Download MendeleyStructures of the Noncanonical RNA Ligase RtcB Reveal the Mechanism of Histidine Guanylylation.
Desai, K.K., Bingman, C.A., Phillips, G.N., Raines, R.T.(2013) Biochemistry 52: 2518-2525
- PubMed: 23560983
- DOI: https://doi.org/10.1021/bi4002375
- Primary Citation of Related Structures:
4ISJ, 4ISZ, 4IT0 - PubMed Abstract:
RtcB is an atypical RNA ligase that joins either 2',3'-cyclic phosphate or 3'-phosphate termini to 5'-hydroxyl termini. In contrast to typical RNA ligases, which rely on ATP and Mg(II), catalysis by RtcB is dependent on GTP and Mn(II) with ligation proceeding through a covalent RtcB-histidine-GMP intermediate. Here, we present three structures of Pyrococcus horikoshii RtcB complexes that capture snapshots along the entire guanylylation pathway. These structures show that prior to binding GTP, a single manganese ion (Mn1) is bound to RtcB. To capture the step immediately preceding RtcB guanylylation, we determined a structure of RtcB in complex with Mn(II) and the unreactive GTP analogue guanosine 5'-(¦Á-thio)triphosphate (GTP¦ÁS). This structure shows that Mn1 is poised to stabilize the pentavalent transition state of guanylylation while a second manganese ion (Mn2) is coordinated to a nonbridging oxygen of the ¦Ã-phosphoryl group. The pyrophosphate leaving group of GTP¦ÁS is oriented apically to His404 with the ¦Å-nitrogen poised for in-line attack on the ¦Á-phosphorus atom. The structure of RtcB in complex with GTP¦ÁS also reveals the network of hydrogen bonds that recognize GTP and illuminates the significant conformational changes that accompany the binding of this cofactor. Finally, a structure of the enzymic histidine-GMP intermediate depicts the end of the guanylylation pathway. The ensuing molecular description of the RtcB guanylylation pathway shows that RtcB and classical ATP- and Mg(II)-dependent nucleic acid ligases have converged upon a similar two-metal mechanism for formation of the nucleotidylated enzyme intermediate.
Organizational Affiliation:
Department of Biochemistry, University of Wisconsin, Madison, Madison, Wisconsin 53706, USA.
