Translational Genomics in Legumes Allowed Placing In Silico 5460 Unigenes on the Pea Functional Map and Identified Candidate Genes in Pisum sativum L

Publication Overview
TitleTranslational Genomics in Legumes Allowed Placing In Silico 5460 Unigenes on the Pea Functional Map and Identified Candidate Genes in Pisum sativum L
AuthorsBordat A, Savois V, Nicolas M, Salse J, Chauveau A, Bourgeois M, Potier J, Houtin H, Rond C, Murat F, Marget P, Aubert G, Burstin J
TypeJournal Article
Journal NameG3 (Bethesda, Md.)
Volume1
Issue2
Year2011
Page(s)93-103
CitationBordat A, Savois V, Nicolas M, Salse J, Chauveau A, Bourgeois M, Potier J, Houtin H, Rond C, Murat F, Marget P, Aubert G, Burstin J. Translational Genomics in Legumes Allowed Placing In Silico 5460 Unigenes on the Pea Functional Map and Identified Candidate Genes in Pisum sativum L. G3 (Bethesda, Md.). 2011 Jul; 1(2):93-103.

Abstract

To identify genes involved in phenotypic traits, translational genomics from highly characterized model plants to poorly characterized crop plants provides a valuable source of markers to saturate a zone of interest as well as functionally characterized candidate genes. In this paper, an integrated view of the pea genetic map was developed. A series of gene markers were mapped and their best reciprocal homologs were identified on M. truncatula, L. japonicus, soybean, and poplar pseudomolecules. Based on the syntenic relationships uncovered between pea and M. truncatula, 5460 pea Unigenes were tentatively placed on the consensus map. A new bioinformatics tool, http://www.thelegumeportal.net/pea_mtr_translational_toolkit, was developed that allows, for any gene sequence, to search its putative position on the pea consensus map and hence to search for candidate genes among neighboring Unigenes. As an example, a promising candidate gene for the hypernodulation mutation nod3 in pea was proposed based on the map position of the likely homolog of Pub1, a M. truncatula gene involved in nodulation regulation. A broader view of pea genome evolution was obtained by revealing syntenic relationships between pea and sequenced genomes. Blocks of synteny were identified which gave new insights into the evolution of chromosome structure in Papillionoids and Eudicots. The power of the translational genomics approach was underlined.

Features
This publication contains information about 47 features:
Feature NameUniquenameType
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PsDof6PsDof6genetic_marker
PsDof7PsDof7genetic_marker
PSIAA45DPSIAA45Dgenetic_marker
PSIAAV1PSIAAV1genetic_marker
PSIAAV2PSIAAV2genetic_marker
PSIAAV4PSIAAV4genetic_marker
PsLAX1PsLAX1genetic_marker
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RNApol2RNApol2genetic_marker
SbeISbeIgenetic_marker
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Tir1Tir1genetic_marker
Tpe4ATpe4Agenetic_marker
TransTransgenetic_marker
VpeVpegenetic_marker
VsrVsrgenetic_marker
ACCox_CAPS2ACCox_CAPS2genetic_marker
PsDof1PsDof1genetic_marker
PutTIP_dCAPSPutTIP_dCAPSgenetic_marker
Sts1Sts1genetic_marker
UNI_CAPS1UNI_CAPS1genetic_marker

Pages

Featuremaps
This publication contains information about 1 maps:
Map Name
pea-consensusMap-2011
Properties
Additional details for this publication include:
Property NameValue
Publication ModelPrint-Electronic
ISSN2160-1836
eISSN2160-1836
Publication Date2011 Jul
Journal AbbreviationG3 (Bethesda)
DOI10.1534/g3.111.000349
Elocation10.1534/g3.111.000349
LanguageEnglish
Language Abbreng
Publication TypeJournal Article
Journal CountryUnited States