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Molecular Mechanism and Biological Function of 3'-5' Nucleotide Addition

$287,952R01FY2014GMNIH

Ohio State University, Columbus OH

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Abstract

DESCRIPTION (provided by applicant): Project Summary/Abstract: The tRNAHis guanylyltransferase (Thg1) is absolutely essential in yeast, and likely throughout all eukaryotes, due to the universal requirement for G-1 on tRNAHis in all eukaryotes in which it has been investigated. Thg1 adds G-1 to tRNAHis via an unusual non-templated 3'-5' nucleotide addition reaction, by an unknown catalytic mechanism that cannot be predicted based on similarity to known enzymes, and thus is likely to employ a novel catalytic mechanism. Moreover, we have recently demonstrated that all Thg1 family members catalyze a template-dependent 3'-5' addition reaction with various substrates, and that this activity is used for a form of G-1 addition in archaea, as well as for an unusual tRNA editing reaction in protozoa. These demonstrated roles for templated 3'-5' addition greatly expand the scope of catalytic activities exhibited by Thg1 family members. Nonetheless, the presence of Thg1 homologs in archaea and bacteria that do not require enzymatic G-1 addition to tRNAHis and unexplained Thg1-related phenotypes in yeast and human cells suggest that additional roles for 3'-5' addition are yet to be uncovered. This application proposes the use of kinetic, genetic, biochemical and structural techniques to investigate the molecular mechanisms and biological functions of both non-templated and templated 3'-5' addition reactions catalyzed by diverse Thg1 family members. These results will provide insight into catalysis of a novel and apparently widespread, but largely unexplored, reaction in biology, and will enable further investigation into alternative functions for 3'-5' nucleotide addition in biological systems.

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