水稻（L.）中褐飞虱抗性基因新候选基因的鉴定

Identification of novel candidate of brown planthopper resistance gene in rice ( L.).

作者信息

Kiswanto Iwan, Soetopo Lita, Adiredjo Afifuddin Latif

机构信息

PT. BISI International, Tbk., Surabaya-Mojokerto Street Km. 19, Bringinbendo, Taman, Sidoarjo, East Java, Indonesia.

Plant Breeding Laboratory, Department of Agronomy, Faculty of Agriculture, Brawijaya University, Veteran Street, Malang, East Java 65145, Indonesia.

出版信息

Genome. 2022 Oct 1;65(10):505-511. doi: 10.1139/gen-2022-0020. Epub 2022 Jul 21.

DOI:10.1139/gen-2022-0020

PMID:35863076

Abstract

The brown planthopper (BPH, Stål) is still considered a major threat to rice farmers. Exploring novel resistance genes that relate to the BPH population in the targeted rice-growing area might be a suitable solution. We identified and mapped the gene locus using 175 lines of F populations derived from Balamawee × PD601. Genomic analysis was then used to identify the candidate gene governing the resistance toward BPH. We discovered a novel genetic locus for BPH resistance in the long arm of chromosome 4 linked to markers Q31 and RM17007 at 4.76 and 5.42 cM, respectively, with total phenotypic variation reaching 52.21% at LOD 29.68. The tolerance mechanism influences the nature of this resistance, as shown by the Functional Plant Loss Index. The resistance level, mechanism of resistance, and physical mapping reveal that the resistance genes in this study differ from the previous study, therefore, we propose this novel gene as .

摘要

褐飞虱（BPH，Stål）仍然被认为是对稻农的主要威胁。探索与目标水稻种植区褐飞虱种群相关的新抗性基因可能是一个合适的解决方案。我们使用从Balamawee×PD601衍生的175个F群体系鉴定并定位了基因座。然后进行基因组分析以鉴定控制对褐飞虱抗性的候选基因。我们在4号染色体长臂上发现了一个新的褐飞虱抗性遗传位点，分别与标记Q31和RM17007连锁，距离为4.76和5.42厘摩，在LOD为29.68时总表型变异达到52.21%。如功能植物损失指数所示，耐受机制影响这种抗性的性质。抗性水平、抗性机制和物理图谱表明，本研究中的抗性基因与先前的研究不同，因此，我们将这个新基因命名为。（注：原文最后“propose this novel gene as”后面缺少内容）

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水稻（L.）中褐飞虱抗性基因新候选基因的鉴定

Identification of novel candidate of brown planthopper resistance gene in rice ( L.).

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