Cobalt -nucleotide complexes, studies

Stereochemical probes of the specificity of substrates, products, and effectors in enzyme-catalyzed reactions, receptor-ligand interactions, nucleic acid-ligand interactions, etc. Most chirality probe studies attempt to address the stereospecificity of the substrates or ligands or even allosteric effectors. However, upon use of specific kinetic probes, isotopic labeling of achiral centers, chronfium-or cobalt-nucleotide complexes, etc., other stereospecific characteristics can be identified, aU of which will assist in the delineation of the kinetic mechanism as well as the active-site topology. A few examples of chirality probes include ... 

Polarographic studies are reported on thioesters, mainly of the type (140) and (141), and on trichloroethylphosphonites. In the field of nucleotides and nucleosides it is found that ATP has a very high surface activity at the mercury electrode, which is strongly dependent upon complex formation with transition metals. The polarographic behaviour of cobalt complexes with triphenylphosphine and its oxide has been studied in order to estimate extraction efficiencies. 

Vitamin B12 (1) was discovered some 55 years ago as the (extrinsic) antipemicious anemia factor, important for human and animal metabolism The cobalt complex (1) was structurally characterized by X-ray analysis in the laboratory of D.C. Hodgkin. In these studies, the unique buildup of the tetrapyrrolic corrin ligand and the intramolecularly coordinating pseudo-nucleotide function of the vitamin were discovered. ... 

The various photochemical studies of these compounds have been conducted primarily because of the interest of researchers in the synthesis, properties, and biological activity of vitamin and its derivatives. The structure of vitamin Bj2, as determined by Crowfoot-Hodgkin et al. 109), is shown in Fig. 2. It consists of cobalt in a corrin ring complexed axially by an a-S, 6-dimethylbenzimidazole nucleotide and by cyanide ion. Replacement of the axial CN by a methyl group gives methylcobalamin, and by 5 -deoxyadenosine gives coenzyme Bj2. The formal oxidation state of... 

---