Ramaswamy Krishna, Wei Kenneth, Suga Hiroaki
Department of Biological Sciences, University at Buffalo, State University of New York, Buffalo, NY 14260-3000, USA.
Nucleic Acids Res. 2002 May 15;30(10):2162-71. doi: 10.1093/nar/30.10.2162.
We report here an in vitro selected ribozyme, KL17, which is active in charging amino acids on its own 5'-OH group. The ribozyme consists of two catalytic domains, one of which (consisting of P5/P6/L6) recognizes amino acid substrates based on the steric environment of the side chain, whereas the other recognizes an aminoacylated oligonucleotide. The secondary structure of this ambidextrous ribozyme arranges into a pseudoknot, where L6 docks onto the 3'-terminal single-stranded region. The formation of this pseudoknot structure brings the P6 region, in which the essential catalytic core is most likely embedded, into the proximity of the 5'-OH group. Our studies show that the P6-L6 domain can be separated from the main body of KL17 and the derived P6-L6 minihelix-loop RNA can act as a trans-aminoacylation catalyst. In this report, we also compare this ribozyme with an analogous aminoacylation system previously characterized in our laboratory and illuminate the similarities and differences between these catalytic systems.
我们在此报告一种体外筛选的核酶KL17,它能在自身5'-OH基团上进行氨基酸的负载。该核酶由两个催化结构域组成,其中一个(由P5/P6/L6组成)基于侧链的空间环境识别氨基酸底物,而另一个识别氨酰化寡核苷酸。这种双手性核酶的二级结构排列成假结,其中L6对接在3'-末端单链区域。这种假结结构的形成使最有可能嵌入关键催化核心的P6区域靠近5'-OH基团。我们的研究表明,P6-L6结构域可以与KL17的主体分离,并且衍生的P6-L6小螺旋环RNA可以作为转氨酰化催化剂。在本报告中,我们还将这种核酶与我们实验室之前表征的类似氨酰化系统进行了比较,并阐明了这些催化系统之间的异同。