Chemical synthesis and characterisation of rat chaperonin 10: effect of chain length, ions, heat and N-terminal acetylation on unchaperoned folding into its heptameric form.

H L Ball, P Giuliani, P Lucietto, G Fossati, P Mascagni
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Abstract

Recently, the sequence of mitochondrial chaperonin 10 from Rattus norvegicus (rat cpn10), with N-terminal acetylation, has been published. Two syntheses of rat cpn10 were performed, the first using a classical carbodiimide-mediated double coupling protocol (Method A) and the second a more efficient HBTU/HOBT/single coupling procedure (Method B). The latter also involved the application of a capping procedure, using N-(2-chlorobenzyloxycarbonyloxy)succinimide [Z(2-Cl)-OSu]. The crude protein from Method A was purified using a two-step isoelectric focusing/RP-HPLC scheme and found to contain a high proportion of a deletion peptide (less Gln60). Conversely, rat cpn10 from Method B was purified to homogeneity by one-step RP-HPLC, using a reversible lipophilic chromatographic probe. The proportion of biologically active heptameric structure was directly related to the purity of the protein and attained 84% with material from Method B. The addition of Ca/Mg ions, pH 7.2, or a heating/cooling cycle increased the proportion of heptamer for less pure protein. Shorter sequences were found not to fold into heptamers, suggesting that aggregation/folding motifs are located in 1-25 and 77-101 regions of rat cpn10. The heptameric cpn10 (Method B) bound correctly to GroEL from E. coli, demonstrating that N-terminal acetylation is not necessary for its folding and binding to bacterial cpn60.

大鼠伴侣蛋白10的化学合成和表征:链长、离子、热量和n端乙酰化对无伴侣折叠成七聚体形式的影响。
最近,褐家鼠(Rattus norvegicus)线粒体伴侣蛋白10 (cpn10)的n端乙酰化序列被公布。两种大鼠cpn10的合成方法,第一种是使用经典的碳二亚胺介导的双偶联方法(方法a),第二种是更有效的HBTU/HOBT/单偶联方法(方法B)。后者还涉及应用盖顶程序,使用N-(2-氯苄氧羰基)琥珀酰亚胺[Z(2-Cl)- osu]。方法A的粗蛋白采用两步等电聚焦/RP-HPLC方案纯化,发现含有高比例的缺失肽(较少的Gln60)。相反,方法B的大鼠cpn10采用可逆亲脂性色谱探针,一步反相高效液相色谱法纯化至均匀性。对于纯度较低的蛋白质,加入Ca/Mg离子,pH值为7.2或加热/冷却循环可提高七聚体的比例,其生物活性七聚体结构的比例直接关系到蛋白质的纯度。较短的序列没有折叠成七聚体,这表明聚集/折叠基序位于大鼠cpn10的1-25和77-101区域。七聚体cpn10(方法B)与大肠杆菌中的GroEL正确结合,表明n端乙酰化对其折叠和与细菌cpn60结合不是必需的。
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