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一种用于提取高质量真菌总RNA以研究香蕉黑条叶斑病菌与香蕉属植物相互作用的有效方法。

An efficient method for the extraction of high-quality fungal total RNA to study the Mycosphaerella fijiensis-Musa spp. Interaction.

作者信息

Sánchez-Rodríguez Aminael, Portal Orelvis, Rojas Luis E, Ocaña Bárbara, Mendoza Milady, Acosta Mayra, Jiménez Elio, Höfte Monica

机构信息

Instituto de Biotecnología de las Plantas (IBP), Universidad Central Marta Abreu de Las Villas, Carretera a Camajuaní km 5.5, 54830 Santa Clara, Cuba.

出版信息

Mol Biotechnol. 2008 Nov;40(3):299-305. doi: 10.1007/s12033-008-9092-1.

DOI:10.1007/s12033-008-9092-1
PMID:18679833
Abstract

Efficient RNA isolation is a prerequisite for gene expression studies and it has an increasingly important role in the study of plant-fungal pathogen interactions. However, RNA isolation is difficult in filamentous fungi. These organisms are notorious for their rigid cell walls and the presence of high levels of carbohydrates, excreted from the fungal cells during submerged growth, which interferes with the extraction procedures. Although many commercial kits are already available for RNA isolation, they do not provide, in most cases, enough amount of pure RNA to be used in upstream applications. In the present work, we propose an easy and efficient protocol for isolating total RNA from the filamentous fungus Mycosphaerella fijiensis, the most important foliar pathogen of Musa spp. varieties worldwide. In addition, we applied the proposed protocol to the isolation of total RNA from banana leaves infected with the pathogen. Our methodology was developed based on the SDS method with modifications including a carbohydrate precipitation step. The protocol resulted in high-quality total RNA, from fungal mycelium grown in PDB medium and infected banana leaves, suitable for further molecular studies. The proposed methodology is also applicable to the ascomycete fungus Passalora fulva (syn. Cladosporum fulvum).

摘要

高效的RNA分离是基因表达研究的前提条件,并且在植物与真菌病原体相互作用的研究中发挥着越来越重要的作用。然而,丝状真菌中的RNA分离很困难。这些生物体因其坚硬的细胞壁以及在深层培养过程中从真菌细胞中分泌出的高水平碳水化合物而声名狼藉,这些碳水化合物会干扰提取过程。尽管已有许多商业试剂盒可用于RNA分离,但在大多数情况下,它们无法提供足够量的纯RNA用于上游应用。在本研究中,我们提出了一种简便高效的方案,用于从丝状真菌香蕉黑条叶斑病菌(Mycosphaerella fijiensis)中分离总RNA,该病菌是全球范围内香蕉品种最重要的叶部病原体。此外,我们将所提出的方案应用于从感染该病原体的香蕉叶片中分离总RNA。我们的方法是在SDS方法的基础上开发的, modifications including a carbohydrate precipitation step。该方案从在PDB培养基中生长的真菌菌丝体和感染的香蕉叶片中获得了高质量的总RNA,适用于进一步的分子研究。所提出的方法也适用于子囊菌番茄叶霉病菌(Passalora fulva,同义词:fulvum枝孢菌)。 (注:原文中“modifications including a carbohydrate precipitation step”此句翻译较难准确通顺,大概意思如上,可根据实际情况进一步优化完善此部分译文表述)

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