Fine mapping of the Pc locus of Sorghum bicolor, a gene controlling the reaction to a fungal pathogen and its host-selective toxin

Ervin D. Nagy; Tso-Ching Lee; Wusirika Ramakrishna; Zijun Xu; Patricia E. Klein; Phillip SanMiguel; Chiu-Ping Cheng; Jingling Li; Katrien M. Devos; Keith Schertz; Larry Dunkle; Jeffrey L. Bennetzen

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Fine mapping of the Pc locus of Sorghum bicolor, a gene controlling the reaction to a fungal pathogen and its host-selective toxin

机译：双色高粱Pc基因座的精细定位图，该基因控制与真菌病原体及其宿主选择性毒素的反应

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Milo disease in sorghum is caused by isolates of the soil-borne fungus Periconia circinata that produce PC-toxin. Susceptibility to milo disease is conditioned by a single, semi-dominant gene, termed Pc. The susceptible allele (Pc) converts to a resistant form (pc) spontaneously at a gametic frequency of 10?3 to 10?4. A high-density genetic map was constructed around the Pc locus using DNA markers, allowing the Pc gene to be delimited to a 0.9 cM region on the short arm of sorghum chromosome 9. Physically, the Pc-region was covered by a single BAC clone. Sequence analysis of this BAC revealed twelve gene candidates. Several of the predicted genes in the region are homologous to disease resistance loci, including one NBS-LRR resistance gene analogue that is present in multiple tandem copies. Analysis of pc isolines derived from Pc/Pc sorghum suggests that one or more members of this NBS-LRR gene family are the Pc genes that condition susceptibility.

机译：高粱中的米洛病是由产生PC毒素的土传真菌Periconia circinata的分离物引起的。粟米病的易感性是由一个称为Pc的单一半显性基因决定的。易感等位基因（Pc）在配子频率10？3 至10？4 时自发转化为抗性形式（pc）。使用DNA标记在Pc基因座周围构建高密度遗传图谱，从而将Pc基因限定在高粱9号染色体短臂上的0.9 cM区。实际上，Pc区被单个BAC克隆覆盖。该BAC的序列分析揭示了十二个基因候选物。该区域中的几个预测基因与抗病基因座同源，包括一个存在于多个串联拷贝中的NBS-LRR抗性基因类似物。对来源于Pc / Pc高粱的pc等位基因的分析表明，该NBS-LRR基因家族的一个或多个成员是调节敏感性的Pc基因。

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《Theoretical and Applied Genetics》 |2007年第6期|961-970|共10页
作者
Ervin D. Nagy; Tso-Ching Lee; Wusirika Ramakrishna; Zijun Xu; Patricia E. Klein; Phillip SanMiguel; Chiu-Ping Cheng; Jingling Li; Katrien M. Devos; Keith Schertz; Larry Dunkle; Jeffrey L. Bennetzen;
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Department of Genetics University of Georgia Athens GA 30602 USA;

Department of Botany and Plant Pathology Purdue University West Lafayette IN 47907 USA;

Department of Biological Sciences Michigan Tech University Houghton MI 49931 USA;

Department of Biological Sciences Michigan Tech University Houghton MI 49931 USA;

Institute for Plant Genomics and Biotechnology Texas AampampM University College Station TX 77843 USA;

Agricultural Genomics Center Purdue University West Lafayette IN 47907 USA;

Department of Biological Sciences Purdue University West Lafayette IN 47907 USA;

Department of Biological Sciences Purdue University West Lafayette IN 47907 USA;

Department of Crop and Soil Sciences and Department of Plant Biology University of Georgia Athens GA 30602 USA;

Department of Soil and Crop Sciences Texas AampampM University College Station TX 77843 USA;

Crop Production and Pest Control Research USDA-ARS West Lafayette IN 47907 USA;

Department of Genetics University of Georgia Athens GA 30602 USA;

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1. Fine mapping of the Pc locus of Sorghum bicolor, a gene controlling the reaction to a fungal pathogen and its host-selective toxin [J] . Nagy ED, Lee TC, Ramakrishna W, Theoretical and Applied Genetics: International Journal of Breeding Research and Cell Genetics . 2007,第6期

机译：双色高粱Pc基因座的精细定位图，该基因控制与真菌病原体及其宿主选择性毒素的反应
2. Molecular mapping and candidate gene analysis of a new epicuticular wax locus in sorghum (Sorghum bicolor L. Moench) [J] . Theoretical and Applied Genetics: International Journal of Breeding Research and Cell Genetics . 2017,第10期

机译：高粱（高粱双色L. Moench）新脉络膜蜡座的分子映射及候选基因分析
3. Genetic mapping using a wheat multi-founder population reveals a locus on chromosome 2A controlling resistance to both leaf and glume blotch caused by the necrotrophic fungal pathogen Parastagonospora nodorum [J] . Lin Min, Corsi Beatrice, Ficke Andrea, Theoretical and Applied Genetics: International Journal of Breeding Research and Cell Genetics . 2020,第3期

机译：使用小麦多创始人的遗传映射显示染色体2a上的轨迹，控制叶片对叶子和灌注污染的抗病性血管血清血管孢子菌孢子孢子
4. Induced-susceptibility by host-selective toxins on interactions of rough lemon and brown spot pathogens [C] . Kenji Gomi, Kohei Ohtani, Akira Masunaka, Asian conference on plant pathology . 2000

机译：通过粗柠檬和褐斑病原体相互作用的宿主选择性毒素诱导 - 易感性
5. Development of a map-based cloning system in Sorghum bicolor: 1. Isolation of megabase-size DNA and construction of a bacterial artificial chromosome library and 2. Genetic and physical mapping of the 5S rDNA locus. [D] . Woo, Sung-Sick. 1996

机译：双色高粱基于图谱的克隆系统的开发：1.分离碱基大小庞大的DNA和构建细菌人工染色体文库，以及2. 5S rDNA基因座的遗传和物理作图。
6. Combining Next Generation Sequencing with Bulked Segregant Analysis to Fine Map a Stem Moisture Locus in Sorghum (Sorghum bicolor L. Moench) [O] . Yucui Han, Peng Lv, Shenglin Hou, -1

机译：结合下一代测序与散装分离剂分析对高粱（Sorghum bicolor L. Moench）的茎水分位进行精细定位
7. Genetic mapping using a wheat multi-founder population reveals a locus on chromosome 2A controlling resistance to both leaf and glume blotch caused by the necrotrophic fungal pathogen Parastagonospora nodorum [O] . Min Lin, Beatrice Corsi, Andrea Ficke, 2020

机译：使用小麦多创始人的遗传测绘揭示了染色体2a上的轨迹，控制叶片抗叶片和灌注污染，由虚养的真菌病原体parastagonpora nodorum引起

Fine mapping of the Pc locus of Sorghum bicolor, a gene controlling the reaction to a fungal pathogen and its host-selective toxin

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