Co-C force constants from resonance Raman spectra of alkylcobalamins: insensitivity to dimethylbenzylimidazole coordination

The Co-C stretching vibration has been identified in resonance Raman spectra of alkyl-cobalamins, via isotope substitution, permitting estimation of the Co-C force constants, f = 1.85, 1.77 and 1.50 mdyn Å⁻¹ for methyl-, ethyl- and deoxyadenosyl-cobalamin, respectively (ν_Co-C = 506, 471 and 442/429 cm⁻¹). These values scale with the reported bond dissociation energies, and support the view that the Co-C bond weakens with increasing bulk of the alkyl group due to steric interaction with the corrin ring. However, the force constants are unaffected by dissociation of the dimethylbenzimidazole ligand at low pH, even though the bond dissociation energy rises significantly upon DMB dissociation in AdoCbl. This increase must therefore reflect destabilization of the Co^II product, rather than Co-C bond strengthening in the AdoCbl ground state. The insensitivity of the force constants to dimethylbenzimidazole dissociation implies that the steric effect of DMB coordination is not transmitted to the Co-C bond by the corrin ring. Consistent with this interpretation, the RR frequencies of the corrin ring modes are minimally perturbed by DMB dissociation, supporting earlier NMR results that indicated little change in the corrin conformation.