Rees A R, Offord R E
Biochem J. 1976 Dec 1;159(3):467-79. doi: 10.1042/bj1590467.
This paper reports the development of methods for preparing tryptic fragments of hen's-egg lysozyme in an appropriate state of protection for use in the chemical synthesis of modified polypeptides. 1. We describe the cleavage of the disulphide bridges of the enzyme and the simulatneous protection of the liberated thiol groups by S-sulphonation. Lysozyme resisted the usual conditions for this reaction. We have confirmed the stability of the S-sulphonyl group to the conditions met in peptide synthesis. 2. We describe the reversible protection of the amino groups of the enzyme by reaction with various anhydrides of 1,2-dicarboxylic acids. We conclude that 2-methylmaleic anhydride and exo-cis-3,6-endoxo-delta4-tetrahydrophthalic anhydride are unsuitable for our purpose but that maleic anhydride can, in spite of certain drawbacks, be used. 3. We describe the tryptic cleavage of the thiol- and amino-protected protein and the separation of the fragments. 4. We describe the reversible protection of the carboxylic acid groups (including the specific deprotection of the alpha-carboxyl group), the imidazolyl group and the aloph-amino groups of the fragments. Several alternative groups have been evaluated for most of these purposes. The side-chain amides did not present any serious problem of libility, 5. We describe experiments on the stability of the side chain of tryptophan, both protected by formylation and unprotected, to the acid conditions needed for the deprotection of the other functional groups in the peptide. We conclude that protection of tryptophan is unnecessary. We suggest that most of the methods described are of general application in peptide semisynthesis by fragment condensation. An Appendix is included to which points 6-ll appertain...
本文报道了制备处于适当保护状态的鸡蛋溶菌酶胰蛋白酶片段的方法,用于修饰多肽的化学合成。1. 我们描述了酶中二硫键的断裂以及通过S-磺化对释放的巯基进行同时保护。溶菌酶抵抗该反应的常规条件。我们已证实S-磺酰基在肽合成条件下的稳定性。2. 我们描述了通过与各种1,2-二羧酸酐反应对酶的氨基进行可逆保护。我们得出结论,2-甲基马来酸酐和外消旋-顺式-3,6-内过氧-δ4-四氢邻苯二甲酸酐不适用于我们的目的,但尽管有某些缺点,马来酸酐仍可使用。3. 我们描述了对巯基和氨基保护的蛋白质进行胰蛋白酶切割以及片段的分离。4. 我们描述了片段中羧酸基团(包括α-羧基的特异性脱保护)、咪唑基和别氨基的可逆保护。对于大多数这些目的,已经评估了几种替代基团。侧链酰胺不存在任何严重的稳定性问题,5. 我们描述了色氨酸侧链在甲酰化保护和未保护情况下对肽中其他官能团脱保护所需酸性条件的稳定性实验。我们得出结论,色氨酸的保护是不必要的。我们建议所描述的大多数方法在通过片段缩合进行肽半合成中具有普遍应用。附录包含与第6 - 11点相关的内容……