USE OF BINDING-ENERGY BY AN RNA ENZYME FOR CATALYSIS BY POSITIONING AND SUBSTRATE DESTABILIZATION

被引:76
作者
NARLIKAR, GJ
GOPALAKRISHNAN, V
MCCONNELL, TS
USMAN, N
HERSCHLAG, D
机构
[1] STANFORD UNIV, DEPT CHEM, STANFORD, CA 94305 USA
[2] STANFORD UNIV, DEPT BIOCHEM, STANFORD, CA 94305 USA
[3] UNIV COLORADO, DEPT CHEM & BIOCHEM, BOULDER, CO 80309 USA
[4] RIBOZYME PHARMACEUT INC, BOULDER, CO 80301 USA
关键词
D O I
10.1073/pnas.92.9.3668
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
A fundamental catalytic principle for protein enzymes is the use of binding interactions away from the site of chemical transformation for catalysis, We have compared the binding and reactivity of a series of oligonucleotide substrates and products of the Tetrahymena ribozyme, which catalyzes a site-specific phosphodiester cleavage reaction: CCCUCUpA + G reversible arrow CCCUCU-OH + GpA. The results suggest that this RNA enzyme, like protein enzymes, can utilize binding interactions to achieve substantial catalysis via entropic fixation and substrate destabilization, The stronger binding of the all-ribose oligonucleotide product compared to an analog with a terminal 3' deoxyribose residue gives an effective concentration of 2200 M for the 3' hydroxyl group, a value approaching those obtained with protein enzymes and suggesting the presence of a structurally well defined active site capable of precise positioning. The stabilization from tertiary binding interactions is 40-fold less for the oligonucleotide substrate than the oligonucleotide product, despite the presence of the reactive phosphoryl group in the substrate, This destabilization is accounted for by a model in which tertiary interactions away from the site of bond cleavage position the electron-deficient 3' bridging phosphoryl oxygen of the oligonucleotide substrate next to an electropositive Mg ion. As the phosphodiester bond breaks and this 3' oxygen atom develops a negative charge in the transition state, the weak interaction of the substrate with Mg2+ becomes strong. These strategies of ''substrate destabilization'' and ''transition state stabilization'' provide estimated rate enhancements of approximate to 280- and approximate to 60-fold, respectively, Analogous substrate destabilization by a metal ion or hydrogen bond donor may be used more generally by RNA and protein enzymes catalyzing reactions of phosphate esters.
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页码:3668 / 3672
页数:5
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