斑马病:蛋白质组学和转录组学分析。

Journal of Venom Research Pub Date : 2014-09-20 eCollection Date: 2014-01-01
Pamela A Zobel-Thropp, Emily Z Thomas, Cynthia L David, Linda A Breci, Greta J Binford
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摘要

蜘蛛毒液是一种复杂的混合物,富含多肽、蛋白质和有机分子,它们共同作用,使猎物无法动弹。原始狩猎蜘蛛Plectreurys tristis的毒液中含有大量被称为“PLTX”的神经毒性肽,一种独特的酰基多胺被称为他(agmatine)草酰胺,以及更大的未知蛋白质成分。这些蜘蛛也有不同寻常的多叶毒腺。受这些不寻常的特征及其作为单倍基因的系统发育位置的启发,我们使用转录组学和蛋白质组学相结合的方法部分表征了三螺旋体的血清。通过这些分析,我们发现了已知的毒液神经毒素U1- pltx - pt1a, U3-PLTX-Pt1a,我们发现了新的潜在神经毒素群,扩大了U1-和ω-PLTX家族,并增加了U1-至U9-PLTX作为六个新群体。毒液中还含有与阿胺素金属蛋白酶同源的蛋白质,这些蛋白质与毒液肽结合在一起,构成了粗毒液中检测到的94%的成分,而剩下的6%是一种功能未知的未描述蛋白质。在转录组中检测到的其他蛋白质被发现是保守基因家族的成员,占转录本的20%。其中包括与Mesobuthus和Hottentotta蝎子、Loxosceles和Dysdera蜘蛛的毒液蛋白质匹配的cDNA序列,以及Ixodes、Amblyomma和Rhipicephalus蜱的唾液和分泌肽序列。最后,我们发现粗毒液具有神经毒性作用,对蟋蟀的有效麻痹剂量为3.3 μ g/gm。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Plectreurys tristis venome: A proteomic and transcriptomic analysis.

Spider venoms are complex cocktails rich in peptides, proteins and organic molecules that collectively act to immobilize prey. Venoms of the primitive hunting spider, Plectreurys tristis, have numerous neurotoxic peptides called "plectoxins" (PLTX), a unique acylpolyamine called bis(agmatine)oxalamide, and larger unidentified protein components. These spiders also have unconventional multi-lobed venom glands. Inspired by these unusual characteristics and their phylogenetic position as Haplogynes, we have partially characterized the venome of P. tristis using combined transcriptomic and proteomic methods. With these analyses we found known venom neurotoxins U1-PLTX-Pt1a, U3-PLTX-Pt1a, and we discovered new groups of potential neurotoxins, expanding the U1- and ω-PLTX families and adding U4-through U9-PLTX as six new groups. The venom also contains proteins that are homologs of astacin metalloproteases that, combined with venom peptides, make up 94% of components detected in crude venom, while the remaining 6% is a single undescribed protein with unknown function. Other proteins detected in the transcriptome were found to be members of conserved gene families and make up 20% of the transcripts. These include cDNA sequences that match venom proteins from Mesobuthus and Hottentotta scorpions, Loxosceles and Dysdera spiders, and also salivary and secreted peptide sequences from Ixodes, Amblyomma and Rhipicephalus ticks. Finally, we show that crude venom has neurotoxic effects and an effective paralytic dose on crickets of 3.3µg/gm.

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