| 1. |
Xia ZX,
Dai WW,
Xiong JP,
Hao ZP,
Davidson VL,
White S,
Mathews FS,
( 1992 ) The three-dimensional structures of methanol dehydrogenase from two methylotrophic bacteria at 2.6-A resolution. PMID : 1331050 : Abstract >>
The structures of methanol dehydrogenase (MEDH) from two closely related methylotrophic bacteria, Methylophilus methylotrophus and W3A1, have been determined at 2.6-A resolution. The molecule, a quinoprotein of molecular mass of about 138 kDa, contains two heavy (H) and two light (L) subunits of unknown sequence and two molecules of noncovalently associated pyrroloquinoline quinone. The two enzymes crystallize isomorphously in space group P2(1) with one H2L2 heterotetramer in the asymmetric unit. The electron density map of the M. methylophilus enzyme was obtained by multiple isomorphous replacement with anomalous scattering and improved by solvent leveling and electron density averaging. For model building, the amino acid sequence of MEDH from Paracoccus denitrificans for the H subunit and from Methylobacterium extorquens AM1 for the L subunit were used to represent the unknown amino acid sequence. At the present time, 579 and 57 amino acid residues for the large and small subunits, respectively, have been fitted into the map. The phases for MEDH from M. methylophilus were used directly to analyze the W3A1 structure, and both structures were refined to R-factors (where R = sigma[Fo-Fc[/sigma Fo) of 0.277 and 0.266, respectively. The L subunit contains a long alpha-helix and an extended N-terminal segment, both lying on the molecular surface of the H subunit. The H subunit contains eight antiparallel beta-sheets, each consisting of four strands arranged topologically like the letter W. The eight Ws are arranged circularly, forming the main disc-shaped body of the subunit, with some short helices and loops connecting the consecutive Ws, as well as some excursions within and between some of the Ws. The pyrroloquinoline quinone prosthetic group is located in the central channel of the large subunit near the surface of the molecule. The topology of the eight-W folding unit is similar to those of the six- and seven-W folding units previously reported for three other proteins, neuraminidase, methylamine dehydrogenase, and galactose oxidase.
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2. |
Costa HS,
Santos H,
Turner DL,
Xavier AV,
( 1992 ) Involvement of a labile axial histidine in coupling electron and proton transfer in Methylophilus methylotrophus cytochrome c''. PMID : 1325909 : DOI : 10.1111/j.1432-1033.1992.tb17204.x Abstract >>
Methylophilus methylotrophus cytochrome c'' is an unusual monohaem protein (15 kDa) undergoing a redox-linked spin-state transition [Santos, H. & Turner, D. L. (1988) Biochim. Biophys. Acta 954, 277-286]. The midpoint redox potential of cytochrome c" was measured over the pH range 4-10. The pH dependence of the midpoint redox potential was interpreted in terms of a model that considers the redox-state dependence of the ionization of two distinct and non-interacting protonated groups in the protein. This analysis led to the following pKa values within the pH range studied: pKa10 = 6.4, pKa1r = 5.4 and pKa2r = 8.1. Proton-NMR spectroscopy was used to assist the characterization of the two ionizing groups responsible for the observed redox-Bohr effect: the group ionizing with a lower pKar was assigned to a haem propionic acid substituent and the other to the axial histidine ligand which becomes detached upon reduction, which has a pKa0 too low to be measured. It is shown that M. methylotrophus cytochrome c" is able to couple electron and proton transfer in the physiological pH range through a mechanism involving reversible change in the haem-iron coordination. Possible implications for the physiological role of the protein are discussed.
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3. |
Cox JM,
Day DJ,
Anthony C,
( 1992 ) The interaction of methanol dehydrogenase and its electron acceptor, cytochrome cL in methylotrophic bacteria. PMID : 1311606 : DOI : 10.1016/0167-4838(92)90240-e Abstract >>
The interactions of methanol dehydrogenase (MDH, EC1.1.99.8) with its specific electron acceptor cytochrome cL has been investigated in Methylobacterium extorquens and Methylophilus methylotrophus. The MDHs of these two very different methylotrophs have the same alpha 2 beta 2 structure; the interaction of these MDHs with their specific electron acceptor, cytochrome cL, has been studied using a novel assay system. Electrostatic reactions are involved in 'docking' of the two proteins. EDTA inhibits the reaction by a process involving neither metal chelation nor the 'docking' process. Chemical modification studies showed that the two proteins interact by a 'docking' process involving interactions of lysyl residues on MDH and carboxyl residues on cytochrome cL. When 'zero length', two stage cross-linking was done (with proteins from both bacteria), the alpha-subunits of MDH cross-linked with cytochrome cL by way of lysyl groups on MDH and carboxyl groups on the cytochrome. Tuna mitochondrial cytochrome c provided a model for cytochrome cH which is the electron acceptor for cytochrome cL in the 'methanol oxidase' electron transport chain. Tuna cytochrome c was shown to form crosslinked products with carboxyl-modified cytochrome cL. MDH and tuna cytochrome c competed for the same domain on cytochrome cL. It was concluded that MDH reacts with cytochrome cL by an electrostatic reaction which involves carboxyl groups on cytochrome cL and amino groups on the alpha-subunit of MDH. The same domain on cytochrome cL is involved in subsequent 'docking' with its electron acceptor.
