| 1. |
Bezzate S,
Aymerich S,
Chambert R,
Czarnes S,
Berge O,
Heulin T,
( 2000 ) Disruption of the Paenibacillus polymyxa levansucrase gene impairs its ability to aggregate soil in the wheat rhizosphere. PMID : 11200435 : Abstract >>
Inoculation of wheat roots with Paenibacillus (formerly Bacillus) polymyxa CF43 increases the mass of root-adhering soil. We tested the role of levan, a fructosyl polymer produced by strain CF43, in the aggregation of soil adhering to wheat roots. The P. polymyxa gene homologous to the Bacillus subtilis sacB gene encoding levansucrase was cloned and sequenced. The corresponding gene product synthesises high molecular weight levan. A P. polymyxa mutant strain, SB03, whose sacB gene is disrupted, was constructed using heterogramic conjugation. Effects of wheat inoculation with the wild type and the mutant strain were compared using two different cultivated silt loam soils in four independent pot experiments. Roots of wheat plantlets inoculated with CF43 or SB03 were colonized after 7-14 days at the same level, and root and shoot masses were not significantly different from those of the non-inoculated control plants. The ratio of root-adhering soil dry mass to root tissue dry mass was significantly higher for plants inoculated with strain CF43 than for those inoculated with mutant strain SB03: +30% in Orgeval soil and +100% in Dieulouard soil. Thus the levan produced by P. polymyxa is implicated in the aggregation of root-adhering soil on wheat.
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2. |
Wiedmann M,
Arcuri EF,
( 2000 ) Phylogeny and functional conservation of sigma(E) in endospore-forming bacteria. PMID : 10878124 : DOI : 10.1099/00221287-146-7-1593 Abstract >>
Conservation of the sporulation processes between Bacillus spp. and Clostridium spp. was investigated through evolutionary and complementation analyses of sigma(E). Alignment of partial predicted sigma(E) amino acid sequences from three Bacillus spp., Paenibacillus polymyxa and five Clostridium spp. revealed that amino acid residues previously reported to be involved in promoter utilization (M124, E119 and N120) and strand opening (C117) are conserved among all these species. Phylogenetic analyses of various sigma factor sequences from endospore-forming bacteria revealed that homologues of sigma(E), sigma(K) and sigma(G) clustered together regardless of genus, suggesting a common origin of sporulation sigma factors. The functional equivalence between Clostridium acetobutylicum sigma(E) and Bacillus subtilis sigma(E) was investigated by complementing a non-polar B. subtilis sigma(E) null mutant with the spoIIG operon from either B. subtilis (spoIIG(Bs)) or C. acetobutylicum (spoIIG(Ca)). Single-copy integration of spoIIG(Bs) into the amyE locus of the sigma(E) null mutant completely restored the wild-type sporulation phenotype, while spoIIG(Ca) only partially restored sporulation. Maximal expression of spoIIG(Ca)-lacZ occurred approximately 12 h later than maximal expression of spoIIG(Bs)-lacZ. Differences in temporal expression patterns for spoIIG(Ca) and spoIIG(Bs) in the B. subtilis background may at least partially explain the observed sporulation complementation phenotypes. This study suggests a common phylogenetic ancestor for sigma(E) in Bacillus spp. and Clostridium spp., although regulation of sigma(E) expression may differ in these two genera.
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3. |
Kawahara S,
Ishikawa S,
( 1999 ) Cloning and expression of two autolysin genes, cwIU and cwIV, which are tandemly arranged on the chromosome of Bacillus polymyxa var. colistinus. PMID : 10628856 : DOI : 10.1007/s004380051136 Abstract >>
The cwlV gene, which encodes Bacillus polymyxa var. colistinus autolysin was cloned and sequenced. cwlV comprises a 1497-bp ORF and encodes a polypeptide of 499 amino acid (aa) residues (Mr of 53,707 Da). The N-terminal sequence of the mature 23-kDa CwlV protein is NSXGKKVVVIDAGXGAKD(X, undetermined aa); this processed form corresponds to the C-terminal portion (183 aa, Mr of 20,050 Da) of the cwlV ORF. Sequencing of the flanking region revealed that another putative autolysin gene, cwlU, is located upstream of cwlV. cwlU encodes a polypeptide of 524 aa and its deduced sequence is 34.9% identical to the full-length sequence of CwlV. Downstream of cwlV, the genes for a deduced lipoprotein (OrfW), an endonuclease III homolog (Nth), a non-homologous OrfX, a glutathione peroxidase homolog (Gpx), and the N-terminal region of OrfZ containing a ATP/GTP-binding site motif were found. Northern blotting and primer-extension analyses revealed that cwlU is transcribed as a single cistron, but cwlV is transcribed with orfW. The unprocessed forms of CwlV and CwlU (VdeltaS and UdeltaS, respectively) and their predicted mature forms (Vcat and Ucat, respectively) were expressed in, and purified from, Escherichia coli. Enzyme analysis indicated that VdeltaS and Vcat exhibit low and high cell wall hydrolase activities toward B. polymyxa cell wall, respectively, but UdeltaS and Ucat exhibit almost no and low cell wall hydrolase activities, respectively.
