USDA-ARS, Northern Crop Science Lab, Fargo, ND 58102-2765, USA.
Theor Appl Genet. 2011 Jun;123(1):159-67. doi: 10.1007/s00122-011-1574-z. Epub 2011 Mar 25.
Stem rust (Puccinia graminis f. sp. tritici Eriks. & E. Henn.) (the causal agent of wheat stem rust) race Ug99 (also designated TTKSK) and its derivatives have defeated several important stem rust resistance genes widely used in wheat (Triticum aestivum L.) production, rendering much of the worldwide wheat acreage susceptible. In order to identify new resistance sources, a large collection of wheat relatives and genetic stocks maintained at the Wheat Genetic and Genomic Resources Center was screened. The results revealed that most accessions of the diploid relative Dasypyrum villosum (L.) Candargy were highly resistant. The screening of a set of wheat-D. villosum chromosome addition lines revealed that the wheat-D. villosum disomic addition line DA6V#3 was moderately resistant to race Ug99. The objective of the present study was to produce and characterize compensating wheat-D. villosum whole arm Robertsonian translocations (RobTs) involving chromosomes 6D of wheat and 6V#3 of D. villosum through the mechanism of centric breakage-fusion. Seven 6V#3-specific EST-STS markers were developed for screening F(2) progeny derived from plants double-monosomic for chromosomes 6D and 6V#3. Surprisingly, although 6D was the target chromosome, all recovered RobTs involved chromosome 6A implying a novel mechanism for the origin of RobTs. Homozygous translocations (T6AS·6V#3L and T6AL·6V#3S) with good plant vigor and full fertility were selected from F(3) families. A stem rust resistance gene was mapped to the long arm 6V#3L in T6AS·6V#3L and was designated as Sr52. Sr52 is temperature-sensitive and is most effective at 16°C, partially effective at 24°C, and ineffective at 28°C. The T6AS·6V#3L stock is a new source of resistance to Ug99, is cytogenetically stable, and may be useful in wheat improvement.
茎锈病(Puccinia graminis f. sp. tritici Eriks. & E. Henn.)(小麦茎锈病的病原体)菌株 Ug99(也称为 TTKSK)及其衍生物已经击败了几种在小麦(Triticum aestivum L.)生产中广泛使用的重要茎锈病抗性基因,使全球许多小麦种植区易受感染。为了鉴定新的抗性来源,在小麦遗传和基因组资源中心(Wheat Genetic and Genomic Resources Center)中对大量小麦近缘种和遗传品系进行了筛选。结果表明,大多数二倍体近缘种粗山羊草(Dasypyrum villosum (L.) Candargy)的品系高度抗性。对一组小麦-粗山羊草染色体添加系的筛选表明,小麦-粗山羊草二体添加系 DA6V#3 对 Ug99 菌株中度抗性。本研究的目的是通过着丝粒断裂-融合机制产生并鉴定涉及小麦 6D 染色体和粗山羊草 6V#3 染色体的补偿性小麦-粗山羊草整条臂罗伯逊易位(RobTs)。为了筛选来自双单体 6D 和 6V#3 植物的 F2 后代,开发了 7 个 6V#3 特异性 EST-STS 标记。令人惊讶的是,尽管 6D 是目标染色体,但所有回收的 RobTs 都涉及 6A 染色体,这表明 RobTs 的起源有一个新的机制。从 F3 家系中选择了具有良好生长势和完全育性的纯合易位(T6AS·6V#3L 和 T6AL·6V#3S)。将一个茎锈病抗性基因定位到 T6AS·6V#3L 的 6V#3L 长臂上,并将其命名为 Sr52。Sr52 是温度敏感的,在 16°C 时最有效,在 24°C 时部分有效,在 28°C 时无效。T6AS·6V#3L 品系是 Ug99 的一个新抗性来源,具有细胞遗传学稳定性,可能在小麦改良中有用。