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4. |
Enguita FJ,
Rodrigues L,
Archer M,
Sieker L,
Rodrigues A,
Pohl E,
Turner DL,
Santos H,
Carrondo MA,
( 2003 ) Crystallization and preliminary X-ray characterization of cytochrome c" from the obligate methylotroph Methylophilus methylotrophus. PMID : 12595732 : DOI : 10.1107/s0907444903001045 Abstract >>
Cytochrome c" from the obligate methylotroph Methylophilus methylotrophus is a 15 kDa monohaem protein which has a c-type haem covalently linked to the protein chain. Two histidine residues are the axial ligands of the Fe atom in the oxidized form. This cytochrome is one of the few known haem proteins which undergoes a change of spin state of the Fe atom upon reduction, with the detachment of an axial histidine ligand. Initial crystallization conditions involved the utilization of cadmium chloride as an additive and resulted in highly mosaic crystals with poor diffraction properties. Optimization of the crystallization conditions was achieved by slowing the nucleation process utilizing agarose gels and viscous additives such as PEG, ethylene glycol and glycerol. Addition of glycerol to the crystallization buffer produced crystals suitable for X-ray diffraction, with a reduced solvent content and mosaicity, which diffracted to a maximum resolution of 1.19 A using synchrotron radiation. The crystals obtained under these conditions were employed for structure solution using the multiwavelength anomalous dispersion method at the Fe K edge.
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5. |
Leys D,
Basran J,
Talfournier F,
Sutcliffe MJ,
Scrutton NS,
( 2003 ) Extensive conformational sampling in a ternary electron transfer complex. PMID : 12567183 : DOI : 10.1038/nsb894 Abstract >>
Here we report the crystal structures of a ternary electron transfer complex showing extensive motion at the protein interface. This physiological complex comprises the iron-sulfur flavoprotein trimethylamine dehydrogenase and electron transferring flavoprotein (ETF) from Methylophilus methylotrophus. In addition, we report the crystal structure of free ETF. In the complex, electron density for the FAD domain of ETF is absent, indicating high mobility. Positions for the FAD domain are revealed by molecular dynamics simulation, consistent with crystal structures and kinetic data. A dual interaction of ETF with trimethylamine dehydrogenase provides for dynamical motion at the protein interface: one site acts as an anchor, thereby allowing the other site to sample a large range of interactions, some compatible with rapid electron transfer. This study establishes the role of conformational sampling in multi-domain redox systems, providing insight into electron transfer between ETFs and structurally distinct redox partners.
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6. |
Anthony C,
( 2001 ) Pyrroloquinoline quinone (PQQ) and quinoprotein enzymes. PMID : 11761326 : DOI : 10.1089/15230860152664966 Abstract >>
This review summarises the characteristics, identification, and measurement of pyrroloquinoline quinone, the prosthetic group of bacterial quinoprotein dehydrogenases whose structures, mechanisms, and electron transport functions are described in detail. Type I alcohol dehydrogenase includes the "classic" methanol dehydrogenase; its x-ray structure and mechanism are discussed in detail. It is likely that its mechanism involves a direct hydride transfer rather than a mechanism involving a covalent adduct. The x-ray structure of a closely related ethanol dehydrogenase is also described. The type II alcohol dehydrogenase is a soluble quinohaemoprotein, having a C-terminal extension containing haem C, which provides an excellent opportunity for the study of intraprotein electron transfer processes. The type III alcohol dehydrogenase is similar but it has two additional subunits (one of which is a multihaem cytochrome c) bound in an unusual way to the periplasmic membrane. One type of glucose dehydrogenase is a soluble quinoprotein whose role in energy transduction is uncertain. Its x-ray structure (in the presence and absence of substrate) is described together with the detailed mechanism, which also involves a direct hydride transfer. The more widely distributed glucose dehydrogenases are integral membrane proteins, bound to the membrane by transmembrane helices at the N-terminus.
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7. |
Brennan L,
Turner DL,
Fareleira P,
Santos H,
( 2001 ) Solution structure of Methylophilus methylotrophus cytochrome c": insights into the structural basis of haem-ligand detachment. PMID : 11327772 : DOI : 10.1006/jmbi.2001.4600 Abstract >>
Cytochrome c" from Methylophilus methylotrophus is a monohaem protein with 124 amino acid residues. The iron has two histidine ligands in the oxidised form, one of which detaches and picks up a proton when the protein is reduced. Thus, both forms are paramagnetic. The structure of the oxidised form in solution, determined from NMR data is presented. The family of structures has an average backbone rmsd value of 0.53 A, and a heavy atom rmsd value of 0.95 A, within a target function range of 32 %. This structure is related to class I cytochromes with an additional helix at the N terminus. The haem-binding site occurs in a domain essentially lacking secondary structure motifs and the axial histidinyl residues were found in an unusual near perpendicular orientation. Moreover, a disulfide bridge is present, an uncommon structural feature among c-type cytochromes. The disulfide bridge, linking cysteine residues 96 and 104, forms a loop that confers rigidity and is essential to the detachment of the axial histidine (His95) as demonstrated by chemical disruption of the S-S bond. A route for protonation of the distal histidine involving haem propionate 17 is proposed and discussed in the light of available models for complex membrane proton pumps.
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8. |
Chistoserdova L,
Stolyar SM,
Vorholt JA,
( 1999 ) Distribution of tetrahydromethanopterin-dependent enzymes in methylotrophic bacteria and phylogeny of methenyl tetrahydromethanopterin cyclohydrolases. PMID : 10482517 : PMC : PMC94096 Abstract >>
The methylotrophic proteobacterium Methylobacterium extorquens AM1 possesses tetrahydromethanopterin (H(4)MPT)-dependent enzymes, which are otherwise specific to methanogenic and sulfate-reducing archaea and which have been suggested to be involved in formaldehyde oxidation to CO(2) in M. extorquens AM1. The distribution of H(4)MPT-dependent enzyme activities in cell extracts of methylotrophic bacteria from 13 different genera are reported. H(4)MPT-dependent activities were detected in all of the methylotrophic and methanotrophic proteobacteria tested that assimilate formaldehyde by the serine or ribulose monophosphate pathway. H(4)MPT-dependent activities were also found in autotrophic Xanthobacter strains. However, no H(4)MPT-dependent enzyme activities could be detected in other autotrophic alpha-proteobacteria or in gram-positive methylotrophic bacteria. Genes encoding methenyl H(4)MPT cyclohydrolase (mch genes) were cloned and sequenced from several proteobacteria. Bacterial and archaeal Mch sequences have roughly 35% amino acid identity and form distinct groups in phylogenetic analysis.
