光镜和电镜研究阐明番茄叶片侵染机制。

IF 1.8 3区 农林科学 Q2 PLANT SCIENCES
Zelalem Mersha, Girma Birru, Bernhard Hau
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引用次数: 0

摘要

真菌病原体fuligena Pseudocercospora,已知会影响热带和亚热带的西红柿,近年来在温带气候包括美国和土耳其有报道。本文对一株从新鲜番茄中分离得到的病原菌进行了鉴定,并对其侵染机制进行了探讨。宏观上看,番茄叶片两侧可见不明显的渗出斑块,但随着感染的进展,多发的黄斑病变首先在背面明显,后来在正面也很明显。显微镜下,观察到从基质和分生孢子中产生的分生孢子束(11-128µm × 3.5-9µm),最多可达12个分隔。分子鉴定结果表明,该分离物与土耳其番茄中分离到的其他富里吉纳假单胞菌同源性高(99.8%)。在10种培养基中,富利假单胞菌在添加CaCO3的未密封番茄燕麦琼脂和胡萝卜叶煎琼脂上生长良好,产孢效果较好。从大量产孢的病变中直接转移分生孢子是体外研究中最简单和最快的分离方法。在清除和完整的番茄叶片上的光镜和扫描电镜进一步证实了气孔的渗透和出口以及原发性和继发性侵染菌丝的流行。接种后7、12和17 d,原位记录的气孔封闭面积分别为154、401和2043µm2。随着近年来病理系统及其影响的扩大,这些研究将有助于全球番茄病害的正确诊断,识别和管理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Light and Electron Microscopy Studies Elucidating Mechanisms of Tomato Leaf Infection by Pseudocercospora fuligena.

Light and Electron Microscopy Studies Elucidating Mechanisms of Tomato Leaf Infection by Pseudocercospora fuligena.

Light and Electron Microscopy Studies Elucidating Mechanisms of Tomato Leaf Infection by Pseudocercospora fuligena.

Light and Electron Microscopy Studies Elucidating Mechanisms of Tomato Leaf Infection by Pseudocercospora fuligena.

The fungal pathogen Pseudocercospora fuligena, known to affect tomatoes in the tropics and subtropics, has been reported from temperate climates including the United States and Turkey in recent years. In this study, an isolate from fresh tomatoes and the disease it causes were characterized and infection mechanisms investigated. Macroscopically, both sides of tomato leaves show indistinct effuse patches but prolific production of fuliginous lesions is conspicuous on the abaxial side first but also on the adaxial side later on as infection progressed. Microscopically, fascicles of conidiophores (11-128 µm × 3.5-9 µm) arising from stromata and conidia with up to 12 septations were observed. Molecular characterization of the isolate revealed high homology (99.8%) to other P. fuligena isolated from tomatoes in Turkey. Out of the 10 media tested, P. fuligena grew significantly well and sporulated better on unsealed tomato oatmeal agar and carrot leaf decoction agar, both supplemented with CaCO3. Direct transfer of conidia from profusely sporulating lesions was the easiest and quickest method of isolation for in-vitro studies. Light and scanning electron microscopy on cleared and intact tomato leaves further confirmed stomatal penetration and egress as well as prevalence of primary and secondary infection hyphae. In situ, blocked stomatal aperture areas of 154, 401, and 2,043 µm2 were recorded at 7, 12, and 17 days after inoculation, respectively. With the recent expanded horizon of the pathosystem and its consequential impact, such studies will be useful for a proper diagnosis, identification and management of the disease on tomato worldwide.

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来源期刊
Plant Pathology Journal
Plant Pathology Journal 生物-植物科学
CiteScore
4.90
自引率
4.30%
发文量
71
审稿时长
12 months
期刊介绍: Information not localized
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