Mycoplasmas, plants, insect vectors: a matrimonial triangle

Monique Garnier, X Foissac, P Gaurivaud, F Laigret, J Renaudin, C Saillard, J.M Bové
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引用次数: 60

Abstract

Plant pathogenic mycoplasmas were discovered by electron microscopy, in 1967, long after the discovery and culture in 1898 of the first pathogenic mycoplasma of animal origin, Mycoplasma mycoides. Mycoplasmas are Eubacteria of the class Mollicutes, a group of organisms phylogenetically related to Gram-positive bacteria. Their more characteristic features reside in the small size of their genomes, the low guanine (G) plus cytosine (C) content of their genomic DNA and the lack of a cell wall. Plant pathogenic mycoplasmas are responsible for several hundred diseases and belong to two groups: the phytoplasmas and the spiroplasmas. The phytoplasmas (previously called MLOs, for mycoplasma like organisms) were discovered first; they are pleiomorphic, and have so far resisted in vitro cultivation. Phytoplasmas represent the largest group of plant pathogenic Mollicutes. Only three plant pathogenic spiroplasmas are known today. Spiroplasma citri, the agent of citrus stubborn was discovered and cultured in 1970 and shown to be helical and motile. S. kunkelii is the causal agent of corn stunt. S. phoeniceum, responsible for periwinkle yellows, was discovered in Syria. There are many other spiroplasmas associated with insects and ticks. Plant pathogenic mycoplasmas are restricted to the phloem sieve tubes in which circulates the photosynthetically-enriched sap, the food for many phloem-feeding insects (aphids, leafhoppers, psyllids, etc.). Interestingly, phytopathogenic mycoplasmas are very specifically transmitted by leafhoppers or psyllid species. In this paper, the most recent knowledge on phytopathogenic mycoplasmas in relation with their insect and plant habitats is presented as well as the experiments carried out to control plant mycoplasma diseases, by expression of mycoplasma-directed-antibodies in plants (plantibodies).

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支原体,植物,昆虫载体:婚姻三角形
植物致病性支原体是在1898年发现和培养第一个动物源性致病性支原体(mycoplasma mycoides)很久之后,于1967年通过电子显微镜发现的。支原体是一种真细菌,属于毛菌纲,是一组与革兰氏阳性菌系统发育相关的生物。它们更多的特征在于它们的基因组较小,它们的基因组DNA中鸟嘌呤(G)和胞嘧啶(C)含量较低,并且没有细胞壁。植物致病性支原体可导致数百种疾病,分为植物原体和螺旋体两大类。植物原体(以前称为MLOs,指支原体样生物)首先被发现;它们是多形性的,迄今为止还不能在体外培养。植物原体是植物病原微生物中最大的一类。目前已知的植物致病性螺旋体只有三种。柑橘螺旋体(Spiroplasma citri)是1970年发现并培养的柑橘顽固性病原体,呈螺旋状、可运动。是玉米特技的致病因子。产长春花黄色的S. phoenicium是在叙利亚发现的。还有许多其他与昆虫和蜱虫有关的螺旋体。植物致病性支原体局限于韧皮部筛管中,其中循环着富含光合作用的汁液,这些汁液是许多以韧皮部为食的昆虫(蚜虫、叶蝉、木虱等)的食物。有趣的是,植物致病性支原体是由叶蝉或木虱传播的。本文介绍了植物致病性支原体与其昆虫和植物栖息地的关系的最新知识,以及通过在植物中表达支原体定向抗体(植物抗体)来控制植物支原体疾病的实验。
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