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产环脂肽的朝鲜假单胞菌群菌株在芋的根际占主导地位,而在促进土壤中,与突出的铜绿假单胞菌相比,土壤对疫霉根腐病具有抑制作用。

Cyclic lipopeptide-producing Pseudomonas koreensis group strains dominate the cocoyam rhizosphere of a Pythium root rot suppressive soil contrasting with P. putida prominence in conducive soils.

机构信息

Phytopathology Laboratory, Department of Plants and Crops, Faculty of Bioscience Engineering, Ghent University, Ghent, Belgium.

Unit for Environmental Sciences and Management, Faculty of Natural and Agricultural Sciences, North-West University, Potchefstroom, South Africa.

出版信息

Environ Microbiol. 2020 Dec;22(12):5137-5155. doi: 10.1111/1462-2920.15127. Epub 2020 Jul 20.

DOI:10.1111/1462-2920.15127
PMID:32524747
Abstract

Pseudomonas isolates from tropical environments have been underexplored and may form an untapped reservoir of interesting secondary metabolites. In this study, we compared Pseudomonas and cyclic lipopeptide (CLP) diversity in the rhizosphere of a cocoyam root rot disease (CRRD) suppressive soil in Boteva, Cameroon with those from four conducive soils in Cameroon and Nigeria. Compared with other soils, Boteva andosols were characterized by high silt, organic matter, nitrogen and calcium. Besides, the cocoyam rhizosphere at Boteva was characterized by strains belonging mainly to the P. koreensis and P. putida (sub)groups, with representations in the P. fluorescens, P. chlororaphis, P. jessenii and P. asplenii (sub)groups. In contrast, P. putida isolates were prominent in conducive soils. Regarding CLP diversity, Boteva was characterized by strains producing 11 different CLP types with cocoyamide A producers, belonging to the P. koreensis group, being the most abundant. However, putisolvin III-V producers were the most dominant in the rhizosphere of conducive soils in both Cameroon and Nigeria. Furthermore, we elucidated the chemical structure of putisolvin derivatives-putisolvin III-V, and described its biosynthetic gene cluster. We show that high Pseudomonas and metabolic diversity may be driven by microbial competition, which likely contributes to soil suppressiveness to CRRD.

摘要

从热带环境中分离出的假单胞菌尚未得到充分研究,可能是有趣的次生代谢物的未开发储备库。在这项研究中,我们比较了喀麦隆博特瓦的 cocoyam 根腐病(CRRD)抑制性土壤与喀麦隆和尼日利亚的四个有利土壤中假单胞菌和环状脂肽(CLP)的多样性。与其他土壤相比,博特瓦土壤的特点是高硅、有机质、氮和钙。此外,博特瓦 cocoyam 根际的主要菌株属于 P. koreensis 和 P. putida(亚群),在 P. fluorescens、P. chlororaphis、P. jessenii 和 P. asplenii(亚群)中也有代表。相比之下,P. putida 分离株在有利土壤中较为突出。关于 CLP 多样性,博特瓦的特点是产生 11 种不同 CLP 类型的菌株,其中 cocoyamide A 产生菌属于 P. koreensis 群,是最丰富的。然而,在喀麦隆和尼日利亚的有利土壤的根际中,putisolvin III-V 产生菌是最主要的。此外,我们阐明了 putisolvin 衍生物-putisolvin III-V 的化学结构,并描述了其生物合成基因簇。我们表明,高假单胞菌和代谢多样性可能是由微生物竞争驱动的,这可能有助于土壤对 CRRD 的抑制性。

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