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9. |
Ribeiro G,
Costa JV,
Vijgenboom E,
Price NJ,
( 1999 ) Cloning and sequence analysis of the gene encoding Methylophilus methylotrophus cytochrome c", a unique protein with a perpendicular orientation of the histidinyl ligands. PMID : 10524262 : DOI : 10.1016/s0005-2728(99)00085-7 Abstract >>
Cytochrome c" from Methylophilus methylotrophus is an unusual monohaem protein that undergoes a major redox-linked spin-state transition: one of the two axial histidines bound to the iron in the oxidised form is detached upon reduction and a proton is taken up. A 3.5-kb DNA fragment, containing the gene encoding cytochrome c" (cycA), has been cloned and sequenced. The cytochrome c" gene codes for a pre-protein with a typical prokaryotic 20-residue signal sequence, suggesting that the protein is synthesised as a precursor which is processed during its secretion into the periplasm. The C-terminus of cytochrome c" has homology with the corresponding region of an oxygen-binding haem protein (SHP) from phototrophically grown Rhodobacter sphaeroides. SHP is similar in size and in the location of its haem-binding site. Immediately downstream from cytochrome c" a second open reading frame (ORF) codes for a 23-kDa protein with similarity to the cytochrome b-type subunit of Ni-Fe hydrogenase. The possibility of coordinated expression of cycA and this ORF is discussed.
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10. |
Van Beeumen JJ,
Guisez Y,
Leys D,
Backers K,
Costa HS,
Santos H,
( 1999 ) Cytochrome c" from the obligate methylotroph Methylophilus methylotrophus, an unexpected homolog of sphaeroides heme protein from the phototroph Rhodobacter sphaeroides. PMID : 10354493 : DOI : 10.1016/s0005-2728(99)00050-x Abstract >>
The complete primary structure of an unusual soluble cytochrome c isolated from the obligate methylotrophic bacterium Methylophilus methylotrophus has been determined to contain 124 amino acids and to have an average molecular mass of 14293.0 Da. The sequence has two unusual features: firstly, the location of the heme-binding cysteines is far downstream from the N-terminus, namely at positions 49 and 52; secondly, an extra pair of cysteine residues is present near the C-terminus. In both respects, cytochrome c" is similar to the oxygen-binding heme protein SHP from the purple phototrophic bacterium Rhodobacter sphaeroides. In contrast to SHP, cytochrome c" changes from low-spin to high-spin upon reduction, due to dissociation of a sixth heme ligand histidine which is identified as His-95 by analogy to the class I cytochromes c. The distance of His-95 from the heme (41 residues) and the presence of certain consensus residues suggests that cytochrome c" is the second example of a variant class I cytochrome c.
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11. |
Tsujimoto N,
Gunji Y,
Ogawa-Miyata Y,
Shimaoka M,
Yasueda H,
( 2006 ) L-Lysine biosynthetic pathway of Methylophilus methylotrophus and construction of an L-lysine producer. PMID : 16483680 : DOI : 10.1016/j.jbiotec.2005.12.026 Abstract >>
Previously, we showed that the enzymes aspartokinase (AK) and dihydrodipicolinate synthase (DDPS), which are involved in L-lysine biosynthesis in the Gram-negative obligate methylotroph Methylophilus methylotrophus AS1, were inhibited by allosteric effectors, including L-lysine. To elucidate further the regulation of L-lysine biosynthesis in M. methylotrophus, we cloned the genes encoding three other enzymes involved in this pathway, L-aspartate-beta-semialdehyde dehydrogenase, dihydrodipicolinate reductase (DDPR) and diaminopimelate decarboxylase, and examined their properties. DDPR was markedly inhibited by L-lysine. Based on this and our previous results, we constructed an L-lysine-producing strain of M. methylotrophus by introducing well-characterized genes encoding desensitized forms of AK and DDPS, as well as dapB (encoding DDPR) from Escherichia coli, using a broad host range plasmid. L-Lysine production was significantly increased by employing an S-(2-aminoethyl)-L-cysteine (L-lysine analog)-resistant mutant as the host. This derivative accumulated L-lysine at a concentration of 1 g l(-1) of medium using methanol as a carbon source.
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12. |
Kalyuzhnaya MG,
Lidstrom ME,
Chistoserdova L,
( 2004 ) Utility of environmental primers targeting ancient enzymes: methylotroph detection in Lake Washington. PMID : 15696380 : DOI : 10.1007/s00248-004-0212-6 Abstract >>
Methods have been explored for detection of methylotrophs in natural samples, using environmental primers based on genes involved in the tetrahydromethanopterin (H4MPT)-linked C1 transfer pathway. The underlying hypotheses were that the H4MPT-linked pathway is an ancient methylotrophy pathway, based on gene divergence, and that primers targeting more divergent genes will detect a broader variety of methylotrophs compared to the variety uncovered using probes and primers targeting highly conserved genes. Three groups of novel primer sets were developed targeting mch, mtdB, and fae, key genes in the H4MPT-linked pathway, and these were used to assess the variety of microorganisms possessing these genes in sediments from Lake Washington in Seattle, WA. Environmental clone libraries were constructed for each of the genes and were analyzed by RFLP, and representatives of different RFLP groups were sequenced and subjected to phylogenetic analysis. A combination of all three sets of novel primers allowed detection of the two previously characterized groups of methylotrophs in the site: methanotrophs of the (alpha- and the gamma-proteobacterial groups, belonghg to genera Methylosinus, Methylocystis, Methylomonas, Methylobacter, Methylomicrobium, and Methylococcus. In addition to the genes belonging to known methanotroph populations, novel genes were identified, suggesting existence of previously undetected microbial groups possessing C1 transfer functions in this site. These included sequences clustering with the well-characterized methylotrophic phyla, Methylobacterium, Hyphomicrobium, and Xanthobacter. In addition, sequences divergent from those known for any groups of methylotrophs or methanogens were obtained, suggesting the presence of a yet unidentified microbial group possessing this H4MPT-linked C1 transfer pathway.
