Solution structure of component B from methane monooxygenase derived through heteronuclear NMR and molecular modeling

Methane monooxygenase (MMO) is a nonheme iron-containing enzyme which consists of three protein components: a hydroxylase (MMOH), an NADH-linked reductase (MMOR), and a small "B" component (MMOB) which plays a regulatory role. Here, H-1, C-13, N-15 heteronuclear 2D and 3D NMR spectroscopy has been used to derive the solution structure of the 138 amino acid MMOB protein in the monomer state. Pulse field gradient NMR self-diffusion measurements indicate predominant formation of dimers at 1 mM MMOB and monomers at or below 0.2 mM. MMOB is active as a monomer. Aggregate exchange broadening and limited solubility dictated that multidimensional heteronuclear NMR experiments had to be performed at a protein concentration of 0.2 mM. Using 1340 experimental constraints (1182 NOEs, 98 dihedrals, and 60 hydrogen bonding) within the well-folded part of the protein (residues 36-126), MMOB structural modeling produced a well-defined, compact alpha/beta fold which consists of three alpha-helices and six antiparallel beta-strands arranged in two domains: a beta alpha beta beta and a beta alpha alpha beta beta. Excluding the ill-defined N- and C-terminal segments (residues 1-35 and 127-138), RMS deviations are 1.1 Angstrom for backbone atoms and 1.6 Angstrom for all non-hydrogen atoms. Compared to the lower resolution NMR structure for the homologous protein P2 from the Pseudomonas sp. CF600 phenol hydroxylase system (RMSD = 2.48 Angstrom for backbone atoms) (Qian, H., Edlund, U., Powlowski, J., Shingler, V., and Sethson, I. (1997) Biochemistry, 36, 495-504), that of MMOB reveals a considerably more compact protein. In particular, MMOB lacks the large "doughnut" shaped cavity reported for the P2 protein. This difference may result from the limited number of long-range NOEs that were available for use in the modeling of the P2 structure. This NMR-derived structure of MMOB, therefore, presents the first high-resolution structure of a small protein effector of a nonheme oxygenase system.