I 类核糖核苷酸还原酶:金属辅因子的体外和体内组装和修复。
Class I ribonucleotide reductases: metallocofactor assembly and repair in vitro and in vivo.
机构信息
Department of Chemistry, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA.
出版信息
Annu Rev Biochem. 2011;80:733-67. doi: 10.1146/annurev-biochem-061408-095817.
Abstract
Incorporation of metallocofactors essential for the activity of many enyzmes is a major mechanism of posttranslational modification. The cellular machinery required for these processes in the case of mono- and dinuclear nonheme iron and manganese cofactors has remained largely elusive. In addition, many metallocofactors can be converted to inactive forms, and pathways for their repair have recently come to light. The class I ribonucleotide reductases (RNRs) catalyze the conversion of nucleotides to deoxynucleotides and require dinuclear metal clusters for activity: an Fe(III)Fe(III)-tyrosyl radical (Y•) cofactor (class Ia), a Mn(III)Mn(III)-Y• cofactor (class Ib), and a Mn(IV)Fe(III) cofactor (class Ic). The class Ia, Ib, and Ic RNRs are structurally homologous and contain almost identical metal coordination sites. Recent progress in our understanding of the mechanisms by which the cofactor of each of these RNRs is generated in vitro and in vivo and by which the damaged cofactors are repaired is providing insight into how nature prevents mismetallation and orchestrates active cluster formation in high yields.
摘要
金属辅因子的掺入对于许多酶的活性至关重要,是翻译后修饰的主要机制。对于单核和双核非血红素铁和锰辅因子,这些过程所需的细胞机制在很大程度上仍未被发现。此外,许多金属辅因子可以转化为非活性形式,其修复途径最近才被揭示。I 类核糖核苷酸还原酶(RNRs)催化核苷酸转化为脱氧核苷酸,需要双核金属簇才能发挥活性:一个 Fe(III)Fe(III)-酪氨酸自由基 (Y•)辅因子(类 Ia),一个 Mn(III)Mn(III)-Y•辅因子(类 Ib),和一个 Mn(IV)Fe(III)辅因子(类 Ic)。类 Ia、Ib 和 Ic RNRs 在结构上是同源的,并且含有几乎相同的金属配位位点。最近我们对这些 RNRs 的辅因子在体外和体内生成的机制以及受损辅因子修复的机制的理解取得了进展,这为我们提供了深入了解自然界如何防止错配位并协调高产率的活性簇形成的途径。
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