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Mechanism for the Alteration of the Substrate Specificities of Template-Independent RNA Polymerases

PolyA polymerase (PAP) adds a polyA tail onto the 3′-end of RNAs without a nucleic acid template, using adenosine-5′-triphosphate (ATP) as a substrate. The mechanism for the substrate selection by eubacterial PAP remains obscure. Structural and biochemical studies of Escherichia coli PAP (EcPAP) rev...

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Bibliographic Details
Published in:Structure (London) 2011-02, Vol.19 (2), p.232-243
Main Authors: Toh, Yukimatsu, Takeshita, Daijiro, Nagaike, Takashi, Numata, Tomoyuki, Tomita, Kozo
Format: Article
Language:English
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Summary:PolyA polymerase (PAP) adds a polyA tail onto the 3′-end of RNAs without a nucleic acid template, using adenosine-5′-triphosphate (ATP) as a substrate. The mechanism for the substrate selection by eubacterial PAP remains obscure. Structural and biochemical studies of Escherichia coli PAP (EcPAP) revealed that the shape and size of the nucleobase-interacting pocket of EcPAP are maintained by an intra-molecular hydrogen-network, making it suitable for the accommodation of only ATP, using a single amino acid, Arg 197. The pocket structure is sustained by interactions between the catalytic domain and the RNA-binding domain. EcPAP has a flexible basic C-terminal region that contributes to optimal RNA translocation for processive adenosine 5′-monophosphate (AMP) incorporations onto the 3′-end of RNAs. A comparison of the EcPAP structure with those of other template-independent RNA polymerases suggests that structural changes of domain(s) outside the conserved catalytic core domain altered the substrate specificities of the template-independent RNA polymerases. ► Crystal structure of eubacterial polyA polymerase and its complex with ATP ► The size and shape of the nucleobase interacting pocket are suitable for only ATP ► The RNA-binding and catalytic domains together dictate the substrate specificity of polyA polymerase ► The mechanism of ATP selection by polyA polymerase is distinct from that by the CCA-adding enzyme
ISSN:0969-2126
1878-4186
DOI:10.1016/j.str.2010.12.006