系统发育优势的化学性质。

The chemistry of phyletic dominance.

作者信息

Meinwald J, Eisner T

机构信息

Cornell Institute for Research in Chemical Ecology, Cornell University, Ithaca, NY 14853.

出版信息

Proc Natl Acad Sci U S A. 1995 Jan 3;92(1):14-8. doi: 10.1073/pnas.92.1.14.

DOI:10.1073/pnas.92.1.14

PMID:7816804

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC42809/

Abstract

Studies of arthropod defensive chemistry continue to bring to light novel structures and unanticipated biosynthetic capabilities. Insect alkaloids, such as the heptacyclic acetogenin chilocorine and the azamacrolides, exemplify both of these aspects of arthropod chemistry. Spider venoms are proving to be rich sources of neuroactive components of potential medical interest. The venom of a fishing spider, Dolomedes okefinokensis, has yielded a polyamine which reversibly blocks L- and R-type voltage-sensitive calcium channels. Most recently, we have characterized, from the funnel-web spider Hololena curta, a sulfated nucleoside glycoside which serves as a reversible blocker of glutamate-sensitive calcium channels. The ability to synthesize or acquire an extremely diverse array of compounds for defense, offense, and communication appears to have contributed significantly to the dominant position that insects and other arthropods have attained.

摘要

对节肢动物防御化学的研究不断揭示出新的结构和意想不到的生物合成能力。昆虫生物碱，如七环产乙酸菌素智利菌素和氮杂大环内酯，体现了节肢动物化学的这两个方面。蜘蛛毒液被证明是具有潜在医学价值的神经活性成分的丰富来源。一种捕鱼蜘蛛——奥克弗诺基食蛛，其毒液产生了一种多胺，它能可逆地阻断L型和R型电压敏感性钙通道。最近，我们从漏斗网蜘蛛——曲斑络新妇中鉴定出一种硫酸化核苷糖苷，它可作为谷氨酸敏感性钙通道的可逆阻滞剂。合成或获取种类极其多样的化合物用于防御、攻击和交流的能力，似乎对昆虫和其他节肢动物所占据的主导地位起到了重要作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ead4/42809/11c11d92b683/pnas01479-0031-a.jpg

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The chemistry of phyletic dominance.系统发育优势的化学性质。

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系统发育优势的化学性质。

The chemistry of phyletic dominance.

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