Draft genome sequence of pigeonpea (Cajanus cajan), an orphan legume crop of resource-poor farmers

Publication Overview
TitleDraft genome sequence of pigeonpea (Cajanus cajan), an orphan legume crop of resource-poor farmers
AuthorsVarshney RK, Chen W, Li Y, Bharti AK, Saxena RK, Schlueter JA, Donoghue MTA, Azam S, Fan G, Whaley AM, Farmer AD, Sheridan J, Iwata A, Tuteja R, Penmetsa RV, Wu W, Upadhyaya HD, Yang SP, Shah T, Saxena KB, Michael T, McCombie WR, Yang B, Zhang G, Yang H, Wang J, Spillane C, Cook DR, May GD, Xu X, Jackson SA
TypeJournal Article
Volume30
Year2012
Page(s)83-89
CitationVarshney RK, Chen W, Li Y, Bharti AK, Saxena RK, Schlueter JA, Donoghue MTA, Azam S, Fan G, Whaley AM, Farmer AD, Sheridan J, Iwata A, Tuteja R, Penmetsa RV, Wu W, Upadhyaya HD, Yang SP, Shah T, Saxena KB, Michael T, McCombie WR, Yang B, Zhang G, Yang H, Wang J, Spillane C, Cook DR, May GD, Xu X, Jackson SA. Draft genome sequence of pigeonpea (Cajanus cajan), an orphan legume crop of resource-poor farmers. Nature Biotechnology. 2012 Nov 06; 30:83-89.

Abstract

Pigeonpea is an important legume food crop grown primarily by smallholder farmers in many semi-arid tropical regions of the world. We used the Illumina next-generation sequencing platform to generate 237.2 Gb of sequence, which along with Sanger-based bacterial artificial chromosome end sequences and a genetic map, we assembled into scaffolds representing 72.7% (605.78 Mb) of the 833.07 Mb pigeonpea genome. Genome analysis predicted 48,680 genes for pigeonpea and also showed the potential role that certain gene families, for example, drought tolerance–related genes, have played throughout the domestication of pigeonpea and the evolution of its ancestors. Although we found a few segmental duplication events, we did not observe the recent genome-wide duplication events observed in soybean. This reference genome sequence will facilitate the identification of the genetic basis of agronomically important traits, and accelerate the development of improved pigeonpea varieties that could improve food security in many developing countries.
Features
This publication contains information about 23,410 features:
Feature NameUniquenameType
CcGM06276CcGM06276genetic_marker
CcGM06277CcGM06277genetic_marker
CcGM06278CcGM06278genetic_marker
CcGM06279CcGM06279genetic_marker
CcGM06280CcGM06280genetic_marker
CcGM06281CcGM06281genetic_marker
CcGM06282CcGM06282genetic_marker
CcGM06283CcGM06283genetic_marker
CcGM06284CcGM06284genetic_marker
CcGM06285CcGM06285genetic_marker
CcGM06286CcGM06286genetic_marker
CcGM06287CcGM06287genetic_marker
CcGM06288CcGM06288genetic_marker
CcGM06289CcGM06289genetic_marker
CcGM06290CcGM06290genetic_marker
CcGM06291CcGM06291genetic_marker
CcGM06292CcGM06292genetic_marker
CcGM06293CcGM06293genetic_marker
CcGM06294CcGM06294genetic_marker
CcGM06295CcGM06295genetic_marker
CcGM06296CcGM06296genetic_marker
CcGM06297CcGM06297genetic_marker
CcGM06298CcGM06298genetic_marker
CcGM06299CcGM06299genetic_marker
CcGM06300CcGM06300genetic_marker

Pages

Properties
Additional details for this publication include:
Property NameValue
Start Page83
Publication Date2012 Nov 06
URLhttps://www.nature.com/articles/nbt.2022