核磁共振光谱法筛选蜘蛛毒液发现,硫酸化核苷是棕色遁蛛及相关物种毒液的主要成分。
NMR-spectroscopic screening of spider venom reveals sulfated nucleosides as major components for the brown recluse and related species.
作者信息
Schroeder Frank C, Taggi Andrew E, Gronquist Matthew, Malik Rabia U, Grant Jacqualine B, Eisner Thomas, Meinwald Jerrold
机构信息
Boyce Thompson Institute, Cornell University, Tower Road, Ithaca, NY 14853, USA.
出版信息
Proc Natl Acad Sci U S A. 2008 Sep 23;105(38):14283-7. doi: 10.1073/pnas.0806840105. Epub 2008 Sep 15.
Abstract
Extensive chemical analyses of spider venoms from many species have revealed complex mixtures of biologically active compounds, of which several have provided important leads for drug development. We have recently shown that NMR spectroscopy can be used advantageously for a direct structural characterization of the small-molecule content of such complex mixtures. Here, we report the application of this strategy to a larger-scale analysis of a collection of spider venoms representing >70 species, which, in combination with mass spectrometric analyses, allowed the identification of a wide range of known, and several previously undescribed, small molecules. These include polyamines, common neurotransmitters, and amino acid derivatives as well as two additional members of a recently discovered family of natural products, the sulfated nucleosides. In the case of the well studied brown recluse spider, Loxosceles reclusa, sulfated guanosine derivatives were found to comprise the major small-molecule components of the venom.
摘要
对许多物种的蜘蛛毒液进行的广泛化学分析揭示了具有生物活性的化合物的复杂混合物,其中几种化合物为药物开发提供了重要线索。我们最近表明,核磁共振光谱可有利地用于直接表征此类复杂混合物中小分子的结构。在此,我们报告了该策略在对代表70多种物种的蜘蛛毒液集合进行大规模分析中的应用,该分析与质谱分析相结合,使得能够鉴定出多种已知的以及几种先前未描述的小分子。这些小分子包括多胺、常见神经递质和氨基酸衍生物,以及最近发现的一类天然产物(硫酸化核苷)中的另外两个成员。在对研究充分的棕色遁蛛(Loxosceles reclusa)的研究中,发现硫酸化鸟苷衍生物是毒液的主要小分子成分。
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