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13. |
Barber MJ,
Neame PJ,
Lim LW,
White S,
Matthews FS,
( 1992 ) Correlation of x-ray deduced and experimental amino acid sequences of trimethylamine dehydrogenase. PMID : 1551870 : Abstract >>
The amino acid sequence of the iron-sulfur-flavoprotein, trimethylamine dehydrogenase, isolated from the bacterium W3A1 has been deduced from the x-ray diffraction pattern obtained at 2.4-A resolution. This sequence has been compared to portions of the primary sequence derived by gas-phase sequencing of isolated peptides obtained from cyanogen bromide and endoprotease Arg-C and Asp-N digestions of the purified enzyme. A consensus sequence has resulted and is comprised of 729 amino acids with Ala at both NH2- and COOH-terminal positions. The consensus sequence contains 13 cysteine residues. Approximately 80% of the sequence has been confirmed by direct sequencing with approximately 81% agreement with the x-ray deduced sequence. The calculated subunit molecular mass of the apoenzyme is 78,899 Da, in good agreement with published values of approximately 83,000. The anomalous scattering map from the native protein has also been shown to provide accurate information about the positions of most of the weak anomalous scattering centers such as sulfur or phosphorus atoms and to complement x-ray or chemical sequencing methods.
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14. |
Gunji Y,
Tsujimoto N,
Shimaoka M,
Ogawa-Miyata Y,
Sugimoto S,
Yasueda H,
( 2004 ) Characterization of the L-lysine biosynthetic pathway in the obligate methylotroph Methylophilus methylotrophus. PMID : 15277749 : DOI : 10.1271/bbb.68.1449 Abstract >>
The L-lysine biosynthetic pathway of the gram-negative obligate methylotroph Methylophilus methylotrophus AS1 was examined through characterization of the enzymes aspartokinase (AK), aspartsemialdehyde dehydrogenase, dihydrodipicolinate synthase (DDPS), dihydrodipicolinate reductase, and diaminopimelate decarboxylase. The AK was inhibited by L-threonine and by a combination of L-threonine and L-lysine, but not by L-lysine alone, and the activity of DDPS was moderately reduced by L-lysine. In an L-lysine producing mutant (G49), isolated as an S-(2-aminoethyl)-L-cysteine (lysine analog) resistant strain, both AK and DDPS were partially resistant to feedback inhibition. The ask and dapA genes encoding AK and DDPS respectively were isolated from the parental strain, AS1, and its G49 derivative. Comparison of the sequences revealed a point mutation in each of these genes in G49. The mutation in the ask gene altered aspartic acid in a key region involved in the allosteric regulation common to AKs, while a novel mutation in the dapA gene altered tyrosine-106, which was assumed to be involved in the binding of L-lysine to DDPS.
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15. |
Boyd G,
Mathews FS,
Packman LC,
Scrutton NS,
( 1992 ) Trimethylamine dehydrogenase of bacterium W3A1. Molecular cloning, sequence determination and over-expression of the gene. PMID : 1505666 : DOI : 10.1016/0014-5793(92)81291-s Abstract >>
The gene encoding trimethylamine dehydrogenase (EC 1.5.99.7) from bacterium W3A1 has been cloned. Using the polymerase chain reaction a 530 bp DNA fragment encoding a distal part of the gene was amplified. Using this fragment of DNA as a probe, a clone was then isolated as a 4.5 kb BamHI fragment and shown to encode residues 34 to 729 of trimethylamine dehydrogenase. The polymerase chain reaction was used also to isolate the DNA encoding the missing N-terminal part of the gene. The complete open reading frame contained 2,190 base pairs coding for the processed protein of 729 amino acids which lacks the N-terminal methionine residue. The high-level expression of the gene in Escherichia coli was achieved by the construction of an expression vector derived from the plasmid pKK223-3. The cloning and sequence analysis described here complete the partial assignment of the amino acid sequence derived from chemical sequence [1] and will now permit the refinement of the crystallographic structure of trimethylamine dehydrogenase and also a detailed investigation of the mechanism and properties of the enzyme by protein engineering.
