鳕鱼(鳕)胰岛组织对胰岛素前体的生物合成。
Biosynthesis of an insulin precursor by islet tissue of cod (Gadus callarias).
作者信息
Grant P T, Reid K B
出版信息
Biochem J. 1968 Nov;110(2):281-8. doi: 10.1042/bj1100281.
Abstract
- At 15 degrees , slices of cod islet tissue incorporated [U-(14)C]proline into proteins soluble in acid-ethanol at a linear rate for 6hr. 2. Initially, all the radioactivity was associated with a polypeptide that had a molecular weight of about 10000 and was appreciably more basic than cod insulin. After 1hr. there was also a significant and progressive increase in the radioactivity of insulin and of fractions intermediate in molecular size and basicity between the polypeptide and insulin. 3. O-Ethyl O-p-nitrophenyl phenylpropylphosphonate markedly decreased the radioactivity both of the intermediate fractions and of insulin, but had no significant effect on the biosynthesis of the polypeptide. In contrast, puromycin inhibited the incorporation of radioactivity into all the fractions. 4. The polypeptide had an activity of less than 0.2 international unit/mg. in the epididymal-fat-pad bioassay. Treatment with low concentrations of trypsin caused a progressive increase in the formation of an insulin-like material, judged by bioassay and ion-exchange chromatography of the digest. 5. Gel filtration of the polypeptide after oxidative sulphitolysis indicated that it was a single polypeptide chain. 6. The results suggest that the polypeptide is an insulin precursor whose formation is inhibited by puromycin and that the steps involved in the conversion of precursor into product are sensitive to O-ethyl O-p-nitrophenyl phenylpropylphosphonate.
摘要
- 在15摄氏度下,鳕鱼胰岛组织切片将[U-(14)C]脯氨酸以线性速率掺入酸乙醇可溶蛋白中达6小时。2. 最初,所有放射性都与一种分子量约为10000且比鳕鱼胰岛素碱性明显更强的多肽相关。1小时后,胰岛素以及该多肽与胰岛素之间分子大小和碱性处于中间的组分的放射性也显著且逐渐增加。3. O-乙基O-对硝基苯基苯丙基膦酸酯显著降低了中间组分和胰岛素的放射性,但对该多肽的生物合成没有显著影响。相比之下,嘌呤霉素抑制放射性掺入所有组分。4. 该多肽在附睾脂肪垫生物测定中的活性低于0.2国际单位/毫克。用低浓度胰蛋白酶处理导致胰岛素样物质的形成逐渐增加,这通过对消化物的生物测定和离子交换色谱法判断。5. 氧化亚硫酸解后对该多肽进行凝胶过滤表明它是一条单一多肽链。6. 结果表明该多肽是一种胰岛素前体,其形成受到嘌呤霉素抑制,并且前体转化为产物所涉及的步骤对O-乙基O-对硝基苯基苯丙基膦酸酯敏感。
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