Construction of a high-density linkage map and mapping quantitative trait loci for somatic embryogenesis using leaf petioles as explants in upland cotton (Gossypium hirsutum L.)

Publication Overview
TitleConstruction of a high-density linkage map and mapping quantitative trait loci for somatic embryogenesis using leaf petioles as explants in upland cotton (Gossypium hirsutum L.)
AuthorsXu Z, Zhang C, Ge X, Wang N, Zhou K, Yang X, Wu Z, Zhang X, Liu C, Yang Z, Li C, Liu K, Yang Z, Qian Y, Li F
TypeJournal Article
Journal NamePlant cell reports
Year2015
CitationXu Z, Zhang C, Ge X, Wang N, Zhou K, Yang X, Wu Z, Zhang X, Liu C, Yang Z, Li C, Liu K, Yang Z, Qian Y, Li F. Construction of a high-density linkage map and mapping quantitative trait loci for somatic embryogenesis using leaf petioles as explants in upland cotton (Gossypium hirsutum L.). Plant cell reports. 2015 Mar 11.

Abstract

KEY MESSAGE
The first high-density linkage map was constructed to identify quantitative trait loci (QTLs) for somatic embryogenesis (SE) in cotton ( Gossypium hirsutum L.) using leaf petioles as explants. Cotton transformation is highly limited by only a few regenerable genotypes and the lack of understanding of the genetic and molecular basis of somatic embryogenesis (SE) in cotton (Gossypium hirsutum L.). To construct a more saturated linkage map and further identify quantitative trait loci (QTLs) for SE using leaf petioles as explants, a high embryogenesis frequency line (W10) from the commercial Chinese cotton cultivar CRI24 was crossed with TM-1, a genetic standard upland cotton with no embryogenesis frequency. The genetic map spanned 2300.41 cM in genetic distance and contained 411 polymorphic simple sequence repeat (SSR) loci. Of the 411 mapped loci, 25 were developed from unigenes identified for SE in our previous study. Six QTLs for SE were detected by composite interval mapping method, each explaining 6.88-37.07 % of the phenotypic variance. Single marker analysis was also performed to verify the reliability of QTLs detection, and the SSR markers NAU3325 and DPL0209 were detected by the two methods. Further studies on the relatively stable and anchoring QTLs/markers for SE in an advanced population of W10 × TM-1 and other cross combinations with different SE abilities may shed light on the genetic and molecular mechanism of SE in cotton.

Germplasm
This publication contains information about 2 stocks:
Stock NameGRIN IDSpeciesType
W10Gossypium hirsutumaccession
W10 x TM-1, F2:3Gossypium hirsutumpopulation
Features
This publication contains information about 944 features:
Feature NameUniquenameType
CRIBIO_0323CRIBIO_0323genetic_marker
CRIBIO_0324CRIBIO_0324genetic_marker
CRIBIO_0325CRIBIO_0325genetic_marker
CRIBIO_0326CRIBIO_0326genetic_marker
CRIBIO_0327CRIBIO_0327genetic_marker
CRIBIO_0328CRIBIO_0328genetic_marker
CRIBIO_0329CRIBIO_0329genetic_marker
CRIBIO_0330CRIBIO_0330genetic_marker
CRIBIO_0331CRIBIO_0331genetic_marker
CRIBIO_0332CRIBIO_0332genetic_marker
CRIBIO_0333CRIBIO_0333genetic_marker
CRIBIO_0334CRIBIO_0334genetic_marker
CRIBIO_0335CRIBIO_0335genetic_marker
CRIBIO_0336CRIBIO_0336genetic_marker
CRIBIO_0337CRIBIO_0337genetic_marker
CRIBIO_0338CRIBIO_0338genetic_marker
CRIBIO_0339CRIBIO_0339genetic_marker
CRIBIO_0342CRIBIO_0342genetic_marker
CRIBIO_0343CRIBIO_0343genetic_marker
CRIBIO_0344CRIBIO_0344genetic_marker
CRIBIO_0345CRIBIO_0345genetic_marker
CRIBIO_0346CRIBIO_0346genetic_marker
CRIBIO_0347CRIBIO_0347genetic_marker
CRIBIO_0348CRIBIO_0348genetic_marker
CRIBIO_0350CRIBIO_0350genetic_marker

Pages

Projects
This publication contains information about 1 projects:
Project NameDescription
WT-F2:3-2015
Featuremaps
This publication contains information about 1 maps:
Map Name
W10 x TM-1, F2:3 (2015)
Properties
Additional details for this publication include:
Property NameValue
Language AbbrENG
Publication TypeJournal Article
Publication ModelPrint-Electronic
ISSN1432-203X
eISSN1432-203X
Publication Date2015 Mar 11
Journal AbbreviationPlant Cell Rep.
LanguageEnglish