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16. |
Gogleva AA,
Kaparullina EN,
Doronina NV,
Trotsenko YA,
( 2010 ) Methylophilus flavus sp. nov. and Methylophilus luteus sp. nov., aerobic, methylotrophic bacteria associated with plants. PMID : 20023062 : DOI : 10.1099/ijs.0.019455-0 Abstract >>
Novel yellow, obligately methylotrophic and restricted facultatively methylotrophic bacteria, respectively designated strains Ship(T) and Mim(T), with the ribulose monophosphate pathway of C(1) assimilation are described. Cells were strictly aerobic, Gram-negative, asporogenous, non-motile rods that multiply by binary fission, were mesophilic and neutrophilic and synthesized indole-3-acetic acid and exopolysaccharide. The predominant cellular fatty acids were C(16 : 0) and C(16 : 1). The major ubiquinone was Q-8. The predominant phospholipids were phosphatidylethanolamine and phosphatidylglycerol; diphosphatidylglycerol was absent. The two strains lacked �\-ketoglutarate dehydrogenase and glutamate dehydrogenase. They assimilated ammonium via the glutamate cycle enzymes glutamine synthetase and glutamate synthase. The DNA G+C contents of strains Ship(T) and Mim(T) were 50.7 and 54.5 mol% (T(m)), respectively. The level of 16S rRNA gene sequence similarity between these strains was very high (99.8 %) but they shared a low level of DNA-DNA relatedness (44 %). Based on 16S rRNA gene sequence analysis and low levels of DNA-DNA relatedness with the type strains of recognized species of the genus Methylophilus (31-36 %), strains Ship(T) and Mim(T) are considered to represent novel species of the genus Methylophilus, for which the names Methylophilus flavus sp. nov. (type strain Ship(T) =DSM 23073(T) =VKM B-2547(T) =CCUG 58411(T)) and Methylophilus luteus sp. nov. (type strain Mim(T) =DSM 22949(T) =VKM B-2548(T) =CCUG 58412(T)) are proposed.
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17. |
Madhaiyan M,
Poonguzhali S,
Kwon SW,
Sa TM,
( 2009 ) Methylophilus rhizosphaerae sp. nov., a restricted facultative methylotroph isolated from rice rhizosphere soil. PMID : 19628595 : DOI : 10.1099/ijs.0.009811-0 Abstract >>
Three facultative methylotrophic bacterial strains, designated CBMB127(T), CBMB145 and CBMB147, were isolated from the rhizosphere soil of rice and characterized. The strains produced indole-3-acetic acid and siderophores, had 1-aminocyclopropane-1-carboxylate deaminase activity and sulfur oxidation property and also methanol dehydrogenase. Phylogenetic analysis based on the 16S rRNA and methanol dehydrogenase (mxaF) gene sequences showed that Methylophilus methylotrophus was their close relative. The results of the phenotypic, phylogenetic and genotypic analyses showed that strains CBMB127(T) and CBMB145, with 99.4 % 16S rRNA gene sequence similarity and 99 % DNA-DNA hybridization, could be distinguished from recognized species of Methylophilus. Therefore strain CBMB127(T) and CBMB145 are considered to represent a novel species of Methylophilus, for which the name Methylophilus rhizosphaerae sp. nov. is proposed, with CBMB127(T) (=KACC 13099(T)=NCCB 100233(T)) as the type strain. Strain CBMB147 represents a novel strain of the species Methylophilus methylotrophus.
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18. |
Yomantas YA,
Tokmakova IL,
Gorshkova NV,
Abalakina EG,
Kazakova SM,
Gak ER,
Mashko SV,
( 2010 ) Aromatic amino acid auxotrophs constructed by recombinant marker exchange in Methylophilus methylotrophus AS1 cells expressing the aroP-encoded transporter of Escherichia coli. PMID : 19880640 : DOI : 10.1128/AEM.02217-09 PMC : PMC2798654 Abstract >>
The isolation of auxotrophic mutants, which is a prerequisite for a substantial genetic analysis and metabolic engineering of obligate methylotrophs, remains a rather complicated task. We describe a novel method of constructing mutants of the bacterium Methylophilus methylotrophus AS1 that are auxotrophic for aromatic amino acids. The procedure begins with the Mu-driven integration of the Escherichia coli gene aroP, which encodes the common aromatic amino acid transporter, into the genome of M. methylotrophus. The resulting recombinant strain, with improved permeability to certain amino acids and their analogues, was used for mutagenesis. Mutagenesis was carried out by recombinant substitution of the target genes in the chromosome by linear DNA using the FLP-excisable marker flanked with cloned homologous arms longer than 1,000 bp. M. methylotrophus AS1 genes trpE, tyrA, pheA, and aroG were cloned in E. coli, sequenced, disrupted in vitro using a Kmr marker, and electroporated into an aroP carrier recipient strain. This approach led to the construction of a set of marker-less M. methylotrophus AS1 mutants auxotrophic for aromatic amino acids. Thus, introduction of foreign amino acid transporter genes appeared promising for the following isolation of desired auxotrophs on the basis of different methylotrophic bacteria.
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19. |
Morgan RD,
Bhatia TK,
Lovasco L,
Davis TB,
( 2008 ) MmeI: a minimal Type II restriction-modification system that only modifies one DNA strand for host protection. PMID : 18931376 : DOI : 10.1093/nar/gkn711 PMC : PMC2582602 Abstract >>
MmeI is an unusual Type II restriction enzyme that is useful for generating long sequence tags. We have cloned the MmeI restriction-modification (R-M) system and found it to consist of a single protein having both endonuclease and DNA methyltransferase activities. The protein comprises an amino-terminal endonuclease domain, a central DNA methyltransferase domain and C-terminal DNA recognition domain. The endonuclease cuts the two DNA strands at one site simultaneously, with enzyme bound at two sites interacting to accomplish scission. Cleavage occurs more rapidly than methyl transfer on unmodified DNA. MmeI modifies only the adenine in the top strand, 5'-TCCRAC-3'. MmeI endonuclease activity is blocked by this top strand adenine methylation and is unaffected by methylation of the adenine in the complementary strand, 5'-GTYGGA-3'. There is no additional DNA modification associated with the MmeI R-M system, as is required for previously characterized Type IIG R-M systems. The MmeI R-M system thus uses modification on only one of the two DNA strands for host protection. The MmeI architecture represents a minimal approach to assembling a restriction-modification system wherein a single DNA recognition domain targets both the endonuclease and DNA methyltransferase activities.
