Tomarev S I, Zinovieva R D, Piatigorsky J
Laboratory of Molecular and Developmental Biology, National Eye Institute, National Institutes of Health, Bethesda, Maryland 20892.
J Biol Chem. 1991 Dec 15;266(35):24226-31.
The eye lens crystallins of the octopus Octopus dofleini were identified by sequencing abundant proteins and cDNAs. As in squid, the octopus crystallins have subunit molecular masses of 25-30 kDa, are related to mammalian glutathione S-transferases (GST), and are encoded in at least six genes. The coding regions and deduced amino acid sequences of four octopus lens cDNAs are 75-80% identical, while their non-coding regions are entirely different. Deduced amino acid sequences show 52-57% similarity with squid GST-like crystallins, but only 20-25% similarity with mammalian GST. These data suggest that the octopus and squid lens GST-like crystallin gene families expanded after divergence of these species. Northern blot hybridization indicated that the four octopus GST-like crystallin genes examined are lens-specific. Lens extracts showed about 40 times less GST activity using 1-chloro-2,4-dinitrobenzene as substrate than liver extracts of the octopus, indicating that the major GST-like crystallins are specialized for a lens structural role. A prominent 59-kDa crystallin polypeptide, previously observed in octopus but not squid and called omega-crystallin (Chiou, S.-H. (1988) FEBS Lett. 241, 261-264), has been identified as an aldehyde dehydrogenase. Since cytoplasmic aldehyde dehydrogenase is a major protein in elephant shrew lenses (eta-crystallin; Wistow, G., and Kim, H. (1991) J. Mol. Evol. 32, 262-269) the octopus aldehyde dehydrogenase crystallin provides the first example of a similar enzyme-crystallin in vertebrates and invertebrates. The use of detoxification stress proteins (GST and aldehyde dehydrogenase) as cephalopod crystallins indicates a common strategy for recruitment of enzyme-crystallins during the convergent evolution of vertebrate and invertebrate lenses. For historical reasons we propose that the octopus GST-like crystallins, like those of the squid, are called S-crystallins.
通过对丰富蛋白质和cDNA进行测序,鉴定了太平洋章鱼(Octopus dofleini)的晶状体晶体蛋白。与鱿鱼一样,章鱼的晶体蛋白亚基分子量为25 - 30 kDa,与哺乳动物谷胱甘肽S - 转移酶(GST)相关,且至少由六个基因编码。四个章鱼晶状体cDNA的编码区和推导的氨基酸序列有75 - 80%的同一性,而它们的非编码区则完全不同。推导的氨基酸序列与鱿鱼GST样晶体蛋白有52 - 57%的相似性,但与哺乳动物GST只有20 - 25%的相似性。这些数据表明,章鱼和鱿鱼的晶状体GST样晶体蛋白基因家族在这些物种分化后发生了扩展。Northern印迹杂交表明,所检测的四个章鱼GST样晶体蛋白基因是晶状体特异性的。晶状体提取物以1 - 氯 - 2,4 - 二硝基苯为底物时,其GST活性比章鱼肝脏提取物低约40倍,这表明主要的GST样晶体蛋白专门用于晶状体的结构作用。一种先前在章鱼中观察到但在鱿鱼中未观察到的59 kDa的突出晶体蛋白多肽,被称为ω - 晶体蛋白(邱,S.-H.(1988年)《欧洲生物化学学会联合会快报》241,261 - 264),已被鉴定为醛脱氢酶。由于细胞质醛脱氢酶是象鼩晶状体中的主要蛋白质(η - 晶体蛋白;维斯托,G.,和金,H.(1991年)《分子进化杂志》32,262 - 269),章鱼醛脱氢酶晶体蛋白提供了脊椎动物和无脊椎动物中类似酶 - 晶体蛋白的首个例子。将解毒应激蛋白(GST和醛脱氢酶)用作头足类动物的晶体蛋白,表明在脊椎动物和无脊椎动物晶状体的趋同进化过程中,招募酶 - 晶体蛋白存在一种共同策略。出于历史原因,我们建议将章鱼的GST样晶体蛋白,像鱿鱼的一样,称为S - 晶体蛋白。
