cDNA and deduced amino acid sequence of a blood meal-induced trypsin from the mosquito, Aedes aegypti

Carolina Barillas-Mury , Rolf Graf , Henry H. Hagedorn , Michael A. Wells
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引用次数: 89

Abstract

A cDNA for a midgut trypsin induced by a blood meal has been cloned and sequenced from the mosquito Aedes aegypti. The 862 base sequence codes for a 257 amino acid protein, which is presumably a trypsin precursor, since the sequence of purified mosquito trypsin begins at residue 26, immediately following an arginine residue in the precursor. The amino terminal 25 amino acids in the precursor are composed of a putative 15 amino acid signal peptide and a 10 amino acid activation peptide. Compared to vertebrate trypsinogens, the putative mosquito trysinogen lacks the four acidic amino acids immediately preceding the basic amino acid at the activation peptide cleavage site, suggesting the mechanism of its activation may be different from the activation of vertebrate trypsinogens. However, since a trypsinogen has not yet been isolated from the mosquito, these conclusions are tentative. The deduced amino acid sequence is homologous to that of other trypsins in those residues around the catalytic triad, and in several residues which are found only in trypsins. However, the sequence of the specificity pocket in mosquito trypsin, KESPC, differs from that found in other trypins, KDSC. The Asp is thought to bind the basic residue of the substrate, and the Glu in the mosquito trypsin may serve the same role. The changes in trypsin protein and mRNA levels following a blood meal indicate that an important component of the regulation of trypsin synthesis is at the transcriptional level.

埃及伊蚊血食诱导胰蛋白酶的cDNA和推导出的氨基酸序列
从埃及伊蚊(Aedes aegypti)中克隆并测序了血餐诱导的中肠胰蛋白酶的cDNA。862个碱基序列编码一个257个氨基酸的蛋白质,这可能是胰蛋白酶前体,因为纯化的蚊子胰蛋白酶序列从残基26开始,紧跟着前体中的精氨酸残基。前体中的氨基末端25个氨基酸由推定的15个氨基酸的信号肽和10个氨基酸的激活肽组成。与脊椎动物胰蛋白酶原相比,假定的蚊子胰蛋白酶原在激活肽裂解位点缺乏紧靠在碱性氨基酸前面的4个酸性氨基酸,提示其激活机制可能与脊椎动物胰蛋白酶原的激活机制不同。然而,由于尚未从蚊子中分离出胰蛋白酶原,因此这些结论是初步的。推导出的氨基酸序列与其他胰蛋白酶在催化三联体周围的残基以及仅在胰蛋白酶中发现的几个残基同源。然而,蚊子胰蛋白酶(KESPC)的特异性口袋序列与其他胰蛋白酶(KDSC)不同。Asp被认为与底物的基本残基结合,而蚊子胰蛋白酶中的Glu可能起着同样的作用。血餐后胰蛋白酶蛋白和mRNA水平的变化表明,胰蛋白酶合成调控的一个重要组成部分是在转录水平。
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