Effect of bacitracin on flagellar assembly and presumed glycosylation of the flagellins of Methanococcus deltae

Methanococcus deltae is an irregularly-shaped coccoid methanogen which possesses peritrichously arranged flagella. The flagella are composed of 2 flagellins of M _r=27000 and 32000 and possess a carbohydrate component as determined by thymol-sulfuric acid staining of SDS-PAGE. Cell growth was sensitive to bacitracin at levels near 10 g/ml. Growth in the presence of 5g/ml bacitracin resulted in the appearance of presumably hypoglycosylated flagellins as detected by Western immunoblotting. Continual passage of cells from 5 g/ml bacitracin through 10, 25, and 50 g/ml bacitracin resulted in cells capable of growth at 100 g/ml bacitracin. Western immunoblot analysis revealed that cells grown in the highest concentration of bacitracin no longer possessed native flagellins but only the hypoglycosylated forms. Electron microscopy corroborated the absence of normal flagella. These studies suggest that a bacitracin-sensitive dolichol-diphosphate carrier is responsible for attachment of at least a large proportion of the carbonhydrate content of the flagellins, and that a minimum amount of glycosylation is essential for normal flagellum assembly.     

Pyruvate oxidation by Methanococcus spp.

In the absence of H₂, Methanococcus spp. utilized pyruvate as an electron donor for methanogenesis. For Methanococcus voltae A3, Methanococcus maripaludis JJ1, and Methanococcus vannielii, typical rates of pyruvate-dependent methanogenesis were 3.4, 2.8, and 3.9 nmol min^-1 mg^-1 cell dry wt, respectively. These rates were 1–4% of the rates of H₂-dependent methanogenesis. For M. voltae, the concentration of pyruvate required for one-half the maximum rate of methanogenesis was 7 mM, and pyruvate-dependent methanogenesis was linear for 3 days. Radiolabeled acetate was formed from [3-¹⁴C]pyruvate, and the stoichiometry of pyruvate consumed per acetate produced was 1.12±0.27. The stoichiometry of pyruvate consumed per CH₄ produced was 3.64±0.34. These values are close to the expected values of 1 acetate and 4 CH₄. Although 10–30% of total cell carbon could be obtained from exogenous pyruvate during growth with H₂, pyruvate did not replace the nutritional requirement for acetate in Methanococcus voltae A3 or two acetate auxotrophs of Methanococcus maripaludis, JJ6 and JJ7. These results suggest that pyruvate was not oxidized in the presence of H₂. The inability to oxidize pyruvate during H₂-dependent methanogenesis would prevent a futile cycle of pyruvate oxidation and biosynthesis during autotrophic growth.     

Flagellin genes of Methanococcus vannielii : amplification by the Polymerase Chain Reaction, demonstration of signal peptides and identification of major components of the flagellar filament

The highly conserved nature of the 5′-termini of all archaeal flagellin genes was exploited by polymerase chain reaction (PCR) techniques to amplify the sequence of a portion of a flagellin gene family from the archaeon Methanococcus vannielii. Subsequent inverse PCR experiments generated fragments that permitted the sequencing of a total of three flagellin genes, which, by comparison with flagellin genes that have been sequenced, from other archaea appear to be equivalent to flaB1, flaB2, and flaB3 of M. voltae. Analysis of purified M. vannielii flagellar filaments by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) revealed two major flagellins (M_r= 30 800 and 28 600), whose N-terminal sequences identified them as the products of the flaB1 and flaB2 genes, respectively. The gene product of flaB3 could not be detected in flagellar filaments by SDS-PAGE. The protein sequence data, coupled with the DNA sequences, demonstrated that both FlaB1 and FlaB2 flagellins are translated with a 12-amino acid signal peptide which is absent from the mature protein incorporated into the flagellar filament. These data suggest that archaeal flagellin export differs significantly from that of bacterial flagellins. Received: 27 November 1997 / Accepted: 19 March 1998     

Flagellin genes of Methanococcus vannielii : amplification by the Polymerase Chain Reaction, demonstration of signal peptides and identification of major components of the flagellar filament

The highly conserved nature of the 5′-termini of all archaeal flagellin genes was exploited by polymerase chain reaction (PCR) techniques to amplify the sequence of a portion of a flagellin gene family from the archaeon Methanococcus vannielii. Subsequent inverse PCR experiments generated fragments that permitted the sequencing of a total of three flagellin genes, which, by comparison with flagellin genes that have been sequenced, from other archaea appear to be equivalent to flaB1, flaB2, and flaB3 of M. voltae. Analysis of purified M. vannielii flagellar filaments by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) revealed two major flagellins (M_r= 30 800 and 28 600), whose N-terminal sequences identified them as the products of the flaB1 and flaB2 genes, respectively. The gene product of flaB3 could not be detected in flagellar filaments by SDS-PAGE. The protein sequence data, coupled with the DNA sequences, demonstrated that both FlaB1 and FlaB2 flagellins are translated with a 12-amino acid signal peptide which is absent from the mature protein incorporated into the flagellar filament. These data suggest that archaeal flagellin export differs significantly from that of bacterial flagellins.     

