.org/10.1371/journal.pone.0097636
_version_ 1782316439535878144
author Zhai, Hong
Lü, Shixiang
Wang, Yueqiang
Chen, Xin
Ren, Haixiang
Yang, Jiayin
Cheng, Wen
Zong, Chunmei
Gu, Heping
Qiu, Hongmei
Wu, Hongyan
Zhang, Xingzheng
Cui, Tingting
Xia, Zhengjun
author_facet Zhai, Hong
Lü, Shixiang
Wang, Yueqiang
Chen, Xin
Ren, Haixiang
Yang, Jiayin
Cheng, Wen
Zong, Chunmei
Gu, Heping
Qiu, Hongmei
Wu, Hongyan
Zhang, Xingzheng
Cui, Tingting
Xia, Zhengjun
author_sort Zhai, Hong
collection PubMed
description The time to flowering and maturity are ecologically and agronomically important traits for soybean landrace and cultivar adaptation. As a typical short-day crop, long day conditions in the high-latitude regions require soybean cultivars with photoperiod insensitivity that can mature before frost. Although the molecular basis of four major E loci (E1 to E4) have been deciphered, it is not quite clear whether, or to what degree, genetic variation and the expression level of the four E genes are associated with the time to flowering and maturity of soybean cultivars. In this study, we genotyped 180 cultivars at E1 to E4 genes, meanwhile, the time to flowering and maturity of those cultivars were investigated at six geographic locations in China from 2011 to 2012 and further confirmed in 2013. The percentages of recessive alleles at E1, E2, E3 and E4 loci were 38.34%, 84.45%, 36.33%, and 7.20%, respectively. Statistical analysis showed that allelic variations at each of four loci had a significant effect on flowering time as well as maturity. We classified the 180 cultivars into eight genotypic groups based on allelic variations of the four major E loci. The genetic group of e1-nf representing dysfunctional alleles at the E1 locus flowered earliest in all the geographic locations. In contrast, cultivars in the E1E2E3E4 group originated from the southern areas flowered very late or did not flower before frost at high latitude locations. The transcriptional abundance of functional E1 gene was significantly associated with flowering time. However, the ranges of time to flowering and maturity were quite large within some genotypic groups, implying the presence of some other unknown genetic factors that are involved in control of flowering time or maturity. Known genes (e.g. E3 and E4) and other unknown factors may function, at least partially, through regulation of the expression of the E1 gene.
format Online
Article
Text
id pubmed-4022622
institution National Center for Biotechnology Information
language English
publishDate 2014
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-40226222014-05-21 Allelic Variations at Four Major Maturity E Genes and Transcriptional Abundance of the E1 Gene Are Associated with Flowering Time and Maturity of Soybean Cultivars Zhai, Hong Lü, Shixiang Wang, Yueqiang Chen, Xin Ren, Haixiang Yang, Jiayin Cheng, Wen Zong, Chunmei Gu, Heping Qiu, Hongmei Wu, Hongyan Zhang, Xingzheng Cui, Tingting Xia, Zhengjun PLoS One Research Article The time to flowering and maturity are ecologically and agronomically important traits for soybean landrace and cultivar adaptation. As a typical short-day crop, long day conditions in the high-latitude regions require soybean cultivars with photoperiod insensitivity that can mature before frost. Although the molecular basis of four major E loci (E1 to E4) have been deciphered, it is not quite clear whether, or to what degree, genetic variation and the expression level of the four E genes are associated with the time to flowering and maturity of soybean cultivars. In this study, we genotyped 180 cultivars at E1 to E4 genes, meanwhile, the time to flowering and maturity of those cultivars were investigated at six geographic locations in China from 2011 to 2012 and further confirmed in 2013. The percentages of recessive alleles at E1, E2, E3 and E4 loci were 38.34%, 84.45%, 36.33%, and 7.20%, respectively. Statistical analysis showed that allelic variations at each of four loci had a significant effect on flowering time as well as maturity. We classified the 180 cultivars into eight genotypic groups based on allelic variations of the four major E loci. The genetic group of e1-nf representing dysfunctional alleles at the E1 locus flowered earliest in all the geographic locations. In contrast, cultivars in the E1E2E3E4 group originated from the southern areas flowered very late or did not flower before frost at high