Impeded electron transfer from a pathogenic FMN domain mutant of methionine synthase reductase and its responsiveness to flavin supplementation.

Methionine synthase reductase (MSR) is a diflavin oxidoreductase that transfers electrons from NADPH to oxidized cobalamin and plays a vital role in repairing inactive cobalamin-dependent methionine synthase. MSR deficiency is a recessive genetic disorder affecting folate and methionine metabolism and is characterized by elevated levels of plasma homocysteine. In this study, we have examined the molecular basis of MSR dysfunction associated with a patient mutation, A129T, which is housed in the FMN binding domain and is adjacent to a cluster of conserved acidic residues found in diflavin oxidoreductases.