Genome-wide association mapping of aluminum toxicity tolerance and fine mapping of a candidate gene for Nrat1 in rice.

Genome-wide association mapping of aluminum toxicity tolerance and fine mapping of a candidate gene for Nrat1 in rice.

Aluminum (Al) stress is becoming the major limiting factor in crop production in acidic soils. Rice has been reported as the most Al-tolerant crop and the capacity of Al toxicity tolerance is generally evaluated by comparing root growth under Al stress. Here, we performed an association mapping of A...

Full description

Bibliographic Details
Main Authors: Yonghong Tao, Yanan Niu, Yun Wang, Tianxiao Chen, Shahzad Amir Naveed, Jian Zhang, Jianlong Xu, Zhikang Li
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2018-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5997306?pdf=render
id doaj-5e73a643b7df494680acf352ceeb758b
record_format Article
spelling doaj-5e73a643b7df494680acf352ceeb758b2020-11-25T01:46:30ZengPublic Library of Science (PLoS)PLoS ONE1932-62032018-01-01136e019858910.1371/journal.pone.0198589Genome-wide association mapping of aluminum toxicity tolerance and fine mapping of a candidate gene for Nrat1 in rice.Yonghong TaoYanan NiuYun WangTianxiao ChenShahzad Amir NaveedJian ZhangJianlong XuZhikang LiAluminum (Al) stress is becoming the major limiting factor in crop production in acidic soils. Rice has been reported as the most Al-tolerant crop and the capacity of Al toxicity tolerance is generally evaluated by comparing root growth under Al stress. Here, we performed an association mapping of Al toxicity tolerance using a core collection of 211 indica rice accessions with 700 K high quality SNP data. A total of 21 putative QTL affecting shoot height (SH), root length (RL), shoot fresh weight (SFW), shoot dry weight (SDW), root dry weight (RDW) and shoot water content (SWC) were identified at seedling stage, including three QTL detected only under control condition, eight detected only under Al stress condition, ten simultaneously detected in both control and Al stress conditions, and seven were identified by stress tolerance index of their corresponding traits. Total of 21 candidate genes for 7 important QTL regions associated with Al toxicity tolerance were identified based on combined haplotype analysis and functional annotation, and the most likely candidate gene(s) for each important QTL were also discussed. Also a candidate gene Nrat1 on chromosome 2 was further fine-mapped using BSA-seq and linkage analysis in the F2 population derived from the cross of Al tolerant accession CC105 and super susceptible accession CC180. A new non-synonymous SNP variation was observed at Nrat1 between CC105 and CC180, which resulted in an amino-acid substitution from Ala (A) in CC105 to Asp (D) in CC180. Haplotype analysis of Nrat1 using 327 3K RGP accessions indicated that minor allele variations in aus and indica subpopulations decreased Al toxicity tolerance in rice. The candidate genes identified in this study provide valuable information for improvement of Al toxicity tolerance in rice. Our research indicated that minor alleles are important for QTL mapping and its application in rice breeding when natural gene resources are used.http://europepmc.org/articles/PMC5997306?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Yonghong Tao
Yanan Niu
Yun Wang
Tianxiao Chen
Shahzad Amir Naveed
Jian Zhang
Jianlong Xu
Zhikang Li
spellingShingle Yonghong Tao
Yanan Niu
Yun Wang
Tianxiao Chen
Shahzad Amir Naveed
Jian Zhang
Jianlong Xu
Zhikang Li
Genome-wide association mapping of aluminum toxicity tolerance and fine mapping of a candidate gene for Nrat1 in rice.
PLoS ONE
author_facet Yonghong Tao
Yanan Niu
Yun Wang
Tianxiao Chen
Shahzad Amir Naveed
Jian Zhang
Jianlong Xu
Zhikang Li
author_sort Yonghong Tao
title Genome-wide association mapping of aluminum toxicity tolerance and fine mapping of a candidate gene for Nrat1 in rice.
title_short Genome-wide association mapping of aluminum toxicity tolerance and fine mapping of a candidate gene for Nrat1 in rice.
title_full Genome-wide association mapping of aluminum toxicity tolerance and fine mapping of a candidate gene for Nrat1 in rice.
title_fullStr Genome-wide association mapping of aluminum toxicity tolerance and fine mapping of a candidate gene for Nrat1 in rice.
title_full_unstemmed Genome-wide association mapping of aluminum toxicity tolerance and fine mapping of a candidate gene for Nrat1 in rice.
title_sort genome-wide association mapping of aluminum toxicity tolerance and fine mapping of a candidate gene for nrat1 in rice.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2018-01-01
description Aluminum (Al) stress is becoming the major limiting factor in crop production in acidic soils. Rice has been reported as the most Al-tolerant crop and the capacity of Al toxicity tolerance is generally evaluated by comparing root growth under Al stress. Here, we performed an association mapping of Al toxicity tolerance using a core collection of 211 indica rice accessions with 700 K high quality SNP data. A total of 21 putative QTL affecting shoot height (SH), root length (RL), shoot fresh weight (SFW), shoot dry weight (SDW), root dry weight (RDW) and shoot water content (SWC) were identified at seedling stage, including three QTL detected only under control condition, eight detected only under Al stress condition, ten simultaneously detected in both control and Al stress conditions, and seven were identified by stress tolerance index of their corresponding traits. Total of 21 candidate genes for 7 important QTL regions associated with Al toxicity tolerance were identified based on combined haplotype analysis and functional annotation, and the most likely candidate gene(s) for each important QTL were also discussed. Also a candidate gene Nrat1 on chromosome 2 was further fine-mapped using BSA-seq and linkage analysis in the F2 population derived from the cross of Al tolerant accession CC105 and super susceptible accession CC180. A new non-synonymous SNP variation was observed at Nrat1 between CC105 and CC180, which resulted in an amino-acid substitution from Ala (A) in CC105 to Asp (D) in CC180. Haplotype analysis of Nrat1 using 327 3K RGP accessions indicated that minor allele variations in aus and indica subpopulations decreased Al toxicity tolerance in rice. The candidate genes identified in this study provide valuable information for improvement of Al toxicity tolerance in rice. Our research indicated that minor alleles are important for QTL mapping and its application in rice breeding when natural gene resources are used.
url http://europepmc.org/articles/PMC5997306?pdf=render
work_keys_str_mv AT yonghongtao genomewideassociationmappingofaluminumtoxicitytoleranceandfinemappingofacandidategenefornrat1inrice
AT yananniu genomewideassociationmappingofaluminumtoxicitytoleranceandfinemappingofacandidategenefornrat1inrice
AT yunwang genomewideassociationmappingofaluminumtoxicitytoleranceandfinemappingofacandidategenefornrat1inrice
AT tianxiaochen genomewideassociationmappingofaluminumtoxicitytoleranceandfinemappingofacandidategenefornrat1inrice
AT shahzadamirnaveed genomewideassociationmappingofaluminumtoxicitytoleranceandfinemappingofacandidategenefornrat1inrice
AT jianzhang genomewideassociationmappingofaluminumtoxicitytoleranceandfinemappingofacandidategenefornrat1inrice
AT jianlongxu genomewideassociationmappingofaluminumtoxicitytoleranceandfinemappingofacandidategenefornrat1inrice
AT zhikangli genomewideassociationmappingofaluminumtoxicitytoleranceandfinemappingofacandidategenefornrat1inrice
_version_ 1725019079826210816

Similar Items