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Identification of the catalytic Mg²? ion in the hepatitis delta virus ribozyme.


ABSTRACT: The hepatitis delta virus ribozyme catalyzes an RNA cleavage reaction using a catalytic nucleobase and a divalent metal ion. The catalytic base, C75, serves as a general acid and has a pK(a) shifted toward neutrality. Less is known about the role of metal ions in the mechanism. A recent crystal structure of the precleavage ribozyme identified a Mg²? ion that interacts through its partial hydration sphere with the G25·U20 reverse wobble. In addition, this Mg²? ion is in position to directly coordinate the nucleophile, the 2'-hydroxyl of U(-1), suggesting it can serve as a Lewis acid to facilitate deprotonation of the 2'-hydroxyl. To test the role of the active site Mg²? ion, we replaced the G25·U20 reverse wobble with an isosteric A25·C20 reverse wobble. This change was found to significantly reduce the negative potential at the active site, as supported by electrostatics calculations, suggesting that active site Mg²? binding could be adversely affected by the mutation. The kinetic analysis and molecular dynamics of the A25·C20 double mutant suggest that this variant stably folds into an active structure. However, pH-rate profiles of the double mutant in the presence of Mg²? are inverted relative to the profiles for the wild-type ribozyme, suggesting that the A25·C20 double mutant has lost the active site metal ion. Overall, these studies support a model in which the partially hydrated Mg²? positioned at the G25·U20 reverse wobble is catalytic and could serve as a Lewis acid, a Brønsted base, or both to facilitate deprotonation of the nucleophile.

SUBMITTER: Chen J 

PROVIDER: S-EPMC3558840 | biostudies-literature | 2013 Jan

REPOSITORIES: biostudies-literature

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Identification of the catalytic Mg²⁺ ion in the hepatitis delta virus ribozyme.

Chen Ji J   Ganguly Abir A   Miswan Zulaika Z   Hammes-Schiffer Sharon S   Bevilacqua Philip C PC   Golden Barbara L BL  

Biochemistry 20130111 3


The hepatitis delta virus ribozyme catalyzes an RNA cleavage reaction using a catalytic nucleobase and a divalent metal ion. The catalytic base, C75, serves as a general acid and has a pK(a) shifted toward neutrality. Less is known about the role of metal ions in the mechanism. A recent crystal structure of the precleavage ribozyme identified a Mg²⁺ ion that interacts through its partial hydration sphere with the G25·U20 reverse wobble. In addition, this Mg²⁺ ion is in position to directly coord  ...[more]

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