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20. |
Ishikawa K,
Asahara T,
Gunji Y,
Yasueda H,
Asano K,
( 2008 ) Disruption of metF increased L-lysine production by Methylophilus methylotrophus from methanol. PMID : 18460806 : DOI : 10.1271/bbb.70818 Abstract >>
Methionine auxotrophic mutants of Methylophilus methylotrophus AS1 expressing a mutant form of dapA (dapA24) encoding a dihydrodipicolinate synthase desensitized from feedback inhibition by L-lysine, and mutated lysE (lysE24) encoding the L-lysine exporter from Corynebacterium glutamicum 2256, produced higher amounts of L-lysine from methanol as sole carbon source than did other amino acid auxotrophic mutants. Especially, the M. methylotrophus 102 strain, carrying both dapA24 and lysE24, produced L-lysine in more than 1.5 times amounts higher than the parent. A single-base substitution was identified in this auxotroph in codon-329 of the open reading frame of metF, encoding 5,10-methylene-tetra-hydrofolate reductase. We constructed a metF disruptant mutant carrying both dapA24 and lysE24, and confirmed increases in L-lysine production. This is the first report to the effect that metF deficient increased L-lysine production in methylotroph.
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21. |
Callahan SJ,
Luyten YA,
Gupta YK,
Wilson GG,
Roberts RJ,
Morgan RD,
Aggarwal AK,
( 2016 ) Structure of Type IIL Restriction-Modification Enzyme MmeI in Complex with DNA Has Implications for Engineering New Specificities. PMID : 27082731 : DOI : 10.1371/journal.pbio.1002442 PMC : PMC4833311 Abstract >>
The creation of restriction enzymes with programmable DNA-binding and -cleavage specificities has long been a goal of modern biology. The recently discovered Type IIL MmeI family of restriction-and-modification (RM) enzymes that possess a shared target recognition domain provides a framework for engineering such new specificities. However, a lack of structural information on Type IIL enzymes has limited the repertoire that can be rationally engineered. We report here a crystal structure of MmeI in complex with its DNA substrate and an S-adenosylmethionine analog (Sinefungin). The structure uncovers for the first time the interactions that underlie MmeI-DNA recognition and methylation (5'-TCCRAC-3'; R = purine) and provides a molecular basis for changing specificity at four of the six base pairs of the recognition sequence (5'-TCCRAC-3'). Surprisingly, the enzyme is resilient to specificity changes at the first position of the recognition sequence (5'-TCCRAC-3'). Collectively, the structure provides a basis for engineering further derivatives of MmeI and delineates which base pairs of the recognition sequence are more amenable to alterations than others.
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22. |
Berry MJ,
George SJ,
Thomson AJ,
Santos H,
Turner DL,
( 1990 ) Cytochrome c'' isolated from Methylophilus methylotrophus. An example of bis-histidine-co-ordinated Fe3+ haem, with near-perpendicular orientation of the ligands. PMID : 2169241 : DOI : 10.1042/bj2700413 PMC : PMC1131738 Abstract >>
Cytochrome c'' (Methylophilus methylotrophus) is a soluble protein, Mr 15,000, possessing one haem which is high-spin in the reduced state but switches to a low-spin form on oxidation. Low-temperature electron-paramagnetic-resonance spectroscopy of the oxidized state shows a low-spin signal at gz = 3.65 with a folded line-shape typical of a haem of low rhombicity, and the near-infrared magnetic-circular-dichroism (m.c.d.) spectra reveal an unusually intense (delta epsilon = 400 M-1.cm-1 at 5 T, 4.2 K) charge-transfer band at 1560 nm, establishing that the oxidized haem is co-ordinated by two His residues in a near-perpendicular orientation. This conformation is well established for transmembrane b cytochromes, but this appears to be the first example in a water-soluble cytochrome. The low-temperature m.c.d. spectra of the reduced form of the protein confirms that the haem contains a high-spin Fe2+ ligated by one His residue. The redox-linked spin-state change releases a His group. Since this residue is likely to bind a proton at pH values less than 6.5, this cytochrome may provide a useful model of a molecular mechanism of a redox-linked proton uptake and release process.
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23. |
( 1997 ) An outer-membrane porin inducible by short-chain amides and urea in the methylotrophic bacterium Methylophilus methylotrophus. PMID : 9245819 : DOI : 10.1099/00221287-143-7-2373 Abstract >>
The fmdA and fmdB genes encoding formamidase and a putative regulatory protein, respectively, from the methylotrophic bacterium Methylophilus methylotrophus were recloned with additional flanking DNA (pSW1). fmdC, encoding a weakly hydrophilic protein containing an N-terminal signal sequence, was identified upstream of fmdAB. The derived amino acid sequence of mature FmdC (M(r) 39204) showed that it was rich in beta-sheet and aromatic amino acids, and exhibited significant similarities to several outer-membrane porins from other bacteria. Cell fractionation studies showed that the protein was located in the outer membrane. Mature FmdC was purified and shown to consist of a single type of subunit (M(r) 40,000) with the predicted N-terminal amino acid sequence (GATISF-). SDS-PAGE and Western blotting of cells grown in continuous culture under various conditions showed that mature FmdC was induced by formamide, acetamide and urea, repressed by excess ammonia, and over-expressed during prolonged growth under formamide limitation. It is concluded that mature FmdC is a porin involved in the transport of short-chain amides and urea through the outer membrane of M. methylotrophus under conditions where these nitrogen sources are present at very low concentration.
