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  • Title: Polarized ATR-FTIR spectroscopy of the membrane-embedded domains of the particulate methane monooxygenase.
    Author: Vinchurkar MS, Chen KH, Yu SS, Kuo SJ, Chiu HC, Chien SH, Chan SI.
    Journal: Biochemistry; 2004 Oct 26; 43(42):13283-92. PubMed ID: 15491135.
    Abstract:
    The particulate methane monooxygenase (pMMO) of Methylococcus capsulatus (Bath) is an integral membrane protein that catalyzes the conversion of methane to methanol. To gain some insight into the structure-reactivity pattern of this protein, we have applied attenuated total reflection Fourier transform infrared (ATR-FTIR) spectroscopy to investigate the secondary structure of the pMMO. The results showed that ca. 60% of the amino acid residues were structured as alpha-helices. About 80% of the peptide residues were estimated to be protected from the amide (1)H/(2)H exchange during a 21 h exposure to (2)H(2)O. In addition, a significant portion of the protein was shown to be sequestered within the bilayer membrane, protected from trypsin proteolysis. The ATR-FTIR difference spectrum between the intact and the proteolyzed pMMO-enriched membranes revealed absorption peaks only in the spectral regions characteristic for unordered and beta-structures. These observations were corroborated by amino acid sequence analysis of the pMMO subunits using the program TransMembrane topology with a Hidden Markov Model: 15 putative transmembrane alpha-helices were predicted. Finally, an attempt was also made to model the three-dimensional folding of the protein subunits from the sequence using the Protein Fold Recognition Server based on the 3D Position Specific Scoring Matrix Method. The C-terminal solvent-exposed sequence (N255-M414) of the pMMO 45 kDa subunit was shown to match the beta-sheet structure of the multidomain cupredoxins. We conclude on the basis of this ATR-FTIR study that pMMO is an alpha-helical bundle with ca. 15 transmembrane alpha-helices embedded in the bilayer membrane, together with a water-exposed domain comprised mostly of beta-sheet structures similar to the cupredoxins.
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