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4. |
Normand P,
( 1999 ) Comparative phylogeny of rrs and nifH genes in the Bacillaceae. PMID : 10425751 : DOI : 10.1099/00207713-49-3-961 Abstract >>
The rrs (16S rDNA) gene sequences of nitrogen-fixing endospore-forming bacilli isolated from the rhizosphere of wheat and maize were determined in order to infer their phylogenetic position in the Bacillaceae. These rhizosphere strains form a monophyletic cluster with Paenibacillus azotofixans, Paenibacillus polymyxa and Paenibacillus macerans. Two of them (RSA19 and TOD45) had previously been identified as Bacillus circulans (group 2) by phenotypic characterization (API 50CH). Evidence for nitrogen fixation by P. azotofixans, P. polymyxa, P. macerans and putative B. circulans strains RSA19 and TOD45 was provided by acetylene-reduction activity, and confirmed by amplifying and sequencing a nifH fragment (370 nt). The phylogenetic tree of nifH-derived amino acid sequences was compared to the phylogenetic tree of rrs sequences. All Paenibacillus nifH sequences formed a coherent cluster distinct from that of related nitrogen-fixing anaerobic clostridia and Gram-positive high-G+C-content frankiae. The nifH gene was neither detected in the B. circulans type strain (ATCC 4513T) nor in the type strains of Bacillus subtilis, Bacillus cereus, Bacillus alcalophilus, Bacillus simplex, Brevibacillus brevis and Paenibacillus validus. Accordingly, nitrogen fixation among aerobic endospore-forming Firmicutes seems to be restricted to a subset of species in the genus Paenibacillus.
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5. |
Li J,
Beatty PK,
Shah S,
Jensen SE,
( 2007 ) Use of PCR-targeted mutagenesis to disrupt production of fusaricidin-type antifungal antibiotics in Paenibacillus polymyxa. PMID : 17400768 : DOI : 10.1128/AEM.02662-06 PMC : PMC1932668 Abstract >>
Paenibacillus polymyxa (formerly Bacillus polymyxa) PKB1 has been identified as a potential agent for biocontrol of blackleg disease of canola, caused by the pathogenic fungus Leptosphaeria maculans. The factors presumed to contribute to disease suppression by strain PKB1 include the production of fusaricidin-type antifungal metabolites that appear around the onset of bacterial sporulation. The fusaricidins are a family of lipopeptide antibiotics consisting of a beta-hydroxy fatty acid linked to a cyclic hexapeptide. Using a reverse genetic approach based on conserved motifs of nonribosomal peptide synthetases, a DNA fragment that appears to encode the first two modules of the putative fusaricidin synthetase (fusA) was isolated from PKB1. To confirm the involvement of fusA in production of fusaricidins, a modified PCR targeting mutagenesis protocol was developed to create a fusA mutation in PKB1. A DNA fragment internal to fusA was replaced by a gene disruption cassette containing two antibiotic resistance genes for independent selection of apramycin resistance in Escherichia coli and chloramphenicol resistance in P. polymyxa. Inclusion of an oriT site in the disruption cassette allowed efficient transfer of the inactivated fusA allele to P. polymyxa by intergeneric conjugation. Targeted disruption of fusA led to the complete loss of antifungal activity against L. maculans, suggesting that fusA plays an essential role in the nonribosomal synthesis of fusaricidins.