A pseudo-SECIS element in <Emphasis Type="Italic">Methanococcus voltae</Emphasis> documents evolution of a selenoprotein into a sulphur-containing homologue

Methanococcus maripaludis possesses two sets of F₄₂₀-non-reducing hydrogenases which are differentially expressed in response to the selenium content of the medium. One of the subunits of the selenium-containing hydrogenase, VhuD, contains two selenocysteine residues, whereas the homologue of M. voltae possesses cysteine residues in the equivalent positions. Analysis of the 3 non-translated region of the M. voltae vhuD mRNA revealed the existence of a structure resembling the consensus of archaeal SECIS elements but with deviations rendering it non-functional in determining selenocysteine insertion. The presence of a pseudo-SECIS element in the 3 non-translated region of the vhuD mRNA from M. voltae suggests that VhuD from this organism has developed from a selenocysteine-containing ancestor. The 3 non-translated region from the VhcD homologues neither contained a SECIS nor a pseudo SECIS element.     

Concanavalin A is synthesized as a glycoprotein precursor

Concanavalin A (Con A) is a tetrameric lectin which is synthesized in the cotyledons of developing jack-bean (Canavalia ensiformis (L.) D.C.) seeds and accumulates in the protein bodies of storage-parenchyma cells. The polypeptides of Con A have a molecular weight of 27000 and a relative molecular mass (M_r) of 30000 when analyzed by gel electrophoresis on denaturing polyacrylamide gels. In-vitro translation of RNA isolated from immature jack-bean cotyledons shows that Con A is synthesized as a polypeptide with M_r 34000. In-vivo pulse labeling of cotyledons with radioactive amino acids or glucosamine also resulted in the formation of a 34000-M_r polypeptide. In-vivo labeling with radioactive amino acids in the presence of tunicamycin yielded an additional polypeptide of 32000 M_r. Together these results indicate that Con A is cotranslationally processed by the removal of a signal sequence and the addition of an oligosaccharide side chain of corresponding size. Analysis of the structure of the oligogosaccharide side chain was accomplished through glycosidase digestion of glycopeptides isolated from [³H]glucosamine-labeled Con A. Incubation of the labeled glycopeptides with endoglycosidase H, -mannosidase or -N-acetylglucosaminidase, followed by gel filtration, allowed us to deduce that the oligosaccharide side chain of pro-Con A is a high-mannose oligosaccharide. Pulse-chase experiments with labeled amino acids are consistent with the interpretation that the glycosylated precursor of Con A is processed to mature Con A (M_r=30000). The 4000 decrease in M_r is interpreted to result from the removal of a small glycopeptide. The implications of the conversion of a glycoprotein pro-Con A to mature Con A are discussed in the context of the unique circular permutation of the primary structure of Con A.Abbreviations Con A concanavalin A - Glc glucose - GlcNAc N-acetylglucosamine - IgG immunoglobulin G - Man mannose - M_r relative molecular mass - SDS-PAGE sodium dodecylsulfate-polyacrylamide gel electrophoresis     

Localization of the F420-reducing hydrogenase in Methanococcus voltae cells by immuno-gold technique

The F₄₂₀-reducing hydrogenase of Methanococcus voltae, which takes part in the terminal reduction step of methanogenesis, was localized in situ in ultrathin sections. This result was obtained by the immuno-gold technique using a high titer antiserum raised against the purified enzyme. Its specifity for the hydrogenase was shown by Western blot analysis. The hydrogenase of M. voltae was found to be membrane-associated.Abbreviations ELISA Enzyme linked immuno sorbent assay - F₄₂₀ 8-hydroxy-5-deazaflavin     

