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Homologous haplotypes, expression, genetic effects and geographic distribution of the wheat yield gene TaGW2

BACKGROUND: TaGW2-6A, cloned in earlier research, strongly influences wheat grain width and TKW. Here, we mainly analyzed haplotypes of TaGW2-6B and their effects on TKW and interaction with haplotypes at TaGW2-6A. RESULTS: About 2.9 kb of the promoter sequences of TaGW2-6B and TaGW2-6D were cloned...

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Autores principales: Qin, Lin, Hao, Chenyang, Hou, Jian, Wang, Yuquan, Li, Tian, Wang, Lanfen, Ma, Zhengqiang, Zhang, Xueyong
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2014
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4021350/
https://www.ncbi.nlm.nih.gov/pubmed/24766773
http://dx.doi.org/10.1186/1471-2229-14-107
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author Qin, Lin
Hao, Chenyang
Hou, Jian
Wang, Yuquan
Li, Tian
Wang, Lanfen
Ma, Zhengqiang
Zhang, Xueyong
author_facet Qin, Lin
Hao, Chenyang
Hou, Jian
Wang, Yuquan
Li, Tian
Wang, Lanfen
Ma, Zhengqiang
Zhang, Xueyong
author_sort Qin, Lin
collection PubMed
description BACKGROUND: TaGW2-6A, cloned in earlier research, strongly influences wheat grain width and TKW. Here, we mainly analyzed haplotypes of TaGW2-6B and their effects on TKW and interaction with haplotypes at TaGW2-6A. RESULTS: About 2.9 kb of the promoter sequences of TaGW2-6B and TaGW2-6D were cloned in 34 bread wheat cultivars. Eleven SNPs were detected in the promoter region of TaGW2-6B, forming 4 haplotypes, but no divergence was detected in the TaGW2-6D promoter or coding region. Three molecular markers including CAPS, dCAPS and ACAS, were developed to distinguish the TaGW2-6B haplotypes. Haplotype association analysis indicated that TaGW2-6B has a stronger influence than TaGW2-6A on TKW, and Hap-6B-1 was a favored haplotype increasing grain width and weight that had undergone strong positive selection in global wheat breeding. However, clear geographic distribution differences for TaGW2-6A haplotypes were found; Hap-6A-A was favored in Chinese, Australian and Russian cultivars, whereas Hap-6A-G was preferred in European, American and CIMMYT cultivars. This difference might be caused by a flowering and maturity time difference between the two haplotypes. Hap-6A-A is the earlier type. Haplotype interaction analysis between TaGW2-6A and TaGW2-6B showed additive effects between the favored haplotypes. Hap-6A-A/Hap-6B-1 was the best combination to increase TKW. Relative expression analysis of the three TaGW2 homoeologous genes in 22 cultivars revealed that TaGW2-6A underwent the highest expression. TaGW2-6D was the least expressed during grain development and TaGW2-6B was intermediate. Diversity of the three genes was negatively correlated with their effect on TKW. CONCLUSIONS: Genetic effects, expression patterns and historic changes of haplotypes at three homoeologous genes of TaGW2 influencing yield were dissected in wheat cultivars. Strong and constant selection to favored haplotypes has been found in global wheat breeding during the past century. This research also provides a valuable case for understanding interaction of genes that control complex traits in polyploid species.
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spelling pubmed-40213502014-05-16 Homologous haplotypes, expression, genetic effects and geographic distribution of the wheat yield gene TaGW2 Qin, Lin Hao, Chenyang Hou, Jian Wang, Yuquan Li, Tian Wang, Lanfen Ma, Zhengqiang Zhang, Xueyong BMC Plant Biol Research Article BACKGROUND: TaGW2-6A, cloned in earlier research, strongly influences wheat grain width and TKW. Here, we mainly analyzed haplotypes of TaGW2-6B and their effects on TKW and interaction with haplotypes at TaGW2-6A. RESULTS: About 2.9 kb of the promoter sequences of TaGW2-6B and TaGW2-6D were cloned in 34 bread wheat cultivars. Eleven SNPs were detected in the promoter region of TaGW2-6B, forming 4 haplotypes, but no divergence was detected in the TaGW2-6D promoter or coding region. Three molecular markers including CAPS, dCAPS and ACAS, were developed to distinguish the TaGW2-6B haplotypes. Haplotype association analysis indicated that TaGW2-6B has a stronger influence than TaGW2-6A on TKW, and Hap-6B-1 was a favored haplotype increasing grain width and weight that had undergone strong positive selection in global wheat breeding. However, clear geographic distribution differences for TaGW2-6A haplotypes were found; Hap-6A-A was favored in Chinese, Australian and Russian cultivars, whereas Hap-6A-G was preferred in European, American and CIMMYT cultivars. This difference might be caused by a flowering and maturity time difference between the two haplotypes. Hap-6A-A is the earlier type. Haplotype interaction analysis between TaGW2-6A and TaGW2-6B showed additive effects between the favored haplotypes. Hap-6A-A/Hap-6B-1 was the best combination to increase TKW. Relative expression analysis of the three TaGW2 homoeologous genes in 22 cultivars revealed that TaGW2-6A underwent the highest expression. TaGW2-6D was the least expressed during grain development and TaGW2-6B was intermediate. Diversity of the three genes was negatively correlated with their effect on TKW. CONCLUSIONS: Genetic effects, expression patterns and historic changes of haplotypes at three homoeologous genes of TaGW2 influencing yield were dissected in wheat cultivars. Strong and constant selection to favored haplotypes has been found in global wheat breeding during the past century. This research also provides a valuable case for understanding interaction of genes that control complex traits in polyploid species. BioMed Central 2014-04-25 /pmc/articles/PMC4021350/ /pubmed/24766773 http://dx.doi.org/10.1186/1471-2229-14-107 Text en Copyright © 2014 Qin et al.; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
spellingShingle Research Article
Qin, Lin
Hao, Chenyang
Hou, Jian
Wang, Yuquan
Li, Tian
Wang, Lanfen
Ma, Zhengqiang
Zhang, Xueyong
Homologous haplotypes, expression, genetic effects and geographic distribution of the wheat yield gene TaGW2
title Homologous haplotypes, expression, genetic effects and geographic distribution of the wheat yield gene TaGW2
title_full Homologous haplotypes, expression, genetic effects and geographic distribution of the wheat yield gene TaGW2
title_fullStr Homologous haplotypes, expression, genetic effects and geographic distribution of the wheat yield gene TaGW2
title_full_unstemmed Homologous haplotypes, expression, genetic effects and geographic distribution of the wheat yield gene TaGW2
title_short Homologous haplotypes, expression, genetic effects and geographic distribution of the wheat yield gene TaGW2
title_sort homologous haplotypes, expression, genetic effects and geographic distribution of the wheat yield gene tagw2
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4021350/
https://www.ncbi.nlm.nih.gov/pubmed/24766773
http://dx.doi.org/10.1186/1471-2229-14-107
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