从地衣共生蓝藻念珠藻属IO-102-I菌株中发现罕见且剧毒的微囊藻毒素。

Discovery of rare and highly toxic microcystins from lichen-associated cyanobacterium Nostoc sp. strain IO-102-I.

作者信息

Oksanen Ilona, Jokela Jouni, Fewer David P, Wahlsten Matti, Rikkinen Jouko, Sivonen Kaarina

机构信息

Department of Applied Chemistry and Microbiology, Viikki Biocenter 1, Viikinkaari 9, P.O. Box 56, University of Helsinki, 00014 Helsinki, Finland.

出版信息

Appl Environ Microbiol. 2004 Oct;70(10):5756-63. doi: 10.1128/AEM.70.10.5756-5763.2004.

DOI:10.1128/AEM.70.10.5756-5763.2004

PMID:15466511

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC522101/

Abstract

The production of hepatotoxic cyclic heptapeptides, microcystins, is almost exclusively reported from planktonic cyanobacteria. Here we show that a terrestrial cyanobacterium Nostoc sp. strain IO-102-I isolated from a lichen association produces six different microcystins. Microcystins were identified with liquid chromatography-UV mass spectrometry by their retention times, UV spectra, mass fragmentation, and comparison to microcystins from the aquatic Nostoc sp. strain 152. The dominant microcystin produced by Nostoc sp. strain IO-102-I was the highly toxic [ADMAdda(5)]microcystin-LR, which accounted for ca. 80% of the total microcystins. We assigned a structure of [DMAdda(5)]microcystin-LR and [d-Asp(3),ADMAdda(5)]microcystin-LR and a partial structure of three new [ADMAdda(5)]-XR type of microcystin variants. Interestingly, Nostoc spp. strains IO-102-I and 152 synthesized only the rare ADMAdda and DMAdda subfamilies of microcystin variants. Phylogenetic analyses demonstrated congruence between genes involved directly in microcystin biosynthesis and the 16S rRNA and rpoC1 genes of Nostoc sp. strain IO-102-I. Nostoc sp. strain 152 and the Nostoc sp. strain IO-102-I are distantly related, revealing a sporadic distribution of toxin production in the genus Nostoc. Nostoc sp. strain IO-102-I is closely related to Nostoc punctiforme PCC 73102 and other symbiotic Nostoc strains and most likely belongs to this species. Together, this suggests that other terrestrial and aquatic strains of the genus Nostoc may have retained the genes necessary for microcystin biosynthesis.

摘要

具有肝毒性的环状七肽微囊藻毒素几乎仅由浮游蓝细菌产生。在此我们表明，从地衣共生体中分离出的一种陆生蓝细菌 Nostoc sp. 菌株IO - 102 - I可产生六种不同的微囊藻毒素。通过液相色谱 - 紫外质谱联用仪，依据微囊藻毒素的保留时间、紫外光谱、质谱碎片，并与水生 Nostoc sp. 菌株152产生的微囊藻毒素进行比较，从而鉴定出这些微囊藻毒素。Nostoc sp. 菌株IO - 102 - I产生的主要微囊藻毒素是高毒性的[ADMAdda(5)]微囊藻毒素 - LR，约占微囊藻毒素总量的80%。我们确定了[DMAdda(5)]微囊藻毒素 - LR和[d - Asp(3),ADMAdda(5)]微囊藻毒素 - LR的结构，以及三种新型[ADMAdda(5)] - XR型微囊藻毒素变体的部分结构。有趣的是，Nostoc spp. 菌株IO - 102 - I和152仅合成微囊藻毒素变体中罕见的ADMAdda和DMAdda亚家族。系统发育分析表明，直接参与微囊藻毒素生物合成的基因与 Nostoc sp. 菌株IO - 102 - I的16S rRNA和rpoC1基因之间存在一致性。Nostoc sp. 菌株152与 Nostoc sp. 菌株IO - 102 - I亲缘关系较远，这表明微囊藻毒素产生在念珠藻属中呈散在分布。Nostoc sp. 菌株IO - 102 - I与点状念珠藻PCC 73102及其他共生念珠藻菌株亲缘关系密切，极有可能属于该物种。综上所述，这表明念珠藻属的其他陆生和水生菌株可能保留了微囊藻毒素生物合成所需的基因。

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