Pathotypic diversity of Xanthomonas oryzae pv. oryzae, and stringent evaluation of resistance lines of Rice in Bangladesh

IF 1.7 3区农林科学 Q2 AGRONOMY European Journal of Plant Pathology Pub Date : 2024-06-20 DOI:10.1007/s10658-024-02900-6

Mohammad Abdul Latif, Lutfur Rahman, Nazmul Islam, Md. Omar Kayess, Md. Mamunur Rashid, Md. Al-Imran Hasan, Mohammad Ashik Iqbal Khan

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Abstract

Xanthomonas oryzae pv. oryzae (Xoo) poses a major risk to worldwide rice cultivation due to its ability to cause bacterial blight (BB). Identifying the Xoo race patterns, and using resistant genes specific to a particular race is a promising strategy to develop varieties with durable resistance. In the present research, 300 Xoo isolates were confirmed and purified from 40 rice-producing areas of Bangladesh to determine the existing races/pathotypes of Xoo. The sensitive rice varieties IR24, BRRI dhan49, and Purbachi showed susceptible reactions against the tested isolates. Fourteen monogenic differentials and 18 pyramid lines were challenged against 300 isolates of Xoo. Bacterial blight resistance genes Xa1, Xa2, Xa3, Xa4, xa5, Xa7, xa8, Xa10, Xa11, xa13, Xa14, Xa21, Xa23, and Xa27 were found in each monogenic differential. By analyzing patterns of the reaction of 300 Xoo isolates on monogenic differentials, 13 pathotypes/races were determined. The effectiveness of the host plant R genes Xa4, xa5, Xa7, xa8, Xa10, xa13, Xa14, Xa21, and Xa27 against bacterial blight has been determined by analyzing frequency resistances and the responses of near isogenic and pyramid lines. Races 1, 3, and 6 were dominantly widespread across the country and were regarded as important races since they had the greatest number of isolates (25%, 23.33%, and 9.67% respectively). Race 2 was the most ubiquitous among the pathotypes, whereas Race 3 was the most virulent, having circumvented every evaluated resistance gene. The bacterial-blight resistant R genes Xa21 and Xa27 have shown resistance against eight and ten races out of thirteen different races, respectively (i.e., 54.7 and 44.3% of the isolates tested). In the evaluation of 50 pyramid lines against the 5 most virulent races, the combinations of Xa4, Xa7, xa13, and Xa21 or the combinations of Xa4, xa5, Xa7, xa13, and Xa21 genes were effective. At present, the suitable and effective R genes i.e., xa5, Xa7, xa8, xa13, Xa21, Xa23, and Xa27 could be utilized for the development of a durable BB-resistant variety in Bangladesh.

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孟加拉国水稻黄单胞菌（Xanthomonas oryzae pv. oryzae）的病原型多样性和抗性品系的严格评估

黄单胞菌（Xanthomonas oryzae pv. oryzae，Xoo）能引起细菌性枯萎病（BB），对全球水稻种植构成重大威胁。确定 Xoo 的种族模式，并使用特定种族的抗性基因，是开发具有持久抗性品种的一种有前途的策略。本研究从孟加拉国 40 个水稻产区确认并纯化了 300 株 Xoo 分离物，以确定现有的 Xoo 种族/病型。敏感的水稻品种 IR24、BRRI dhan49 和 Purbachi 对测试的分离株表现出易感反应。14 个单基因差异株系和 18 个金字塔株系接受了 300 株 Xoo 分离物的挑战。在每个单基因差系中都发现了抗细菌性枯萎病基因 Xa1、Xa2、Xa3、Xa4、Xa5、Xa7、Xa8、Xa10、Xa11、Xa13、Xa14、Xa21、Xa23 和 Xa27。通过分析 300 个 Xoo 分离物在单基因差异上的反应模式，确定了 13 个病原型/品系。通过分析频率抗性以及近等基因系和金字塔系的反应，确定了寄主植物 R 基因 Xa4、Xa5、Xa7、Xa8、Xa10、Xa13、Xa14、Xa21 和 Xa27 对细菌性枯萎病的抗病效果。1 号、3 号和 6 号品系主要分布在全国各地，由于它们的分离株数最多（分别为 25%、23.33% 和 9.67%），因此被视为重要品系。在病原型中，第 2 个品系最为普遍，而第 3 个品系的毒性最强，它绕过了所有已评估的抗性基因。抗细菌性疫病的 R 基因 Xa21 和 Xa27 分别对 13 个不同种族中的 8 个和 10 个种族（即 54.7% 和 44.3% 的受试分离株）表现出抗性。在对 50 个金字塔品系针对 5 个毒性最强的品系进行的评估中，Xa4、Xa7、Xa13 和 Xa21 基因组合或 Xa4、Xa5、Xa7、Xa13 和 Xa21 基因组合均有效。目前，孟加拉国可利用合适有效的 R 基因（即 Xa5、Xa7、Xa8、Xa13、Xa21、Xa23 和 Xa27）培育耐久的抗 BB 品种。

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来源期刊

European Journal of Plant Pathology 农林科学-农艺学

CiteScore

4.20

自引率

5.60%

发文量

183

审稿时长

3 months

期刊介绍： The European Journal of Plant Pathology is an international journal publishing original articles in English dealing with fundamental and applied aspects of plant pathology; considering disease in agricultural and horticultural crops, forestry, and in natural plant populations. The types of articles published are :Original Research at the molecular, physiological, whole-plant and population levels; Mini-reviews on topics which are timely and of global rather than national or regional significance; Short Communications for important research findings that can be presented in an abbreviated format; and Letters-to-the-Editor, where these raise issues related to articles previously published in the journal. Submissions relating to disease vector biology and integrated crop protection are welcome. However, routine screenings of plant protection products, varietal trials for disease resistance, and biological control agents are not published in the journal unless framed in the context of strategic approaches to disease management.