Development of Gossypium anomalum-derived microsatellite markers and their use for genome-wide identification of recombination between the G. anomalum and G. hirsutum genomes

Publication Overview
TitleDevelopment of Gossypium anomalum-derived microsatellite markers and their use for genome-wide identification of recombination between the G. anomalum and G. hirsutum genomes
AuthorsZhai C, Xu P, Zhang X, Guo Q, Zhang X, Xu Z, Shen X
TypeJournal Article
Journal NameTAG. Theoretical and applied genetics. Theoretische und angewandte Genetik
Year2015
CitationZhai C, Xu P, Zhang X, Guo Q, Zhang X, Xu Z, Shen X. Development of Gossypium anomalum-derived microsatellite markers and their use for genome-wide identification of recombination between the G. anomalum and G. hirsutum genomes. TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik. 2015 May 9.

Abstract

KEY MESSAGE
We reported the first development of Gossypium anomalum -derived microsatellite markers and identification of recombination between sexually incompatible species by a synthesized hexaploid on genome level. To continue to develop improved cotton varieties, it is essential to transfer desired characters from diploid wild cotton species such as Gossypium anomalum to cultivated allotetraploid cotton species. However, interspecific reproductive barriers limit gene transfer between species. In a previous study, we used colchicine treatment to produce a synthesized hexaploid derived from an interspecific hybrid between Gossypium hirsutum and G. anomalum and demonstrated its hybridity and doubled status using morphological, cytological and molecular marker methods. In the current study, to effectively monitor G. anomalum genome components in the G. hirsutum background, we developed 5974 non-redundant G. anomalum-derived SSR primer pairs using RNA-Seq technology, which were combined with a publicly available physical map. Based on this combined map and segregation data from the BC2F1 population, we identified a set of 230 informative G. anomalum-specific SSR markers distributed on the chromosomes, which cover 95.72 % of the cotton genome. After analyzing BC2F1 segregation data, 50 recombination types from 357 recombination events were identified, which cover 81.48 % of the corresponding G. anomalum genome. A total of 203 recombination events occurred on chromosome 11, accounting for 56.86 % of the recombination events on all chromosomes. Recombination hotspots were observed at marker intervals JAAS1148-NAU5100 on chromosome 1 and JAAS0426-NAU998 on chromosome 2. Therefore, all G. anomalum chromosomes are capable of recombining with At chromosomes in G. hirsutum. This study represents an important step towards introgressing desirable traits into cultivated cotton from the wild cotton species G. anomalum.

Features
This publication contains information about 6,654 features:
Feature NameUniquenameType
JAAS0101JAAS0101genetic_marker
JAAS0102JAAS0102genetic_marker
JAAS0103JAAS0103genetic_marker
JAAS0104JAAS0104genetic_marker
JAAS0105JAAS0105genetic_marker
JAAS0106JAAS0106genetic_marker
JAAS0107JAAS0107genetic_marker
JAAS0108JAAS0108genetic_marker
JAAS0109JAAS0109genetic_marker
JAAS0110JAAS0110genetic_marker
JAAS0111JAAS0111genetic_marker
JAAS0112JAAS0112genetic_marker
JAAS0113JAAS0113genetic_marker
JAAS0114JAAS0114genetic_marker
JAAS0115JAAS0115genetic_marker
JAAS0116JAAS0116genetic_marker
JAAS0117JAAS0117genetic_marker
JAAS0118JAAS0118genetic_marker
JAAS0119JAAS0119genetic_marker
JAAS0120JAAS0120genetic_marker
JAAS0121JAAS0121genetic_marker
JAAS0122JAAS0122genetic_marker
JAAS0123JAAS0123genetic_marker
JAAS0124JAAS0124genetic_marker
JAAS0125JAAS0125genetic_marker

Pages

Featuremaps
This publication contains information about 1 maps:
Map Name
(86-1 x G. anomalum) x Su8289, BC2F1 (2015)
Properties
Additional details for this publication include:
Property NameValue
Publication ModelPrint-Electronic
ISSN1432-2242
eISSN1432-2242
Publication Date2015 May 9
Journal AbbreviationTheor. Appl. Genet.
LanguageEnglish
Language AbbrENG
Publication TypeJournal Article