Reversal of the apparent regiospecificity of NAD(P)H-dependent hydride transfer: the properties of the difluoromethylene group, a carbonyl mimic.

The hallmarks of pyridine nucleotide-dependent dehydrogenase reactions are the stereo- and regiospecific hydride transfer between the nicotinamide coenzyme and the corresponding substrate. When the hydride is delivered from NAD(P)H to reduce the keto-substrate, the site of attack is always at the carbonyl carbon. However, the apparent regioselectivity of the hydride transfer is reversed when difluoromethylene is used as a carbonyl mimic in the NADH-dependent enzyme, TDP-l-rhamnose synthase, which catalyzes the conversion of TDP-6-deoxy-l-lyxo-4-hexulose to TDP-l-rhamnose. The observed reversed regioselectivity can be explained by two mechanisms. One involves the formation of a carbene intermediate followed by a rearrangement involving 1,2-H shift. This mechanistic proposal is theoretically sound and would represent a rare example implicating the intermediacy of a carbene species in an enzyme reaction. However, our results are also consistent with a second mechanism in which the hydride addition to the dif...