Paulus H
Boston Biomedical Research Institute, 64 Grove Street, Watertown, Massachusetts 02472, USA.
Annu Rev Biochem. 2000;69:447-96. doi: 10.1146/annurev.biochem.69.1.447.
Protein splicing is a form of posttranslational processing that consists of the excision of an intervening polypeptide sequence, the intein, from a protein, accompanied by the concomitant joining of the flanking polypeptide sequences, the exteins, by a peptide bond. It requires neither cofactors nor auxiliary enzymes and involves a series of four intramolecular reactions, the first three of which occur at a single catalytic center of the intein. Protein splicing can be modulated by mutation and converted to highly specific self-cleavage and protein ligation reactions that are useful protein engineering tools. Some of the reactions characteristic of protein splicing also occur in other forms of protein autoprocessing, ranging from peptide bond cleavage to conjugation with nonprotein moieties. These mechanistic similarities may be the result of convergent evolution, but in at least one case-hedgehog protein autoprocessing-there is definitely a close evolutionary relationship to protein splicing.
蛋白质剪接是一种翻译后加工形式,它包括从蛋白质中切除一段居间的多肽序列(内含肽),同时侧翼多肽序列(外显肽)通过肽键连接在一起。它既不需要辅因子也不需要辅助酶,涉及一系列四个分子内反应,其中前三个反应发生在内含肽的单个催化中心。蛋白质剪接可通过突变进行调控,并转化为高度特异性的自我切割和蛋白质连接反应,这些反应是有用的蛋白质工程工具。蛋白质剪接的一些特征反应也发生在其他形式的蛋白质自我加工过程中,从肽键切割到与非蛋白质部分的缀合。这些机制上的相似性可能是趋同进化的结果,但至少在一种情况下——刺猬蛋白自我加工——与蛋白质剪接肯定存在密切的进化关系。