latitude locations. The transcriptional abundance of functional E1 gene was significantly associated with flowering time. However, the ranges of time to flowering and maturity were quite large within some genotypic groups, implying the presence of some other unknown genetic factors that are involved in control of flowering time or maturity. Known genes (e.g. E3 and E4) and other unknown factors may function, at least partially, through regulation of the expression of the E1 gene. Public Library of Science 2014-05-15 /pmc/articles/PMC4022622/ /pubmed/24830458 http://dx.doi.org/10.1371/journal.pone.0097636 Text en © 2014 Zhai et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Zhai, Hong
Lü, Shixiang
Wang, Yueqiang
Chen, Xin
Ren, Haixiang
Yang, Jiayin
Cheng, Wen
Zong, Chunmei
Gu, Heping
Qiu, Hongmei
Wu, Hongyan
Zhang, Xingzheng
Cui, Tingting
Xia, Zhengjun
Allelic Variations at Four Major Maturity E Genes and Transcriptional Abundance of the E1 Gene Are Associated with Flowering Time and Maturity of Soybean Cultivars
title Allelic Variations at Four Major Maturity E Genes and Transcriptional Abundance of the E1 Gene Are Associated with Flowering Time and Maturity of Soybean Cultivars
title_full Allelic Variations at Four Major Maturity E Genes and Transcriptional Abundance of the E1 Gene Are Associated with Flowering Time and Maturity of Soybean Cultivars
title_fullStr Allelic Variations at Four Major Maturity E Genes and Transcriptional Abundance of the E1 Gene Are Associated with Flowering Time and Maturity of Soybean Cultivars
title_full_unstemmed Allelic Variations at Four Major Maturity E Genes and Transcriptional Abundance of the E1 Gene Are Associated with Flowering Time and Maturity of Soybean Cultivars
title_short Allelic Variations at Four Major Maturity E Genes and Transcriptional Abundance of the E1 Gene Are Associated with Flowering Time and Maturity of Soybean Cultivars
title_sort allelic variations at four major maturity e genes and transcriptional abundance of the e1 gene are associated with flowering time and maturity of soybean cultivars
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4022622/
https://www.ncbi.nlm.nih.gov/pubmed/24830458
http://dx.doi.org/10.1371/journal.pone.0097636
work_keys_str_mv AT zhaihong allelicvariationsatfourmajormaturityegenesandtranscriptionalabundanceofthee1geneareassociatedwithfloweringtimeandmaturityofsoybeancultivars
AT lushixiang allelicvariationsatfourmajormaturityegenesandtranscriptionalabundanceofthee1geneareassociatedwithfloweringtimeandmaturityofsoybeancultivars
AT wangyueqiang allelicvariationsatfourmajormaturityegenesandtranscriptionalabundanceofthee1geneareassociatedwithfloweringtimeandmaturityofsoybeancultivars
AT chenxin allelicvariationsatfourmajormaturityegenesandtranscriptionalabundanceofthee1geneareassociatedwithfloweringtimeandmaturityofsoybeancultivars
AT renhaixiang allelicvariationsatfourmajormaturityegenesandtranscriptionalabundanceofthee1geneareassociatedwithfloweringtimeandmaturityofsoybeancultivars
AT yangjiayin allelicvariationsatfourmajormaturityegenesandtranscriptionalabundanceofthee1geneareassociatedwithfloweringtimeandmaturityofsoybeancultivars
AT chengwen allelicvariationsatfourmajormaturityegenesandtranscriptionalabundanceofthee1geneareassociatedwithfloweringtimeandmaturityofsoybeancultivars
AT zongchunmei allelicvariationsatfourmajormaturityegenesandtranscriptionalabundanceofthee1geneareassociatedwithfloweringtimeandmaturityofsoybeancultivars
AT guheping allelicvariationsatfourmajormaturityegenesandtranscriptionalabundanceofthee1geneareassociatedwithfloweringtimeandmaturityofsoybeancultivars
AT qiuhongmei allelicvariationsatfourmajormaturityegenesandtranscriptionalabundanceofthee1geneareassociatedwithfloweringtimeandmaturityofsoybeancultivars
AT wuhongyan allelicvariationsatfourmajormaturityegenesandtranscriptionalabundanceofthee1geneareassociatedwithfloweringtimeandmaturityofsoybeancultivars
AT zhangxingzheng allelicvariationsatfourmajormaturityegenesandtranscriptionalabundanceofthee1geneareassociatedwithfloweringtimeandmaturityofsoybeancultivars
AT cuitingting allelicvariationsatfourmajormaturityegenesandtranscriptionalabundanceofthee1geneareassociatedwithfloweringtimeandmaturityofsoybeancultivars
AT xiazhengjun allelicvariationsatfourmajormaturityegenesandtranscriptionalabundanceofthee1geneareassociatedwithfloweringtimeandmaturityofsoybeancultivars

Ejemplares similares