Role of Amino Acids and Vitamins in Nutrition of Mesophilic Methanococcus spp

In this study we found that autotrophic methanococci similar to Methanococcus maripaludis obtained up to 57% of their cellular carbon from exogenous amino acids. About 85% of the incorporation was into protein. Primarily nonpolar and basic amino acids and glycine were incorporated; only small amounts of acidic and some polar amino acids were taken up. An additional 10% of the incorporation was into the nucleic acid fraction. Because little ¹⁴CO₂ was formed from the ¹⁴C-amino acids, little metabolism of the amino acids occurred. Therefore the growth stimulation by amino acids was probably due to the sparing of anabolic energy requirements. Of the amino acids incorporated, only alanine was also a sole nitrogen source for these methanococci. In contrast, Methanococcus vannielii and “Methanococcus aeolicus” are autotrophic methanococci which did not incorporate amino acids and did not utilize alanine as a sole nitrogen source. Although glutamine served as a sole nitrogen source for the autotrophic methanococci and Methanococcus voltae, a heterotrophic methanococcus, growth was due to chemical deamination in the medium. M. voltae requires leucine and isoleucine for growth. However, these amino acids were not significant nitrogen sources, and alanine was not a sole nitrogen source for the growth of M. voltae. The branched-chain amino acids were not extensively metabolized by M. voltae. Pantoyl lactone and pantoic acid were readily incorporated by M. voltae. The intact vitamin pantothenate was neither stimulatory to growth nor incorporated. In conclusion, although amino acids and vitamins are nutritionally important to both autotrophic and heterotrophic methanococci, generally they are not subject to extensive catabolism.     

Growth and Plating Efficiency of Methanococci on Agar Media

Plating techniques for cultivation of methanogenic bacteria have been optimized for two members of the genus Methanococcus. Methanococcus maripaludis and Methanococcus voltae were cultivated on aerobically and anaerobically prepared agar media. Maintenance of O₂ levels below 5 μl/liter within an anaerobic glove box was necessary during plating and incubation for 90% recovery of plated cells. Under an atmosphere of H₂, CO₂, and H₂S (79:20:1), 2 to 3 days of incubation at 37°C were sufficient for the formation of visible colonies. The viability of plated cells was significantly affected by the growth phase of the culture, H₂S concentration, and the volume of medium per plate. In addition, colony size of methanococci was affected by agar type, as well as by the concentrations of agar, H₂S, and bicarbonate.     

Construction of an integration vector for use in the archaebacterium Methanococcus voltae and expression of a eubacterial resistance gene

Summary An integration vector for use in Methanococcus voltae was constructed, based on the Escherichia coli vector pUC18. It carries the structural gene for puromycin transacetylase from Streptomyces alboniger, which is flanked by expression signals of M. voltae structural genes and hisA gene sequences of this bacterium. Transformed M. voltae cells are puromycin resistant. Several types of integration of the vector into the chromosome were found. Only one case was due to nonhomologous recombination. The integrated sequences were stable under selective pressure but were slowly lost in some cases in the absence of the selective drug. The vector could be excised from M. voltae chromosomal DNA, recircularized and transformed back into E. coli.The order of the other authors is not indicative of the relative importance of their experimental contributions which are considered to be equivalentWe mourn the loss of our colleague and friend Lionel Sibold, who died while this work was still in progress     

Crystal structure of a trimeric archaeal adenylate kinase from the mesophile Methanococcus maripaludis with an unusually broad functional range and thermal stability

The structure of the trimeric adenylate kinase from the Archaebacteria Methanococcus mariplaludis (AK_MAR) has been solved to 2.5‐Å resolution and the temperature dependent stability and kinetics of the enzyme measured. The K_M and V_max of AK_MAR exhibit only modest temperature dependence from 30°–60°C. Although M. mariplaludis is a mesophile with a maximum growth temperature of 43°C, AK_MAR has a very broad functional range and stability (T_m = 74.0°C) that are more consistent with a thermophilic enzyme with high thermostability and exceptional activity over a wide range of temperatures, suggesting that this microbe may have only recently invaded a mesophilic niche and has yet to fully adapt. A comparison of the Local Structural Entropy (LSE) for AK_MAR to the related adenylate kinases from the mesophile Methanococcus voltae and thermophile Methanococcus thermolithotrophicus show that changes in LSE are able to fully account for the intermediate stability of AK_MAR and highlights a general mechanism for protein adaptation in this class of enzymes. Proteins 2010. © 2009 Wiley‐Liss, Inc.     

