Abstract
Protein-ligand docking and ab initio calculations have shown that the 3':5'-AMP phosphorothioate analog (Rp-3':5'-AMPS) blocks the A326 amide group displacement typical of transition from the H- to B-conformation within the B-domain of protein kinase A Iα R-subunit. This behavior of Rp-3':5'-AMPS leads to the inhibition of initial stages of hydrophobic relay operation. In accordance with the proposed hypothesis, Rp-3':5'-AMPS similarly to 3':5'-AMP forms a hydrogen bond with the amide group of A326; however, the properties of this bond together with the position of the sulfur atom prevent the movement of A326. Finally, the Rp-3':5'-AMPS-bound domain appears to be locked in the H-conformation, which is in agreement with the X-ray data.
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