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Draft genome of the wheat A-genome progenitor Triticum urartu
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Journal Article
Draft genome of the wheat A-genome progenitor Triticum urartu
2013
Overview
The genome sequence and its analysis of the diploid wild wheat
Triticum urartu
(progenitor of the wheat A genome) represent a tool for studying the complex, polyploid wheat genomes and should be a valuable resource for the genetic improvement of wheat.
An A to D of wheat genomes
The hexaploid genome of bread wheat
Triticum aestivum
, designated AABBDD, evolved as a result of hybridization between three ancestral grasses. Two papers published in the issue of
Nature
present genome sequences and analysis of two of these wheat progenitors. First, the genome sequence of the diploid wild wheat
T. urartu
(ancestor of the A genome), which resembles cultivated wheat more strongly than either
Aegilops speltoides
(the B ancestor) or
Ae. tauschii
(the D donor). And second, the
Ae. tauschii
genome, together with an analysis of its transcriptome. These genomes and their analyses will be powerful tools for the study of complex, polyploid wheat genomes and a valuable resource for genetic improvement of wheat.
Bread wheat (
Triticum aestivum,
AABBDD) is one of the most widely cultivated and consumed food crops in the world. However, the complex polyploid nature of its genome makes genetic and functional analyses extremely challenging. The A genome, as a basic genome of bread wheat and other polyploid wheats, for example,
T. turgidum
(AABB),
T. timopheevii
(AAGG) and
T. zhukovskyi
(AAGGA
m
A
m
), is central to wheat evolution, domestication and genetic improvement
1
. The progenitor species of the A genome is the diploid wild einkorn wheat
T. urartu
2
, which resembles cultivated wheat more extensively than do
Aegilops speltoides
(the ancestor of the B genome
3
) and
Ae. tauschii
(the donor of the D genome
4
), especially in the morphology and development of spike and seed. Here we present the generation, assembly and analysis of a whole-genome shotgun draft sequence of the
T. urartu
genome. We identified protein-coding gene models, performed genome structure analyses and assessed its utility for analysing agronomically important genes and for developing molecular markers. Our
T. urartu
genome assembly provides a diploid reference for analysis of polyploid wheat genomes and is a valuable resource for the genetic improvement of wheat.
Publisher
Nature Publishing Group UK,Nature Publishing Group
Subject
