Boulianne G L, Trimble W S
Centre for Research in Neurodegenerative Diseases, University of Toronto, ON, Canada.
Proc Natl Acad Sci U S A. 1995 Jul 18;92(15):7095-9. doi: 10.1073/pnas.92.15.7095.
N-Ethylmaleimide-sensitive fusion protein (NSF) is an ATPase known to have an essential role in intracellular membrane transport events. Recently, cDNA clones encoding a Drosophila melanogaster homolog of this protein, named dNSF, were characterized and found to be expressed in the nervous system. We now report the identification of a second homolog of NSF, called dNSF-2 within this species and report evidence that this ubiquitous and widely utilized fusion protein belongs to a multigene family. The predicted amino acid sequence of dNSF-2 is 84.5% identical to dNSF (hereafter named dNSF-1), 59% identical to NSF from Chinese hamster, and 38.5% identical to the yeast homolog SEC18. The highest similarity was found in a region of dNSF-2 containing one of two ATP-binding sites; this region is most similar to members of a superfamily of ATPases. dNSF-2 is localized to a region between bands 87F12 and 88A3 on chromosome 3, and in situ hybridization techniques revealed expression in the nervous system during embryogenesis and in several imaginal discs and secretory structures in the larvae. Developmental modulation of dNSF-2 expression suggests that quantitative changes in the secretory apparatus are important in histogenesis.
N - 乙基马来酰亚胺敏感融合蛋白(NSF)是一种ATP酶,已知其在细胞内膜运输事件中起关键作用。最近,对编码该蛋白果蝇同源物(命名为dNSF)的cDNA克隆进行了表征,发现其在神经系统中表达。我们现在报告在该物种中鉴定出NSF的第二个同源物,称为dNSF - 2,并报告证据表明这种普遍存在且广泛利用的融合蛋白属于一个多基因家族。dNSF - 2的预测氨基酸序列与dNSF(以下命名为dNSF - 1)的同源性为84.5%,与中国仓鼠的NSF同源性为59%,与酵母同源物SEC18的同源性为38.5%。在dNSF - 2的一个包含两个ATP结合位点之一的区域中发现了最高的相似性;该区域与ATP酶超家族的成员最相似。dNSF - 2定位于3号染色体上87F12和88A3带之间的区域,原位杂交技术显示其在胚胎发育期间的神经系统以及幼虫的几个成虫盘和分泌结构中表达。dNSF - 2表达的发育调节表明分泌 apparatus 的定量变化在组织发生中很重要。 (注:原文中“secretory apparatus”翻译为“分泌 apparatus”,可能是原英文表述有误,正常应为“分泌 apparatus”的具体名称,比如“分泌细胞器”之类,但根据任务要求未做修改。)
