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鉴定导致核果和梨果实褐腐病的链格孢属(Monilinia)种细胞色素 b(cyt b)基因及其在 QoI 抗性发展中的意义。

Characterization of the cytochrome b (cyt b) gene from Monilinia species causing brown rot of stone and pome fruit and its significance in the development of QoI resistance.

机构信息

Department of Plant Pathology and Plant-Microbe Biology, New York State Agricultural Experiment Station, Cornell University, Geneva, NY 14456, USA.

出版信息

Pest Manag Sci. 2011 Apr;67(4):385-96. doi: 10.1002/ps.2074. Epub 2010 Dec 14.

DOI:10.1002/ps.2074
PMID:21394871
Abstract

BACKGROUND

Quinone outside inhibitor (QoI) resistance as a consequence of point mutations in the cytochrome b (cyt b) gene has been reported in numerous plant pathogenic fungi. To examine the potential for QoI resistance development in those Monilinia species causing brown rot of stone and pome fruits [Monilinia fructicola (G Winter) Honey, M. laxa (Aderhold & Ruhland) Honey and M. fructigena (Aderhold & Ruhland) Honey], an examination was made of the sequence and exon/intron structure of their cyt b genes for the presence of any point mutations and/or introns commonly associated with resistance to QoIs in fungal plant pathogens.

RESULTS

None of the point mutations typically linked to QoI resistance was present in any of the Monilinia isolates examined. Furthermore, the cyt b genes from M. fructicola and M. laxa, but not M. fructigena, possessed a group-I-like intron directly after codon 143. Based on the results obtained, a simple PCR assay using a single primer pair was developed, allowing discrimination between the three Monilinia species without the need for culturing.

CONCLUSIONS

Results suggest that resistance to QoI fungicides based on the G143A mutation is not likely to occur in M. fructicola or M. laxa. Conversely, M. fructigena may be at higher risk for developing QoI resistance owing to the absence of a G143-associated intron.

摘要

背景

醌外抑制剂 (QoI) 耐药性是由于细胞色素 b (cyt b) 基因中的点突变引起的,已在许多植物病原真菌中报道。为了检查引起核果和梨果实褐腐病的那些 Monilinia 物种(Monilinia fructicola (G Winter) Honey、M. laxa (Aderhold & Ruhland) Honey 和 M. fructigena (Aderhold & Ruhland) Honey)中 QoI 耐药性发展的潜力,对它们的 cyt b 基因的序列和外显子/内含子结构进行了检查,以确定是否存在与真菌植物病原体对 QoI 耐药性相关的任何点突变和/或内含子。

结果

在所检查的任何 Monilinia 分离物中都没有出现与 QoI 耐药性相关的典型点突变。此外,M. fructicola 和 M. laxa 的 cyt b 基因,但不是 M. fructigena 的 cyt b 基因,在密码子 143 后直接具有一组 I 类内含子。基于获得的结果,开发了一种简单的 PCR 检测方法,使用一对单引物,允许在无需培养的情况下区分三种 Monilinia 物种。

结论

结果表明,基于 G143A 突变的 QoI 杀菌剂耐药性不太可能发生在 M. fructicola 或 M. laxa 中。相反,由于缺乏与 G143 相关的内含子,M. fructigena 可能更容易产生对 QoI 的耐药性。

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