Saito H, Kourouklis D, Suga H
Department of Chemistry, State University of New York at Buffalo, Buffalo, NY 14260-3000, USA.
EMBO J. 2001 Apr 2;20(7):1797-806. doi: 10.1093/emboj/20.7.1797.
A set of catalysts for aminoacyl-tRNA synthesis is an essential component for translation. The RNA world hypothesis postulates that RNA catalysts could have played this role. Here we show an in vitro evolved precursor tRNA consisting of two domains, a catalytic 5'-leader sequence and an aminoacyl-acceptor tRNA. The 5'-leader sequence domain selectively self-charges phenylalanine on the 3'-terminus of the tRNA domain. This cis-acting ribozyme is susceptible to RNase P RNA, generating the corresponding 5'-leader segment and the mature tRNA. Moreover, the 5'-leader segment is able to aminoacylate the mature tRNA in trans. Mutational studies have revealed that C(74) and C(75) at the tRNA aminoacyl-acceptor end form base pairs with G71 and G70 of the trans-acting ribozyme. Such Watson-Crick base pairing with tRNA has been observed in RNase P RNA and 23S rRNA, suggesting that all three ribozymes use a similar mechanism for the recognition of the aminoacyl-acceptor end. Our demonstrations indicate that catalytic precursor tRNAs could have provided the foundations for the genetic coding system in the proto-translation system.
一组用于氨酰 - tRNA合成的催化剂是翻译过程的重要组成部分。RNA世界假说推测RNA催化剂可能发挥了这一作用。在此,我们展示了一种体外进化的前体tRNA,它由两个结构域组成,一个催化性的5' - 前导序列和一个氨酰 - 受体tRNA。5' - 前导序列结构域能在tRNA结构域的3' - 末端选择性地自我加载苯丙氨酸。这种顺式作用核酶对RNase P RNA敏感,会产生相应的5' - 前导片段和成熟的tRNA。此外,5' - 前导片段能够反式氨酰化成熟的tRNA。突变研究表明,tRNA氨酰 - 受体末端的C(74)和C(75)与反式作用核酶的G71和G70形成碱基对。在RNase P RNA和23S rRNA中也观察到了这种与tRNA的沃森 - 克里克碱基配对,这表明所有这三种核酶在识别氨酰 - 受体末端时使用了相似的机制。我们的研究表明,催化性前体tRNA可能为原翻译系统中的遗传编码系统奠定了基础。