Microdochium bolleyi (Ascomycota: Xylariales): Caracterización fisiológica y caracteres estructurales de su asociación con trigo

IF 0.6 4区生物学 Q4 PLANT SCIENCES

Boletin De La Sociedad Argentina De Botanica Pub Date : 2018-07-06 DOI:10.31055/1851.2372.V53.N2.20574

C. Rothen, V. Miranda, Sebastián Fracchia, A. Godeas, A. Rodríguez

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引用次数: 4

Abstract

: Plant roots can be colonized by asymptomatic fungal strains belonging to several taxa, among them, the group defined as Dark Septate Endophytes (DSE). Microdochium bolleyi commonly colonizes wheat roots and other crops. It is considered a weak pathogen or even a non-pathogenic fungal species, which has also been considered as a potential biocontrol agent against aggressive soil-borne pathogens in cereal crops. We isolated a strain of M. bolleyi from wheat roots sampled in a crop field in Argentina, and characterized its abilities to grow in different carbon and nitrogen sources, to produce indole and to solubilize phosphorus; also several enzymatic activities were evaluated. In addition, resynthesis was performed under controlled conditions in order to characterize root fungal colonization under both, optical and transmission microscopy. The strain 22-1 colonized wheat root parenchymal tissue, forming chlamysdospores inside parenchymal cells and root hairs, and poorly grew in carbon and nitrogen sources. This fungus also synthesized indoles in in vitro culture, but it cannot solubilize phosphorus. Only amylase activity was detected out of seven enzymatic activity measured. Microdochium bolleyi (strain 22-1) colonized the roots, it formed typical DSE fungal structures and behaved like a “true endophyte”; however further studies are necessary to elucidate its role in the association with wheat.

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微藻(子囊菌科:木本目):其与小麦关联的生理特征和结构特征

:植物根系可被属于几个分类群的无症状真菌菌株定植，其中定义为暗隔内生菌(Dark Septate Endophytes, DSE)。bolleyi Microdochium通常在小麦根部和其他作物中定植。它被认为是一种弱病原体，甚至是一种非致病性真菌，也被认为是一种潜在的生物防治剂，可以对抗谷类作物中具有侵略性的土传病原体。从阿根廷某农田小麦根中分离出一株bolleyi分枝杆菌，对其在不同碳氮源下生长、产吲哚和溶磷的能力进行了鉴定;并对几种酶活性进行了评价。此外，为了在光学显微镜和透射显微镜下表征根真菌定植，在受控条件下进行了再合成。菌株22-1定植小麦根薄壁组织，在薄壁细胞和根毛内形成衣孢子，在碳源和氮源下生长不良。该真菌在离体培养中也能合成吲哚，但不能溶磷。在测定的7种酶活性中，仅检测到淀粉酶活性。bolleyi Microdochium(菌株22-1)定植于根，形成典型的DSE真菌结构，表现为“真正的内生菌”;然而，需要进一步的研究来阐明其与小麦相关的作用。

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

Boletin De La Sociedad Argentina De Botanica PLANT SCIENCES-

CiteScore

1.00

自引率

33.30%

发文量

审稿时长

>12 weeks

期刊介绍： Bol. Soc. Argent. Bot. publishes original scientific works from the whole spectrum of Plant Biology (structure, anatomy, development, physiology, cytology, genetics, evolution, ecology, paleobotany, palynology, ethnobotany, etc.) in the diverse vegetable organisms and related groups (mycology, ficology, lichenology, briology, etc.), both in basic and applied aspects. Taxonomic works (of systematics, phylogeny, monographs, revisions, lectotypifications, nomenclatural acts, descriptions of taxa), phytogeographic and phytosociological works (survey and classification of vegetation at different spatial scales and without restriction of methodological approaches) are considered for publication. Contributions that address complete phytogeographic units or sub-units and those that fill gaps in knowledge of vegetation in little-known territories are especially welcome. Extensions of geographical areas are published only when it comes to new citations for a country. Checklists and lists of annotated plants are not published. Articles submitted for publication must be original and must not have been submitted to another publisher or previously published (print or electronic format). Submissions of papers already published in another language will not be accepted (autoplagio for translation).