Gene-based SNP discovery and genetic mapping in pea

Publication Overview
TitleGene-based SNP discovery and genetic mapping in pea
AuthorsSindhu A, Ramsay L, Sanderson LA, Stonehouse R, Li R, Condie J, Shunmugam AS, Liu Y, Jha AB, Diapari M, Burstin J, Aubert G, Tar'an B, Bett KE, Warkentin TD, Sharpe AG
TypeJournal Article
Journal NameTAG. Theoretical and applied genetics. Theoretische und angewandte Genetik
Year2014
CitationSindhu A, Ramsay L, Sanderson LA, Stonehouse R, Li R, Condie J, Shunmugam AS, Liu Y, Jha AB, Diapari M, Burstin J, Aubert G, Tar'an B, Bett KE, Warkentin TD, Sharpe AG. Gene-based SNP discovery and genetic mapping in pea. TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik. 2014 Aug 15.

Abstract

KEY MESSAGE
Gene-based SNPs were identified and mapped in pea using five recombinant inbred line populations segregating for traits of agronomic importance. Pea (Pisum sativum L.) is one of the world's oldest domesticated crops and has been a model system in plant biology and genetics since the work of Gregor Mendel. Pea is the second most widely grown pulse crop in the world following common bean. The importance of pea as a food crop is growing due to its combination of moderate protein concentration, slowly digestible starch, high dietary fiber concentration, and its richness in micronutrients; however, pea has lagged behind other major crops in harnessing recent advances in molecular biology, genomics and bioinformatics, partly due to its large genome size with a large proportion of repetitive sequence, and to the relatively limited investment in research in this crop globally. The objective of this research was the development of a genome-wide transcriptome-based pea single-nucleotide polymorphism (SNP) marker platform using next-generation sequencing technology. A total of 1,536 polymorphic SNP loci selected from over 20,000 non-redundant SNPs identified using deep transcriptome sequencing of eight diverse Pisum accessions were used for genotyping in five RIL populations using an Illumina GoldenGate assay. The first high-density pea SNP map defining all seven linkage groups was generated by integrating with previously published anchor markers. Syntenic relationships of this map with the model legume Medicago truncatula and lentil (Lens culinaris Medik.) maps were established. The genic SNP map establishes a foundation for future molecular breeding efforts by enabling both the identification and tracking of introgression of genomic regions harbouring QTLs related to agronomic and seed quality traits.

Features
This publication contains information about 1,536 features:
Feature NameUniquenameType
PsC21548p113PsC21548p113genetic_marker
PsC21549p66PsC21549p66genetic_marker
PsC21588p219PsC21588p219genetic_marker
PsC2159p286PsC2159p286genetic_marker
PsC2160p150PsC2160p150genetic_marker
PsC21644p71PsC21644p71genetic_marker
PsC21695p164PsC21695p164genetic_marker
PsC2169p461PsC2169p461genetic_marker
PsC21767p87PsC21767p87genetic_marker
PsC21772p86PsC21772p86genetic_marker
PsC21783p63PsC21783p63genetic_marker
PsC21822p384PsC21822p384genetic_marker
PsC21835p265PsC21835p265genetic_marker
PsC21844p146PsC21844p146genetic_marker
PsC21936p138PsC21936p138genetic_marker
PsC21950p459PsC21950p459genetic_marker
PsC21963p65PsC21963p65genetic_marker
PsC2198p415PsC2198p415genetic_marker
PsC22031p423PsC22031p423genetic_marker
PsC22045p371PsC22045p371genetic_marker
PsC22116p426PsC22116p426genetic_marker
PsC22157p203PsC22157p203genetic_marker
PsC2218p334PsC2218p334genetic_marker
PsC22198p122PsC22198p122genetic_marker
PsC2224p512PsC2224p512genetic_marker

Pages

Featuremaps
This publication contains information about 1 maps:
Map Name
pea-consensusMap-2014
Properties
Additional details for this publication include:
Property NameValue
Publication ModelPrint-Electronic
ISSN1432-2242
eISSN1432-2242
Publication Date2014 Aug 15
Journal AbbreviationTheor. Appl. Genet.
LanguageEnglish
Language AbbrENG
Publication TypeJournal Article