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24. |
( 1996 ) Molecular characterisation of formamidase from Methylophilus methylotrophus. PMID : 8841393 : DOI : 10.1111/j.1432-1033.1996.0314h.x Abstract >>
A 3.2-kbp PstI fragment of DNA encoding formamidase from the methylotrophic bacterium Methylophilus methylotrophus which had previously been cloned (pNW3) [Wyborn, N.R., Scherr, D.J. & Jones, C.W. (1994) Microbiology 140, 191-195], was subcloned as a 2.3 kbp HindIII fragment (pNW323). Nucleotide sequencing showed that the subclone contained two genes which encoded formamidase (fmdA) and a possible regulatory protein (fmdB). Predicted molecular masses for FmdA and FmdB were 44438 Da (compared with approximately 44500 Da by electrospray mass spectrometry and 51000 Da by SDS/PAGE of the purified enzyme) and 12306 Da, respectively. The derived amino acid sequence of formamidase was supported by N-terminal amino acid sequencing of the enzyme and of proteolytic fragments prepared from it using V8 endoproteinase and was 57% similar to that of the acetamidase from Mycobacterium smegmatis. The structural similarities between these two enzymes, and their existence as a separate class of bacterial amidase, were confirmed by immunological investigations.
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25. |
( 1993 ) The active site structure of the calcium-containing quinoprotein methanol dehydrogenase. PMID : 8241148 : DOI : 10.1021/bi00211a002 Abstract >>
Pyrroloquinoline quinone (PQQ), widely found in nature, serves as the redox cofactor in bacterial methanol dehydrogenase (MEDH), a heterotetrameric enzyme that oxidizes methanol to formaldehyde. The refined structure of MEDH at 2.4-A resolution, based on recently obtained amino acid sequence data, reveals that the PQQ, located in a central channel of the disk-shaped protein, is sandwiched between a Trp side chain and a very unusual vicinal disulfide. A Ca2+ ion forms a bridge between PQQ and the protein molecule, very close to a putative substrate binding pocket. The vicinal disulfide may form during PQQ incorporation and possibly act to hold the latter in place.
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26. |
( 1993 ) Characterization of the haem environment in Methylophilus methylotrophus ferricytochrome c" by 1H-NMR. PMID : 8394812 : DOI : 10.1111/j.1432-1033.1993.tb18097.x Abstract >>
Two-dimensional NMR techniques have been used to assign proton resonances in the haem cavity of Methylophilus methylotrophus cytochrome c", a monohaem protein with bis-histidinyl ligation which has been shown to couple electron and proton transfer. All the assignments were made directly for the oxidized paramagnetic form of the cytochrome. Nearly all of the haem protons (90%) and the protons of both axial ligands have been assigned; the side-chain protons from four other residues in the haem pocket have also been identified. The data indicate a highly symmetric unpaired-electron distribution in the haem group, which agrees with a perpendicular orientation of the axial imidazole planes. The two haem propionate groups have contrasting degrees of exposure to the solvent, with the propionate group at position 13 being highly exposed. To obtain information on the dynamics of the haem environment, measurements of the 1H/2H-exchange rates of amide protons located in the haem cavity were performed. The two faces of the haem are found to differ markedly with respect to water accessibility. All of this information, together with additional protein sequencing data, indicates that His52 remains attached upon reduction and that the redox-linked protonation occurs via a channel running through the haem cleft on the opposite face.
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27. |
( 1996 ) Determination of the gene sequence and the three-dimensional structure at 2.4 angstroms resolution of methanol dehydrogenase from Methylophilus W3A1. PMID : 8676383 : DOI : 10.1006/jmbi.1996.0334 Abstract >>
The DNA sequences for the genes encoding the heavy and light subunits of methanol dehydrogenase from Methylophilus methylotrophus W3A1 have been determined. The deduced amino acid sequence has enabled the structure of the enzyme to be refined at 2.4 angstrom resolution against X-ray data collected on a Hamlin area detector. The structure was refined using the programs PROFFT and X-PLOR with several model building step interspersed. The final model contains two heavy chains (571 amino acids), two light chains (69 amino acids), two molecules of pyrroloquinoline quinone, two Ca2+ and 521 solvent molecules. Each half molecule contains four disulfide linkages and four cis peptides. One of the disulfides is formed from two adjacent cysteine residues linked by a trans peptide which creates a novel eight-membered ring. The heavy subunit is an 8-fold beta-propeller, each "blade" of which is a four-stranded antiparallel twisted beta-sheet. The light chain is an elongated subunit stretching across the surface of the heavy subunit, with residues 1 to 32 containing four beta-turns and residues 33 to 62 forming a helix; however, it neither interacts with the active site, nor the other HL dimer and its functional role is obscure. Around the 8-fold beta-propeller there is a repeating pattern of tryptophan residues located in the outer strand of seven of the eight beta-leaflets, each packed between adjacent leaflets. Each of these tryptophan residues is centered in the beta-strand and participates in the main chain hydrogen bonding of the sheet. Five of the seven tryptophan residues have closely similar interactions with the adjacent beta-leaflet including stacking of the tryptophan indole rings against a peptide plane and formation of a hydrogen bond from NE1 of the indole ring to a main-chain carbonyl. This repeating pattern is conserved over a number of MEDH sequences. The PQQ is located on the pseudo 8-fold rotation axis of the heavy subunit, in a funnel-shaped internal cavity, sandwiched between the indole ring of Trp237 and the two sulfur atoms of the Cys103-Cys104 vicinal disulfide. A hexacoordinate Ca2+ is bound in the active site by one nitrogen and five oxygen ligands, three from the PQQ and the others from two protein side-chains. In the active site an isolated solvent molecule is bound to the O5 of PQQ and to a nearby aspartate side-chain; its position may be the binding site for methanol. The aspartate might than serve as a general base for proton abstraction from the substrate hydroxyl. The C5 atom of PQQ could be activated by electrophilic catalysis by a nearby argenine side-chain or by the calcium ion bound to PQQ.
