Structural aspects for the recognition of ATP by ribonucleopeptide receptors.

Audio, Transactions of the IRE Profess... 133(12):4567-79 (2011) PMID 21370890

A modular structure of ribonucleopeptide (RNP) affords a framework to construct macromolecular receptors and fluorescent sensors. We have isolated ATP-binding RNP with the minimum of nucleotides for ATP binding, in which the RNA consensus sequence is different from those reported for RNA aptamers against the ATP analogues. The three-dimensional structure of the substrate-binding complex of RNP was studied to understand the ATP-binding mechanism of RNP. A combination of NMR measurements, enzymatic and chemical mapping, and nucleotide mutation studies of the RNP-adenosine complex show that RNP interacts with the adenine ring of adenosine by forming a U:A:U triple with two invariant U nucleotides. The observed recognition mode for the adenine ring is different from those of RNA aptamers for ATP derivatives reported previously. The RNP-adenosine complex is folded into a particular structure by formation of the U:A:U triple and a Hoogsteen type A:U base pair. This recognition mechanism was successfully utilized to convert the substrate-binding specificity of RNP from ATP- to GTP-binding with a C(+):G:C triple recognition mode.