玉米对马铃薯 Y 病毒抗性基因 Scmv2 的遗传和物理精细定位

Genetic and physical fine mapping of Scmv2, a potyvirus resistance gene in maize.

机构信息

Department of Genetics and Biotechnology, Faculty of Agricultural Sciences, University of Aarhus, Forsøgsvej 1, 4200, Slagelse, Denmark.

出版信息

Theor Appl Genet. 2010 May;120(8):1621-34. doi: 10.1007/s00122-010-1281-1. Epub 2010 Feb 14.

DOI:10.1007/s00122-010-1281-1

PMID:20155410

Abstract

Sugarcane mosaic virus (SCMV) is an important virus pathogen both in European and Chinese maize production, causing serious losses in grain and forage yield in susceptible cultivars. Two major resistance loci confer resistance to SCMV, one located on chromosome 3 (Scmv2) and one on chromosome 6 (Scmv1). We developed a large isogenic mapping population segregating in the Scmv2, but not the Scmv1 region, to minimize genetic variation potentially affecting expression of SCMV resistance. We fine mapped Scmv2 to a region of 0.28 cM, covering a physical distance of 1.3426 Mb, and developed six new polymorphic SSR markers based on publicly available BAC sequences within this region. At present, we still have three recombinants left between Scmv2 and the nearest polymorphic marker on either side of the Scmv2 locus. The region showed synteny to a 1.6 Mb long sequence on chromosome 12 in rice. Analysis of the public B73 BAC library as well as the syntenic rice region did not reveal any similarity to known resistance genes. However, four new candidate genes with a possible involvement in movement of virus were detected.

摘要

甘蔗花叶病毒（SCMV）是一种在欧洲和中国玉米生产中都很重要的病毒病原体，可导致感病品种的籽粒和饲料产量严重损失。有两个主要的抗性基因座可赋予对 SCMV 的抗性，一个位于 3 号染色体上（Scmv2），另一个位于 6 号染色体上（Scmv1）。我们开发了一个大型的在 Scmv2 而不在 Scmv1 区域分离的同基因作图群体，以最大限度地减少可能影响 SCMV 抗性表达的遗传变异。我们将 Scmv2 精细定位到一个 0.28cM 的区域，涵盖 1.3426Mb 的物理距离，并在该区域内基于公开的 BAC 序列开发了六个新的多态性 SSR 标记。目前，在 Scmv2 与该基因座两侧最近的多态性标记之间仍有三个重组体。该区域与水稻 12 号染色体上一个 1.6Mb 长的序列具有同源性。对公共 B73 BAC 文库以及同源水稻区域的分析并未揭示任何与已知抗性基因相似的序列。然而，检测到四个可能参与病毒运动的新候选基因。

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玉米对马铃薯 Y 病毒抗性基因 Scmv2 的遗传和物理精细定位

Genetic and physical fine mapping of Scmv2, a potyvirus resistance gene in maize.

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