配子吸引的化学:藻类信息素的化学结构、生物合成及(非)生物降解
The chemistry of gamete attraction: chemical structures, biosynthesis, and (a)biotic degradation of algal pheromones.
作者信息
Boland W
机构信息
Institut für Organische Chemie und Biochemie, Bonn, Germany.
出版信息
Proc Natl Acad Sci U S A. 1995 Jan 3;92(1):37-43. doi: 10.1073/pnas.92.1.37.
Abstract
Female gametes of marine brown algae release and/or attract their conspecific males by chemical signals. The majority of these compounds are unsaturated, nonfunctionalized acyclic, and/or alicyclic C11 hydrocarbons. Threshold concentrations for release and attraction are generally observed in the range of 1-1000 pmol. The blends may contain various configurational isomers of the genuine pheromones as well as mixtures of enantiomers. Higher plants produce the C11 hydrocarbons from dodeca-3,6,9-trienoic acid; brown algae exploit the family of icosanoids for biosynthesis of the same compounds. The biosynthetic routes comprise several spontaneously occurring pericyclic reactions such as [3.3]-sigmatropic rearrangements, [1.7]-hydrogen shifts, and electrocyclic ring closures. All pheromones are (a)biotically degraded by ubiquitous oxidative pathways involving singlet oxygen or hydroxyl radicals, which may be produced through the agency of heavy metals, huminic acids, or light.
摘要
海洋褐藻的雌配子通过化学信号释放和/或吸引同种雄配子。这些化合物大多是不饱和、无官能团的开链和/或脂环族C11烃。释放和吸引的阈值浓度一般在1 - 1000皮摩尔范围内。这些混合物可能包含真正信息素的各种构型异构体以及对映体混合物。高等植物从十二碳-3,6,9-三烯酸产生C11烃;褐藻利用类二十烷酸家族来生物合成相同的化合物。生物合成途径包括几个自发发生的周环反应,如[3.3] - 迁移重排、[1.7] - 氢迁移和电环化闭环反应。所有信息素都会通过涉及单线态氧或羟基自由基的普遍氧化途径进行(非)生物降解,这些自由基可能通过重金属、腐殖酸或光的作用产生。
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