Uncovering genomic regions controlling plant architectural traits in hexaploid wheat using different GWAS models

Uncovering genomic regions controlling plant architectural traits in hexaploid wheat using different GWAS models

Abstract Wheat is a major food crop worldwide. The plant architecture is a complex trait mostly influenced by plant height, tiller number, and leaf morphology. Plant height plays a crucial role in lodging and thus affects yield and grain quality. In this study, a wheat population was genotyped by us...

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Main Authors: Ali Muhammad, Jianguo Li, Weichen Hu, Jinsheng Yu, Shahid Ullah Khan, Muhammad Hafeez Ullah Khan, Guosheng Xie, Jibin Wang, Lingqiang Wang
Format: Article
Language:English
Published: Nature Publishing Group 2021-03-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-86127-z
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spelling doaj-b710f95703aa42fb964bdfa520b2d6de2021-03-28T11:27:25ZengNature Publishing GroupScientific Reports2045-23222021-03-0111111410.1038/s41598-021-86127-zUncovering genomic regions controlling plant architectural traits in hexaploid wheat using different GWAS modelsAli Muhammad0Jianguo Li1Weichen Hu2Jinsheng Yu3Shahid Ullah Khan4Muhammad Hafeez Ullah Khan5Guosheng Xie6Jibin Wang7Lingqiang Wang8State Key Laboratory for Conservation and Utilization of Subtropical Agro-Bioresources, College of Agriculture, Guangxi UniversityCollege of Plant Science and Technology & Biomass and Bioenergy Research Center, Huazhong Agricultural UniversityCollege of Plant Science and Technology & Biomass and Bioenergy Research Center, Huazhong Agricultural UniversityCollege of Agriculture and Food Science, Zhejiang A&F UniversityNational Key Laboratory of Crop Genetic Improvement, Huazhong Agricultural UniversityNational Key Laboratory of Crop Genetic Improvement, Huazhong Agricultural UniversityCollege of Plant Science and Technology & Biomass and Bioenergy Research Center, Huazhong Agricultural UniversityState Key Laboratory for Conservation and Utilization of Subtropical Agro-Bioresources, College of Agriculture, Guangxi UniversityState Key Laboratory for Conservation and Utilization of Subtropical Agro-Bioresources, College of Agriculture, Guangxi UniversityAbstract Wheat is a major food crop worldwide. The plant architecture is a complex trait mostly influenced by plant height, tiller number, and leaf morphology. Plant height plays a crucial role in lodging and thus affects yield and grain quality. In this study, a wheat population was genotyped by using Illumina iSelect 90K single nucleotide polymorphism (SNP) assay and finally 22,905 high-quality SNPs were used to perform a genome-wide association study (GWAS) for plant architectural traits employing four multi-locus GWAS (ML-GWAS) and three single-locus GWAS (SL-GWAS) models. As a result, 174 and 97 significant SNPs controlling plant architectural traits were detected by ML-GWAS and SL-GWAS methods, respectively. Among these SNP makers, 43 SNPs were consistently detected, including seven across multiple environments and 36 across multiple methods. Interestingly, five SNPs (Kukri_c34553_89, RAC875_c8121_1490, wsnp_Ex_rep_c66315_64480362, Ku_c5191_340, and tplb0049a09_1302) consistently detected across multiple environments and methods, played a role in modulating both plant height and flag leaf length. Furthermore, candidate SNPs (BS00068592_51, Kukri_c4750_452 and BS00022127_51) constantly repeated in different years and methods associated with flag leaf width and number of tillers. We also detected several SNPs (Jagger_c6772_80, RAC875_c8121_1490, BS00089954_51, Excalibur_01167_1207, and Ku_c5191_340) having common associations with more than one trait across multiple environments. By further appraising these GWAS methods, the pLARmEB and FarmCPU models outperformed in SNP detection compared to the other ML-GWAS and SL-GWAS methods, respectively. Totally, 152 candidate genes were found to be likely involved in plant growth and development. These finding will be helpful for better understanding of the genetic mechanism of architectural traits in wheat.https://doi.org/10.1038/s41598-021-86127-z
collection DOAJ
language English
format Article
sources DOAJ
author Ali Muhammad
Jianguo Li
Weichen Hu
Jinsheng Yu
Shahid Ullah Khan
Muhammad Hafeez Ullah Khan
Guosheng Xie
Jibin Wang
Lingqiang Wang
spellingShingle Ali Muhammad
Jianguo Li
Weichen Hu
Jinsheng Yu
Shahid Ullah Khan
Muhammad Hafeez Ullah Khan
Guosheng Xie
Jibin Wang
Lingqiang Wang
Uncovering genomic regions controlling plant architectural traits in hexaploid wheat using different GWAS models
Scientific Reports
author_facet Ali Muhammad
Jianguo Li
Weichen Hu
Jinsheng Yu
Shahid Ullah Khan
Muhammad Hafeez Ullah Khan
Guosheng Xie
Jibin Wang
Lingqiang Wang
author_sort Ali Muhammad
title Uncovering genomic regions controlling plant architectural traits in hexaploid wheat using different GWAS models
title_short Uncovering genomic regions controlling plant architectural traits in hexaploid wheat using different GWAS models
title_full Uncovering genomic regions controlling plant architectural traits in hexaploid wheat using different GWAS models
title_fullStr Uncovering genomic regions controlling plant architectural traits in hexaploid wheat using different GWAS models
title_full_unstemmed Uncovering genomic regions controlling plant architectural traits in hexaploid wheat using different GWAS models
title_sort uncovering genomic regions controlling plant architectural traits in hexaploid wheat using different gwas models
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-03-01
description Abstract Wheat is a major food crop worldwide. The plant architecture is a complex trait mostly influenced by plant height, tiller number, and leaf morphology. Plant height plays a crucial role in lodging and thus affects yield and grain quality. In this study, a wheat population was genotyped by using Illumina iSelect 90K single nucleotide polymorphism (SNP) assay and finally 22,905 high-quality SNPs were used to perform a genome-wide association study (GWAS) for plant architectural traits employing four multi-locus GWAS (ML-GWAS) and three single-locus GWAS (SL-GWAS) models. As a result, 174 and 97 significant SNPs controlling plant architectural traits were detected by ML-GWAS and SL-GWAS methods, respectively. Among these SNP makers, 43 SNPs were consistently detected, including seven across multiple environments and 36 across multiple methods. Interestingly, five SNPs (Kukri_c34553_89, RAC875_c8121_1490, wsnp_Ex_rep_c66315_64480362, Ku_c5191_340, and tplb0049a09_1302) consistently detected across multiple environments and methods, played a role in modulating both plant height and flag leaf length. Furthermore, candidate SNPs (BS00068592_51, Kukri_c4750_452 and BS00022127_51) constantly repeated in different years and methods associated with flag leaf width and number of tillers. We also detected several SNPs (Jagger_c6772_80, RAC875_c8121_1490, BS00089954_51, Excalibur_01167_1207, and Ku_c5191_340) having common associations with more than one trait across multiple environments. By further appraising these GWAS methods, the pLARmEB and FarmCPU models outperformed in SNP detection compared to the other ML-GWAS and SL-GWAS methods, respectively. Totally, 152 candidate genes were found to be likely involved in plant growth and development. These finding will be helpful for better understanding of the genetic mechanism of architectural traits in wheat.
url https://doi.org/10.1038/s41598-021-86127-z
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