SNP marker discovery, linkage map construction and identification of QTLs for enhanced salinity tolerance in field pea (Pisum sativum L.)

Publication Overview
TitleSNP marker discovery, linkage map construction and identification of QTLs for enhanced salinity tolerance in field pea (Pisum sativum L.)
AuthorsLeonforte A, Sudheesh S, Cogan NO, Salisbury PA, Nicolas ME, Materne M, Forster JW, Kaur S
TypeJournal Article
Journal NameBMC plant biology
Volume13
Year2013
Page(s)161
CitationLeonforte A, Sudheesh S, Cogan NO, Salisbury PA, Nicolas ME, Materne M, Forster JW, Kaur S. SNP marker discovery, linkage map construction and identification of QTLs for enhanced salinity tolerance in field pea (Pisum sativum L.). BMC plant biology. 2013; 13:161.

Abstract

BACKGROUND
Field pea (Pisum sativum L.) is a self-pollinating, diploid, cool-season food legume. Crop production is constrained by multiple biotic and abiotic stress factors, including salinity, that cause reduced growth and yield. Recent advances in genomics have permitted the development of low-cost high-throughput genotyping systems, allowing the construction of saturated genetic linkage maps for identification of quantitative trait loci (QTLs) associated with traits of interest. Genetic markers in close linkage with the relevant genomic regions may then be implemented in varietal improvement programs.

RESULTS
In this study, single nucleotide polymorphism (SNP) markers associated with expressed sequence tags (ESTs) were developed and used to generate comprehensive linkage maps for field pea. From a set of 36,188 variant nucleotide positions detected through in silico analysis, 768 were selected for genotyping of a recombinant inbred line (RIL) population. A total of 705 SNPs (91.7%) successfully detected segregating polymorphisms. In addition to SNPs, genomic and EST-derived simple sequence repeats (SSRs) were assigned to the genetic map in order to obtain an evenly distributed genome-wide coverage. Sequences associated with the mapped molecular markers were used for comparative genomic analysis with other legume species. Higher levels of conserved synteny were observed with the genomes of Medicago truncatula Gaertn. and chickpea (Cicer arietinum L.) than with soybean (Glycine max [L.] Merr.), Lotus japonicus L. and pigeon pea (Cajanus cajan [L.] Millsp.). Parents and RIL progeny were screened at the seedling growth stage for responses to salinity stress, imposed by addition of NaCl in the watering solution at a concentration of 18 dS m-1. Salinity-induced symptoms showed normal distribution, and the severity of the symptoms increased over time. QTLs for salinity tolerance were identified on linkage groups Ps III and VII, with flanking SNP markers suitable for selection of resistant cultivars. Comparison of sequences underpinning these SNP markers to the M. truncatula genome defined genomic regions containing candidate genes associated with saline stress tolerance.

CONCLUSION
The SNP assays and associated genetic linkage maps developed in this study permitted identification of salinity tolerance QTLs and candidate genes. This constitutes an important set of tools for marker-assisted selection (MAS) programs aimed at performance enhancement of field pea cultivars.

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Pages

Projects
This publication contains information about 1 projects:
Project NameDescription
Pea-saline_sensitivity-Leonforte-2013
Featuremaps
This publication contains information about 1 maps:
Map Name
pea-KaspaxParafield-RIL
Properties
Additional details for this publication include:
Property NameValue
Journal AbbreviationBMC Plant Biol.
DOI10.1186/1471-2229-13-161
Elocation10.1186/1471-2229-13-161
Publication ModelElectronic
ISSN1471-2229
eISSN1471-2229
Publication Date2013
Publication TypeJournal Article
Journal CountryEngland
LanguageEnglish
Language Abbreng
Publication TypeResearch Support, Non-U.S. Gov't