Brachycybe 属三种千足虫防御性分泌物的化学性质。

IF 2.2 3区 环境科学与生态学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
Journal of Chemical Ecology Pub Date : 2024-10-01 Epub Date: 2024-06-10 DOI:10.1007/s10886-024-01518-6
Paige Banks, Emma M Funkhouser, Angie M Macias, Brian Lovett, Shelby Meador, Arden Hatch, H Martin Garraffo, Kaitie C Cartwright, Matt T Kasson, Paul E Marek, Tappey H Jones, Emily Mevers
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引用次数: 0

摘要

人们很早就知道千足虫能产生多种化学防御剂来阻止捕食。这些化合物或其前体储存在高浓度的腺体(ozadenes)中,一旦受到干扰就会释放出来。千足类中有四个亚纲,已知所有这些亚纲都能产生萜类生物碱,只有虹彩纲能产生萜类生物碱。尽管这些化合物代表了一些在结构上最引人入胜的千足类天然产物,但它们却是研究最少的一类千足类防御性分泌物。在这里,我们描述了来自 Brachycybe 三个物种的千足虫防御性分泌物的化学性质:Brachycybe producta、Brachycybe petasata 和 Brachycybe rosea。利用基于质谱的代谢组学、化学合成和二维核磁共振进行的化学研究,鉴定出了五种生物碱,其中三种是新发现的。所有鉴定出的化合物都是单萜生物碱,新化合物代表了吲哚利嗪(即 hydrogosodesmine)和喹嗪生物碱(即 homogosodesmine 和 homo-hydrogosodesmine)。这些化合物的化学多样性与该属的已知物种系统发育有关,而不是与物种的地理位置相近有关。吲哚利嗪类和喹唑啉类化合物是由非同源的姊妹种 B. producta 和 B. petasata 产生的,而脱氧布宗胺则是由另一组非同源的姊妹种 B. rosea 和 Brachycybe lecontii 产生的。化学多样性与系统发育之间的一致性有力地表明,千足类从头生成了这些复杂的防御制剂,并开始为其生化途径的进化提供启示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The Chemistry of the Defensive Secretions of Three Species of Millipedes in the Genus Brachycybe.

The Chemistry of the Defensive Secretions of Three Species of Millipedes in the Genus Brachycybe.

Millipedes have long been known to produce a diverse array of chemical defense agents that deter predation. These compounds, or their precursors, are stored in high concentration within glands (ozadenes) and are released upon disturbance. The subterclass Colobognatha contains four orders of millipedes, all of which are known to produce terpenoid alkaloids-spare the Siphonophorida that produce terpenes. Although these compounds represent some of the most structurally-intriguing millipede-derived natural products, they are the least studied class of millipede defensive secretions. Here, we describe the chemistry of millipede defensive secretions from three species of Brachycybe: Brachycybe producta, Brachycybe petasata, and Brachycybe rosea. Chemical investigations using mass spectrometry-based metabolomics, chemical synthesis, and 2D NMR led to the identification of five alkaloids, three of which are new to the literature. All identified compounds are monoterpene alkaloids with the new compounds representing indolizidine (i.e. hydrogosodesmine) and quinolizidine alkaloids (i.e. homogosodesmine and homo-hydrogosodesmine). The chemical diversity of these compounds tracks the known species phylogeny of this genus, rather than the geographical proximity of the species. The indolizidines and quinolizidines are produced by non-sympatric sister species, B. producta and B. petasata, while deoxybuzonamine is produced by another set of non-sympatric sister species, B. rosea and Brachycybe lecontii. The fidelity between the chemical diversity and phylogeny strongly suggests that millipedes generate these complex defensive agents de novo and begins to provide insights into the evolution of their biochemical pathways.

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来源期刊
Journal of Chemical Ecology
Journal of Chemical Ecology 环境科学-生化与分子生物学
CiteScore
5.10
自引率
4.30%
发文量
58
审稿时长
4 months
期刊介绍: Journal of Chemical Ecology is devoted to promoting an ecological understanding of the origin, function, and significance of natural chemicals that mediate interactions within and between organisms. Such relationships, often adaptively important, comprise the oldest of communication systems in terrestrial and aquatic environments. With recent advances in methodology for elucidating structures of the chemical compounds involved, a strong interdisciplinary association has developed between chemists and biologists which should accelerate understanding of these interactions in nature. Scientific contributions, including review articles, are welcome from either members or nonmembers of the International Society of Chemical Ecology. Manuscripts must be in English and may include original research in biological and/or chemical aspects of chemical ecology. They may include substantive observations of interactions in nature, the elucidation of the chemical compounds involved, the mechanisms of their production and reception, and the translation of such basic information into survey and control protocols. Sufficient biological and chemical detail should be given to substantiate conclusions and to permit results to be evaluated and reproduced.
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