Resequencing of 243 diploid cotton accessions based on an updated A genome identifies the genetic basis of key agronomic traits

Publication Overview
TitleResequencing of 243 diploid cotton accessions based on an updated A genome identifies the genetic basis of key agronomic traits
AuthorsDu X, Huang G, He S, Yang Z, Sun G, Ma X, Li N, Zhang X, Sun J, Liu M, Jia Y, Pan Z, Gong W, Liu Z, Zhu H, Ma L, Liu F, Yang D, Wang F, Fan W, Gong Q, Peng Z, Wang L, Wang X, Xu S, Shang H, Lu C, Zheng H, Huang S, Lin T, Zhu Y, Li F
TypeJournal Article
Journal NameNature genetics
Year2018
CitationDu X, Huang G, He S, Yang Z, Sun G, Ma X, Li N, Zhang X, Sun J, Liu M, Jia Y, Pan Z, Gong W, Liu Z, Zhu H, Ma L, Liu F, Yang D, Wang F, Fan W, Gong Q, Peng Z, Wang L, Wang X, Xu S, Shang H, Lu C, Zheng H, Huang S, Lin T, Zhu Y, Li F. Resequencing of 243 diploid cotton accessions based on an updated A genome identifies the genetic basis of key agronomic traits. Nature genetics. 2018 May 07.

Abstract

The ancestors of Gossypium arboreum and Gossypium herbaceum provided the A subgenome for the modern cultivated allotetraploid cotton. Here, we upgraded the G. arboreum genome assembly by integrating different technologies. We resequenced 243 G. arboreum and G. herbaceum accessions to generate a map of genome variations and found that they are equally diverged from Gossypium raimondii. Independent analysis suggested that Chinese G. arboreum originated in South China and was subsequently introduced to the Yangtze and Yellow River regions. Most accessions with domestication-related traits experienced geographic isolation. Genome-wide association study (GWAS) identified 98 significant peak associations for 11 agronomically important traits in G. arboreum. A nonsynonymous substitution (cysteine-to-arginine substitution) of GaKASIII seems to confer substantial fatty acid composition (C16:0 and C16:1) changes in cotton seeds. Resistance to fusarium wilt disease is associated with activation of GaGSTF9 expression. Our work represents a major step toward understanding the evolution of the A genome of cotton.

Features
This publication contains information about 25,394 features:
Feature NameUniquenameType
CRI-A2_SNP_Ga11_18889510CRI-A2_SNP_Ga11_18889510genetic_marker
CRI-A2_SNP_Ga12_92582752CRI-A2_SNP_Ga12_92582752genetic_marker
CRI-A2_SNP_Ga12_96256905CRI-A2_SNP_Ga12_96256905genetic_marker
CRI-A2_SNP_Ga12_96305717CRI-A2_SNP_Ga12_96305717genetic_marker
CRI-A2_SNP_Ga12_98090590CRI-A2_SNP_Ga12_98090590genetic_marker
CRI-A2_SNP_Ga13_117960868CRI-A2_SNP_Ga13_117960868genetic_marker
CRI-A2_SNP_Ga13_2309774CRI-A2_SNP_Ga13_2309774genetic_marker
CRI-A2_SNP_Ga13_4972998CRI-A2_SNP_Ga13_4972998genetic_marker
CRI-A2_SNP_Ga13_65297481CRI-A2_SNP_Ga13_65297481genetic_marker
fusarium wilt disease incidenceGWAS0000001GWAS
fusarium wilt disease incidenceGWAS0000002GWAS
fusarium wilt disease incidenceGWAS0000003GWAS
fusarium wilt disease incidenceGWAS0000004GWAS
number of sympodial branch nodesGWAS0000005GWAS
number of sympodial branch nodesGWAS0000006GWAS
number of sympodial branch nodesGWAS0000007GWAS
number of sympodial branch nodesGWAS0000008GWAS
number of sympodial branch nodesGWAS0000009GWAS
days to 50% floweringGWAS0000010GWAS
days to 50% floweringGWAS0000011GWAS
seed fuzz gradeGWAS0000012GWAS
seed fuzz gradeGWAS0000013GWAS
seed fuzz gradeGWAS0000014GWAS
seed fuzz gradeGWAS0000015GWAS
seed fuzz gradeGWAS0000016GWAS

Pages

Projects
This publication contains information about 2 projects:
Project NameDescription
A2-CRI_key-agronomics_CRI-Li-2018_GWAS
A2-CRI_key-agronomics_CRI-Li-2018_PHENO
Properties
Additional details for this publication include:
Property NameValue
DOI10.1038/s41588-018-0116-x
eISSN1546-1718
Elocation10.1038/s41588-018-0116-x
ISSN1546-1718
Journal AbbreviationNat. Genet.
Journal CountryUnited States
LanguageEnglish
Language Abbreng
Publication Date2018 May 07
Publication ModelPrint-Electronic
Publication TypeJournal Article
Published Location