X-ray Crystal Structures of Methane Monooxygenase Hydroxylase Complexes with Variants of Its Regulatory Component: Correlations with Altered Reaction Cycle Dynamics

Abstract: Full activity of soluble methane monooxygenase (sMMO) depends upon the formation of a 1:1 complex of the regulatory protein MMOB with each alpha subunit of the (αβγ)2 hydroxylase, sMMOH. Previous studies have shown that mutations in the core region of MMOB and in the N- and C-termini cause dramatic changes in the rate constants for steps in the sMMOH reaction cycle. Here, X-ray crystal structures are reported for the sMMOH complex with two double variants within the core region of MMOB, DBL1 (N107G/S110A), and… Show more

“…While both the chain of cavities (section ) and W308 tunnel 1 have been proposed as access routes for both methane and O 2 , recent work suggests that a different, related path exists for methane access. This path, denoted W308 tunnel 2, is widened in the complex between MMOH and a double mutant of MMOB, S109A/T111A, consistent with this MMOB variant exhibiting increased rates of reactivity with larger substrates …”

Direct Methane Oxidation by Copper- and Iron-Dependent Methane Monooxygenases

“…While both the chain of cavities (section ) and W308 tunnel 1 have been proposed as access routes for both methane and O 2 , recent work suggests that a different, related path exists for methane access. This path, denoted W308 tunnel 2, is widened in the complex between MMOH and a double mutant of MMOB, S109A/T111A, consistent with this MMOB variant exhibiting increased rates of reactivity with larger substrates …”

Direct Methane Oxidation by Copper- and Iron-Dependent Methane Monooxygenases

Engineered methane biocatalysis: strategies to assimilate methane for chemical production