Virulence Phenotyping of Leaf Rust (Puccinia triticina) Isolates from Southern Pakistan

Q4 Agricultural and Biological Sciences International Journal of Phytopathology Pub Date : 2021-10-03 DOI:10.33687/PHYTOPATH.010.02.3612

A. W. Channa, H. Bux, M. A. Sial, G. H. Jatoi, Raj Kumar

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引用次数: 5

Abstract

Collections of Puccinia triticina were made from farmers’ fields of five different agro-ecological locations (Sakrand, Tandojam, Larkana, Sanghar and Badin) of Sindh province, Pakistan from 2015 and 2016, to identify the virulence variation. Single uredinial isolates were investigated for virulence phenotyping on 24 near isogenic (Thatcher wheat) lines which differ for single Lr resistance genes. Spores from two locations (Sakrand and Tandojam) were not viable and could not be revived and only urediniospores of three locations (Larkana, Sanghar and Badin) were revived. None of the pathotypes had virulence to Thatcher wheat lines with leaf rust resistance genes Lr23 and Lr42. However, Lr24, LrB, Lr10, Lr14b and Lr20 genes exhibited susceptibility response i.e. (HITs 3 4) with all tested pathotypes. Based on virulence, ten virulence phenotypes (MSCTNS, RTSTNS, RKTRGS, PNDQDS, JDBQGJ, MDPSDS, RTPTPS, MNPSDS, MJLTGS and MSPTDS) were identified among the ten isolates, designated with six-letter code. Two phenotypes RTSTNS RTPTPS exhibited broad spectrum, both were virulent to nineteen resistance genes of leaf rust while pathotype JDBQGJ had narrow spectrum as compared to all other tested, with virulence to just eight resistance genes of leaf rust. Among the locations virulence variability of leaf rust was also recorded. Most of identified races were virulent to more than one of leaf rust resistance genes. Resistance genes (Lr42 and Lr23) identified as effective can be exploited to achieve leaf rust resistance in wheat. Further, the study provides virulence profile of the area may help to manage the leaf rust pathogen.

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巴基斯坦南部叶锈病分离株的毒力表型分析

从2015年和2016年在巴基斯坦信德省5个不同农业生态地点(Sakrand、Tandojam、Larkana、Sanghar和Badin)的农民田间采集小麦锈菌，以确定毒力变化。对24个近等基因(撒切尔小麦)品系的单株尿嘧啶分离株进行了毒力表型研究，这些品系在单Lr抗性基因上存在差异。来自两个地点(Sakrand和Tandojam)的孢子不能存活，不能复活，只有三个地点(Larkana, Sanghar和Badin)的孢子被复活。对含有抗叶锈病基因Lr23和Lr42的撒切尔小麦品系均无毒力。而Lr24、LrB、Lr10、Lr14b和Lr20基因对所有检测的病型均表现出易感反应，即(HITs 34)。根据毒力分析，共鉴定出10种毒力表型(MSCTNS、RTSTNS、RKTRGS、PNDQDS、JDBQGJ、MDPSDS、RTPTPS、MNPSDS、MJLTGS和MSPTDS)，用6个字母编码。两种表型RTSTNS和RTPTPS表现出广谱性，均对19种叶锈病抗性基因有毒力;而两种表型JDBQGJ表现出较窄的谱性，均对8种叶锈病抗性基因有毒力。不同地点间叶锈病毒力的变异也有记录。大多数被鉴定的小种对一种以上的抗叶锈病基因有毒力。经鉴定有效的抗叶锈病基因Lr42和Lr23可用于小麦抗叶锈病。此外，该研究还提供了该地区叶锈病的毒力分布图，可能有助于叶锈病的防治。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Phytopathology Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)

CiteScore

1.20

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0.00%

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