An island of receptor-like genes at the Rrs13 locus on barley chromosome 6HS co-locate with three novel sources of scald resistance.

IF 4.4 1区 农林科学 Q1 AGRONOMY Theoretical and Applied Genetics Pub Date : 2024-10-09 DOI:10.1007/s00122-024-04746-2
Peter E Eckstein, Lindsay J Griffith, Xiang M Zhang, T Kelly Turkington, Mark G Colin, Samuel Holden, Sean Walkowiak, Gurcharn S Brar, Aaron D Beattie
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Abstract

Three Hordeum spontaneum-derived resistances (referred to as 145L2, 41T1 and 40Y5) have demonstrated long-term effectiveness against barley scald, caused by Rhynchosporium commune, in western Canada. Genetic mapping of these resistances in three populations, and the use of five barley genome assemblies, revealed they co-located to a narrowly defined 0.58-1.2 Mbp region of chromosome 6HS containing the Rrs13 scald resistance gene. Differential disease reactions among the three resistances and a Rrs13 carrier (AB6) to a panel of 24 scald isolates indicated that the four resistances were unique from one another. A marker created to target the 6HS scald locus was screened across a panel of barley germplasm that included H. vulgare, H. spontaneum and H. bulbosum lines. The marker showed specificity to H. vulgare lines known to carry the 6HS scald resistances and to two H. spontaneum lines that trace their origins to Jordan. Within the 0.58-1.2 Mbp region were 2-7 tandemly repeated leucine-rich repeat receptor-like proteins (LRR-RLP) and one lectin receptor-like kinase (Lec-RLK) genes with abundant sequence variation between them. The well-defined role that RLP and RLK genes play in plant defense responses make them logical candidate resistance genes, with one possible hypothesis being that each unique scald resistance may be encoded by a different RLP that interacts with a common RLK. It is suggested the three scald resistances be temporarily named Rrs13145L2, Rrs1341T1 and Rrs1340Y5 to recognize their co-location to the Rrs13 locus until it is determined whether these resistances represent unique genes or alleles of the same gene.

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大麦 6HS 染色体 Rrs13 基因座上的受体样基因岛与三种新型烫伤抗性来源同位。
在加拿大西部,三种源自大麦(Hordeum spontaneum)的抗性(分别称为 145L2、41T1 和 40Y5)已被证明对由大麦赤霉病菌(Rhynchosporium commune)引起的大麦灼伤病长期有效。在三个种群中对这些抗性进行遗传测绘,并利用五个大麦基因组组装,发现它们共同位于染色体 6HS 上一个狭义的 0.58-1.2 Mbp 区域,该区域含有 Rrs13 烫伤抗性基因。三种抗性和 Rrs13 基因载体(AB6)对 24 种烫伤分离物的不同病害反应表明,这四种抗性互不相同。在包括 H. vulgare、H. spontaneum 和 H. bulbosum 品系在内的大麦种质中筛选出了针对 6HS 烫伤基因座的标记。该标记对已知携带 6HS 烫伤抗性的 H. vulgare 品系和两个起源于约旦的 H. spontaneum 品系具有特异性。在 0.58-1.2 Mbp 的区域内,有 2-7 个串联重复的富亮氨酸重复受体样蛋白(LRR-RLP)和一个凝集素受体样激酶(Lec-RLK)基因,它们之间的序列差异很大。RLP 和 RLK 基因在植物防御反应中所起的作用已被明确定义,因此它们是合乎逻辑的候选抗性基因,一种可能的假设是,每种独特的抗烫伤基因都可能是由不同的 RLP 与共同的 RLK 相互作用而编码的。建议将这三种抗烫性暂时命名为 Rrs13145L2、Rrs1341T1 和 Rrs1340Y5,以识别它们在 Rrs13 基因座上的共同位置,直到确定这些抗烫性是代表独特的基因还是同一基因的等位基因。
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来源期刊
CiteScore
9.60
自引率
7.40%
发文量
241
审稿时长
2.3 months
期刊介绍: Theoretical and Applied Genetics publishes original research and review articles in all key areas of modern plant genetics, plant genomics and plant biotechnology. All work needs to have a clear genetic component and significant impact on plant breeding. Theoretical considerations are only accepted in combination with new experimental data and/or if they indicate a relevant application in plant genetics or breeding. Emphasizing the practical, the journal focuses on research into leading crop plants and articles presenting innovative approaches.
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