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Development of a set of compensating Triticum aestivum-Dasypyrum villosum Robertsonian translocation lines.

Authors
  • Liu, Cheng
  • Qi, Lili
  • Liu, Wenxuan
  • Zhao, Wanchun
  • Wilson, Jamie
  • Friebe, Bernd
  • Gill, Bikram S
Type
Published Article
Journal
Genome / National Research Council Canada = Génome / Conseil national de recherches Canada
Publication Date
Oct 01, 2011
Volume
54
Issue
10
Pages
836–844
Identifiers
DOI: 10.1139/g11-051
PMID: 21961939
Source
Medline
License
Unknown

Abstract

Dasypyrum villosum (L.) Candargy, a wild relative of bread wheat ( Triticum aestivum L.), is the source of many agronomically important genes for wheat improvement. Production of compensating Robertsonian translocations (cRobTs), consisting of D. villosum chromosome arms translocated to homoeologous wheat chromosome arms, is one of the initial steps in exploiting this variation. The cRobTs for D. villosum chromosomes 1V, 4V, and 6V have been reported previously. Here we report attempted cRobTs for wheat - D. villosum chromosome combinations 2D/2V, 3D/3V, 5D/5V, and 7D/7V. The cRobTs for all D. villosum chromosomes were recovered except for the 2VS and 5VL arms. As was the case with the 6D/6V combination, no cRobTs involving 2D/2V chromosomes were recovered; instead, cRobT T2BS·2VL involving a nontargeted chromosome was recovered. All cRobTs are fertile, although the level of spike fertility and hundred kernel weight (HKW) varied among the lines. The set of cRobTs involving 12 of the 14 D. villosum chromosomes will be useful in wheat improvement programs. In fact, among the already reported cRobTs, T6AL·6VS carrying the Pm21 gene is deployed in agriculture and many useful genes have been reported on other cRobTs including resistance to stem rust race UG99 on T6AS·6VL.

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