Enriching an intraspecific genetic map and identifying QTL for fiber quality and yield component traits across multiple environments in Upland cotton (Gossypium hirsutum L.)

Publication Overview
TitleEnriching an intraspecific genetic map and identifying QTL for fiber quality and yield component traits across multiple environments in Upland cotton (Gossypium hirsutum L.)
AuthorsLiu X, Teng Z, Wang J, Wu T, Zhang Z, Deng X, Fang X, Tan Z, Ali I, Liu D, Zhang J, Liu D, Liu F, Zhang Z
TypeJournal Article
Journal NameMolecular genetics and genomics : MGG
Year2017
CitationLiu X, Teng Z, Wang J, Wu T, Zhang Z, Deng X, Fang X, Tan Z, Ali I, Liu D, Zhang J, Liu D, Liu F, Zhang Z. Enriching an intraspecific genetic map and identifying QTL for fiber quality and yield component traits across multiple environments in Upland cotton (Gossypium hirsutum L.). Molecular genetics and genomics : MGG. 2017 Jul 21.

Abstract

Cotton is a significant commercial crop that plays an indispensable role in many domains. Constructing high-density genetic maps and identifying stable quantitative trait locus (QTL) controlling agronomic traits are necessary prerequisites for marker-assisted selection (MAS). A total of 14,899 SSR primer pairs designed from the genome sequence of G. raimondii were screened for polymorphic markers between mapping parents CCRI 35 and Yumian 1, and 712 SSR markers showing polymorphism were used to genotype 180 lines from a (CCRI 35 × Yumian 1) recombinant inbred line (RIL) population. Genetic linkage analysis was conducted on 726 loci obtained from the 712 polymorphic SSR markers, along with 1379 SSR loci obtained in our previous study, and a high-density genetic map with 2051 loci was constructed, which spanned 3508.29 cM with an average distance of 1.71 cM between adjacent markers. Marker orders on the linkage map are highly consistent with the corresponding physical orders on a G. hirsutum genome sequence. Based on fiber quality and yield component trait data collected from six environments, 113 QTLs were identified through two analytical methods. Among these 113 QTLs, 50 were considered stable (detected in multiple environments or for which phenotypic variance explained by additive effect was greater than environment effect), and 18 of these 50 were identified with stability by both methods. These 18 QTLs, including eleven for fiber quality and seven for yield component traits, could be priorities for MAS.

Features
This publication contains information about 706 features:
Feature NameUniquenameType
SWU20246SWU20246genetic_marker
SWU20251SWU20251genetic_marker
SWU20296SWU20296genetic_marker
SWU20505SWU20505genetic_marker
SWU20510SWU20510genetic_marker
SWU20513SWU20513genetic_marker
SWU20544SWU20544genetic_marker
SWU20554SWU20554genetic_marker
SWU20559SWU20559genetic_marker
SWU20561SWU20561genetic_marker
SWU20614SWU20614genetic_marker
SWU20616SWU20616genetic_marker
SWU20628SWU20628genetic_marker
SWU20671SWU20671genetic_marker
SWU20757SWU20757genetic_marker
SWU20763SWU20763genetic_marker
SWU20843SWU20843genetic_marker
SWU20891SWU20891genetic_marker
SWU20907SWU20907genetic_marker
SWU20938SWU20938genetic_marker
SWU20941SWU20941genetic_marker
SWU20952SWU20952genetic_marker
SWU20983SWU20983genetic_marker
SWU21349SWU21349genetic_marker
SWU21353SWU21353genetic_marker

Pages

Projects
This publication contains information about 1 projects:
Project NameDescription
CY-RIL-2017
Properties
Additional details for this publication include:
Property NameValue
ISSN1617-4623
Publication ModelPrint-Electronic
eISSN1617-4623
Publication Date2017 Jul 21
Journal AbbreviationMol. Genet. Genomics
DOI10.1007/s00438-017-1347-8
Elocation10.1007/s00438-017-1347-8
LanguageEnglish
Language Abbreng
Publication TypeJournal Article
Journal CountryGermany