Spectroscopic studies of the ncd motor domain.ADP complex: CD spectrum of ADP induced by binding to the motor domain of ncd.

Abstract

Previously, we reported that the nucleotide-free ncd motor domain exhibited a near-UV CD spectrum different from that of the ordinary ncd motor domain.ADP complex [Shimizu and Morii, (1996) J. Biochem. 120, 1176-1181]. In the present study, we exchanged the bound nucleotide ADP with N6-methylADP (MeADP) which has a UV absorption spectrum different from that of ADP. The resultant ncd motor domain. MeADP complex gave a near-UV CD spectrum different from that of the ordinary ncd motor domain with bound ADP. This result indicates that the bound nucleotide contributes to the near-UV CD spectra to a considerable extent although ADP or MeADP free in solution gives a spectrum with negligible peaks and troughs. In addition, the absorption intensity of ADP or MeADP at the peak wavelengths decreased to a considerable extent upon binding to the nucleotide-free ncd motor domain. It is suggested that interaction between adenine moiety and chromophore(s) of the protein contributed to the spectral changes of ADP. A candidate chromophore is Tyr442 which is stacked with the adenine moiety at a distance of 0.43 nm. On the other hand, we detected an intensity decrease of tryptophanyl fluorescence upon binding of a nucleotide to the nucleotide-free ncd motor domain, while at the same time tyrosyl fluorescence increased. The fluorescence changes, as well as the UV absorption change described above, gave similar rates upon addition of a nucleotide to the nucleotide-free ncd motor domain. Therefore, they are likely to originate from the same conformational change of the protein.