Ribose biosynthesis in methanogenic bacteria

NMR spectroscopy was used to determine the labeling patterns of the ribose moieties of ribonucleosides purified from Methanospirillum hungatei, Methanococcus voltae, Methanobrevibacter smithii, Methanosphaera stadtmanae, Methanosarcina barkeri and Methanobacterium bryantii labeled with ¹³C-precursors. In most methanogens tested ribose was labeled in a manner consistent with the operation of the oxidative branch of the pentose phosphate pathway. In contrast, transaldolase and transketolase reactions typical of a partial nonoxidative pentose phosphate pathway are hypothesized to explain the different labeling patterns and enrichments of carbon atoms observed in the ribose moiety of Methanococcus voltae. The source of erythrose 4-phosphate needed for the transaldolase reaction proposed in Methanococcus voltae, and for biosynthesis of aromatic amino acids in methanogenic bacteria in general, was assessed. Phenylalanine carbon atom C-7 was labeled by [1-¹³C]pyruvate in Methanospirillum hungatei, Methanococcus voltae, and Methanococcus jannaschii, the only methanogens which incorporated sufficient label from pyruvate for testing. Reductive carboxylation of a triose precursor (derived from pyruvate) to synthesize erythrose 4-phosphate is consistent with the labeling patterns observed in phenylalanine and ribose.Abbreviation TCA Tricarboxylic acid Issued as NRCC Publication No. 37382     

Quantitative proteomics of nutrient limitation in the hydrogenotrophic methanogen Methanococcus maripaludis

Background  

Methanogenic Archaea play key metabolic roles in anaerobic ecosystems, where they use H₂ and other substrates to produce methane. Methanococcus maripaludis is a model for studies of the global response to nutrient limitations.     

Effect of iron and other nutrient limitations on the pattern of outer membrane proteins in the cyanobacterium Synechococcus PCC7942

When cells of Synechococcus PCC7942 were subjected to either iron or magnesium limitation, there was an appearance of specific proteins in the outer membrane (isolated as the cell wall fraction). Under iron limitation outer membrane polypeptides of M _r 92000, 48000–50000 and 35000 appeared. Specific iron-limited outer membrane proteins (IRMPs) of M _r 52000 and 36000 were also induced in iron-limited cultures of Synechocystis PCC6308. Under magnesium limitation polypeptides of M _r 80000, 67000, 62000, 50000, 28000 and 25000 appeared in the outer membrane. phosphate limitation caused minor changes in the outer membrane protein pattern, with polypeptides of M _r 32000 and one of over 100000 being induced, whereas calcium limitation had no apparent affect.Abbreviations EDDA ethylenediaminedihydroxyphenyl acetic acid - IRMP iron-regulated outer membrane protein - HEPES N-2-hydroxyethyl-piperazine-N-2-ethane sulphonic acid - SDS-PAGE sodium dodecyl sulphate polyacrylamide gel electrophoresis - PMSF phenylmethylsulphonyl fluoride     

Defective formation and/or utilization of carbon monoxide in H2/CO2 fermenting methanogens dependent on acetate as carbon source

Autotrophic methanogens reduce CO₂ to CO and assimilate CO in a carbonylation reaction. Heterotrophic species were found not to form CO and/or to incorporate CO into cell matiral. The absence of CO formation correlated with the absence of carbon monoxide dehydrogenase activity. The heterotrophic Methanobrevibacter ruminantium, Methanobrevibacter smithii, Methanococcus voltae and Methanospirillum hungatei (strain GP 1) were investigated.     

Paucity of the Sau3AI recognition sequence (GATC) in the genome of Methanococcus voltae

Summary High molecular weight genomic DNA isolated from the archaebacterium Methanococcus voltae by alkaline-SDS lysis was not effectively digested with the restriction enzyme Sau3AI, which recognizes the base sequence GATC. Mc. voltae DNA was also resistant to digestion by MboI and BamHI which recognize sites containing the same GATC sequence. Examination of a Mc. voltae genomic library prepared in Escherichia coli JM83 with a pUC vector revealed that the 5–10 kb inserts were still resistant to Sau3AI digestion, indicating a likely lack of the GATC sequence in Mc. voltae DNA.     

A novel N-linked flagellar glycan from Methanococcus maripaludis

The archaea Methanococcus maripaludis strain Mm900 produces flagella that are glycosylated with an N-linked tetrasaccharide. Mass spectrometric analysis of flagellar tryptic peptides identified a number of tryptic glycopeptides carrying a glycan of mass 1036.4 Da, and fragmentation of the glycan oxonium ion indicated that the glycan was a tetrasaccharide. The glycan was purified, following extensive pronase digestion of flagellar filaments, by size-exclusion and anion-exchange chromatography. NMR spectroscopy revealed that the glycan had the following structure:Sug-4-β-ManNAc3NAmA6Thr-4-β-GlcNAc3NAcA-3-β-GalNAc-Asnwhere Sug is a novel monosaccharide unit, (5S)-2-acetamido-2,4-dideoxy-5-O-methyl-α-l-erythro-hexos-5-ulo-1,5-pyranose. This oligosaccharide has significant similarity to the oligosaccharide that was found previously in Methanococcus voltae.