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28. |
( 1994 ) Organization of the methylamine utilization (mau) genes in Methylophilus methylotrophus W3A1-NS. PMID : 8021188 : PMC : PMC205606 DOI : 10.1128/jb.176.13.4073-4080.1994 Abstract >>
The organization of genes involved in utilization of methylamine (mau genes) was studied in Methylophilus methylotrophus W3A1. The strain used was a nonmucoid variant termed NS (nonslimy). The original mucoid strain was shown to be identical to the NS strains on the basis of chromosomal digest and hybridization patterns. An 8-kb PstI fragment of the chromosome from M. methylotrophus W3A1-NS encoding the mau genes was cloned and a 6,533-bp region was sequenced. Eight open reading frames were found inside the sequenced area. On the basis of a high level of sequence identity with the Mau polypeptides from Methylobacterium extorquens AM1, the eight open reading frames were identified as mauFBEDAGLM. The mau gene cluster from M. methylotrophus W3A1 is missing two genes, mauC (amicyanin) and mauJ (whose function is unknown), which have been found between mauA and mauG in all studied mau gene clusters. Mau polypeptides sequenced so far from five different bacteria show considerable identity. A mauA mutant of M. methylotrophus W3A1-NS that was constructed lost the ability to grow on all amines as sources of nitrogen but still retained the ability to grow on trimethylamine as a source of carbon. Thus, unlike M. extorquens AM1 and Methylobacillus flagellatum KT, M. methylotrophus W3A1-NS does not have an additional methylamine dehydrogenase system for amine oxidation. Using a promoter-probe vector, we identified a promoter upstream of mauF and used it to construct a potential expression vector, pAYC229.
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29. |
Chen D,
Swenson RP,
( 1994 ) Cloning, sequence analysis, and expression of the genes encoding the two subunits of the methylotrophic bacterium W3A1 electron transfer flavoprotein. PMID : 7798207 : Abstract >>
The genes encoding the two different subunits of the electron transfer flavoprotein (ETF) from the methylotrophic bacterium W3A1 have been identified, cloned, and sequenced. A 0.8-kilobase pair DNA fragment was generated for use as a molecular probe by the amplification of genomic sequences using the polymerase chain reaction and a primer pair with degenerate sequences derived from the NH2-terminal amino acid sequences determined for the ETF subunits purified from W3A1. The screening of a partial genomic minilibrary containing size-selected BamHI-SalI fragments using this probe identified a 2.2-kilobase pair insert containing the complete coding sequences for both W3A1 ETF subunits. The genes are arranged in tandem in the genomic DNA with only 2 bases between the TAG translation termination codon of the small subunit and the ATG translation initiation codon of the large subunit. The deduced amino acid sequences of each of the W3A1 ETF subunits exhibit only approximately 30% identity with the corresponding subunits of the ETF from human, rat, and Paracoccus denitrificans, which as a group are greater than 50% identical. Thus, the ETF from W3A1 may exhibit some unique structural features that, like other differences in some of its physical and functional properties, may distinguish this ETF from others in this family. A highly homologous region near the COOH terminus of the large subunit in all the ETF proteins was found to contain a sequence that matches in several ways the ADP-binding motif of flavoproteins and other dinucleotide-binding proteins, suggesting that the large subunit forms a portion of the FAD (or AMP) binding site in these proteins. Under control of the tac promoter, the cloned ETF subunit genes were co-expressed in Escherichia coli producing the heterodimeric holoprotein with physical, spectral, and electron-accepting properties essentially identical to the ETF isolated from W3A1. The recombinant ETF serves as the electron acceptor for W3A1 trimethylamine dehydrogenase in vitro, accumulating as the air-stable anionic semiquinone in the presence of excess trimethylamine. Fully reduced ETF could not be obtained even after prolonged enzymatic reduction.
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30. |
Kenney WC,
McIntire W,
Steenkamp DJ,
( 1978 ) Amino acid sequence of a cofactor peptide from trimethylamine dehydrogenase. PMID : 620783 : DOI : 10.1016/0014-5793(78)81265-4 Abstract >>
N/A
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31. |
( 1998 ) Characterisation of a binding-protein-dependent, active transport system for short-chain amides and urea in the methylotrophic bacterium Methylophilus methylotrophus. PMID : 9492267 : DOI : 10.1046/j.1432-1327.1998.2510045.x Abstract >>
Three genes (fmdCAB) encoding an outer-membrane porin for short-chain amides and urea, formamidase, and a putative regulatory protein in Methylophilus methylotrophus have previously been cloned and characterised. Three genes have now been identified downstream of fmdB, viz fmdD encoding a hydrophilic protein containing an N-terminal signal sequence, and fmdEF encoding hydrophobic transmembrane proteins. The derived amino acid sequence of mature FmdD (predicted molecular mass 41,870 Da) was similar to the cytoplasmic, amide-binding protein (AmiC) from Pseudomonas aeruginosa and to several periplasmic, solute-binding proteins from other bacteria. Mature FmdD was purified and shown to be a monomer (40-45 kDa) with the predicted N-terminal amino acid sequence (ADYPTA-). Equilibrium dialysis showed that the purified protein bound short-chain amides and urea with high affinity (Kd 7.2 microM for [14C]urea). SDS/PAGE and western blotting using antiserum to mature FmdD showed it was induced by short-chain amides and urea, and repressed by excess ammonia. The derived amino acid sequences of FmdE (32,822 Da) and FmdF (incomplete; >25,435 Da) were similar to the transmembrane proteins BraD/LivH and BraE/LivM, respectively, in various leucine/isoleucine/valine transport systems. Uptake of [14C]urea by washed cells was inhibited by the uncoupling agent carbonyl cyanide p-trifluoromethoxyphenylhydrazone and unlabelled formamide. It is concluded that FmdDEF comprise part of a high-affinity, binding-protein-dependent active-transport system for short-chain amides and urea in M. methylotrophus.
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