Abstract
Coenzyme analogs in which the D-ribose moiety of the nucleotide loop was replaced by an oligomethylene group and a trimethylene analog containing imidazole instead of 5,6-dimethylbenzimidazole were synthesized. Coordination of the 5,6-dimethylbenzimidazole to the cobalt atom in these analogs was much weaker than that in cobalamins. The replacement of this base with imidazole did not significantly alter the strength of the coordination to the cobalt atom. 5,6-Dimethylbenzimidazolyl trimethylene and tetramethylene and imidazolyl trimethylene analogs were partially active as coenzymes in the diol dehydrase reaction in this order as judged by kcat, but the others were not active as coenzymes and were weak competitive inhibitors. This indicates that neither the alpha-D-ribofuranose ring nor the functional groups of the ribose moiety are essential for coenzymic function. There was an optimum loop size of the analogs for catalysis and for tight binding to the apoenzyme, which corresponds to the loop size of cobalamins. Therefore, the D-ribose moiety seems important as a spacer to keep the base in the proper position. The reaction with the imidazolyl trimethylene analog as coenzyme was accompanied with concomitant rapid inactivation during catalysis. The inactivation occurred only in the presence of substrate. Upon inactivation with this analog, 5'-deoxyadenosine and a B12r-like species were formed from the adenosyl group and the rest of the analog molecule, respectively, without modification of the apoenzyme. Therefore, it can be concluded that this is a kind of suicide inactivation which occurred from one of the intermediates in the normal catalytic process. The dimethylbenzo moiety of the regular coenzyme thus seems to play an important role in preventing the intermediate complexes from inactivation during catalysis.
Highlights
Imidazolyl trimethylene analogs were partially active During the courseof our studies on the structure-function as coenzymesin the diol dehydrase reaction in this relationship of AdoCbl with its analogs (6-ll)w, e have shown order as judged by k, but the others werenot active that specific interaction of the adenosyl groupof the coenzyme as coenzymes and were weak competitive inhibitors. with its binding site[12] in theenzyme is one of the essential
Chromatographic, electrophoretic and spectral daotaf an adenosyl form of analogs synthesized are summarized in Tables I and I1 and Chemical Properties of the Analogs-As shown in Table 11, Synthesis of [88-’4CC/5’-Chloro-5’-deo+yadenosine-[8-’4C]5’sp-ectra of a cyano form of analogs inwhichD-ribose is Chloro-5’-deoxyadenosinewas synthesized from [8-14C]adenosine(8 replaced by an oligomethylenegroup with different length are mg, 10 FCi) and purified as described previously [15].The product was further purifiedby passing through acolumn (1.4X 5 cm) of DEAE cellulose
It was first demonstrated here that neither a-D-ribofuranose ring nor the functional groups of the ribose moiety are essential for catalytic activity
Summary
A BIz,-like specieswere formed fromthe adenosyl Previously, many analogs of AdoCbl in which DBI of the group and the roefst he analogmolecule, respectively, nucleotide loop is replaced by other heterocyclic bases have without modification of the apoenzyme. It been prepared [16]. Structures of the the desired product was eluted with30% ethanol containing1N NHa. analogs synthesized were confirmed by cerous hydroxide hydrolysis; By evaporation to dryness under reduced pressure, crude 1-(w-hy- that is, formation of the correspondingl-(w-hydroxyalkyl)-5,6-dimedroxyalkyl)-5,6-dimethylhenzimidazolwe as obtained. Chromatographic, electrophoretic and spectral daotaf an adenosyl form of analogs synthesized are summarized in Tables I and I1 and
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