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6. |
He Z,
Kisla D,
Zhang L,
Yuan C,
Green-Church KB,
Yousef AE,
( 2007 ) Isolation and identification of a Paenibacillus polymyxa strain that coproduces a novel lantibiotic and polymyxin. PMID : 17071789 : DOI : 10.1128/AEM.02023-06 PMC : PMC1797129 Abstract >>
A new bacterial strain, displaying potent antimicrobial properties against gram-negative and gram-positive pathogenic bacteria, was isolated from food. Based on its phenotypical and biochemical properties as well as its 16S rRNA gene sequence, the bacterium was identified as Paenibacillus polymyxa and it was designated as strain OSY-DF. The antimicrobials produced by this strain were isolated from the fermentation broth and subsequently analyzed by liquid chromatography-mass spectrometry. Two antimicrobials were found: a known antibiotic, polymyxin E1, which is active against gram-negative bacteria, and an unknown 2,983-Da compound showing activity against gram-positive bacteria. The latter was purified to homogeneity, and its antimicrobial potency and proteinaceous nature were confirmed. The antimicrobial peptide, designated paenibacillin, is active against a broad range of food-borne pathogenic and spoilage bacteria, including Bacillus spp., Clostridium sporogenes, Lactobacillus spp., Lactococcus lactis, Leuconostoc mesenteroides, Listeria spp., Pediococcus cerevisiae, Staphylococcus aureus, and Streptococcus agalactiae. Furthermore, it possesses the physico-chemical properties of an ideal antimicrobial agent in terms of water solubility, thermal resistance, and stability against acid/alkali (pH 2.0 to 9.0) treatment. Edman degradation, mass spectroscopy, and nuclear magnetic resonance were used to sequence native and chemically modified paenibacillin. While details of the tentative sequence need to be elucidated in future work, the peptide was unequivocally characterized as a novel lantibiotic, with a high degree of posttranslational modifications. The coproduction of polymyxin E1 and a lantibiotic is a finding that has not been reported earlier. The new strain and associated peptide are potentially useful in food and medical applications.
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7. |
Cho KM,
Hong SY,
Lee SM,
Kim YH,
Kahng GG,
Kim H,
Yun HD,
( 2006 ) A cel44C-man26A gene of endophytic Paenibacillus polymyxa GS01 has multi-glycosyl hydrolases in two catalytic domains. PMID : 16912849 : DOI : 10.1007/s00253-006-0523-2 Abstract >>
A bacterial strain Paenibacillus polymyxa GS01 was isolated from the interior of the roots of Korean cultivars of ginseng (Panax ginseng C. A. Meyer). The cel44C-man26A gene was cloned from this endophytic strain. This 4,056-bp gene encodes for a 1,352-aa protein which, based on BLAST search homologies, contains a glycosyl hydrolase family 44 (GH44) catalytic domain, a fibronectin domain type 3, a glycosyl hydrolase family 26 (GH26) catalytic domain, and a cellulose-binding module type 3. The multifunctional enzyme domain GH44 possesses cellulase, xylanase, and lichenase activities, while the enzyme domain GH26 possesses mannanase activity. The Cel44C enzyme expressed in and purified from Escherichia coli has an optimum pH of 7.0 for cellulase and lichenase activities, but is at an optimum pH of 5.0 for xylanase and mannanase activities. The optimum temperature for enzymatic activity was 50 degrees C for all substrates. No detectable enzymatic activity was detected for the Cel44C-Man26A mutants E91A and E222A. These results suggest that the amino acid residues Glu(91) and Glu(222) may play an important role in the glycosyl hydrolases activity of Cel44C-Man26A.
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8. |
Weickert MJ,
Adhya S,
( 1992 ) A family of bacterial regulators homologous to Gal and Lac repressors. PMID : 1639817 : Abstract >>
We describe a family of proteins which regulate transcription of inducible genes in bacteria (GalR-LacI family). An alignment of the proteins in the GalR-LacI family is presented in which these proteins show a very high degree of similarity (60%) throughout the entire sequences. The homology is greatest among the amino-terminal DNA binding domains. Since a portion of the operator sequences occupied by these proteins is also conserved, a similar DNA structure may be required for specific recognition of DNA by members of the GalR-LacI family. Highly conserved motifs involved in effector binding and oligomerization are also identified. This compilation suggests a widespread conservation of these regulators among bacteria, and have strong implications for further study of peptide motifs in domain function, as well as pathways of protein evolution.
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9. |
Ishii Y,
Ohshiro T,
Aoi Y,
Suzuki M,
Izumi Y,
( 2000 ) Identification of the gene encoding a NAD(P)H-flavin oxidoreductase coupling with dibenzothiophene (DBT)-desulfurizing enzymes from the DBT-nondesulfurizing bacterium Paenibacillus polymyxa A-1. PMID : 16232847 : Abstract >>
The gene encoding NAD(P)H-flavin oxidoreductase (flavin reductase), which couples efficiently with dibenzothiophene (DBT)-desulfurizing monooxygenases of Rhodococci, was cloned from a DBT-non-desulfurizing bacterium Paenibacillus polymyxa A-1 in Escherichia coli, and designated as flv. Cell-free extracts from the recombinant exhibited a flavin reductase activity about forty times higher than that of the E. coli carrying the vector DNA only. Nucleotide sequence analysis reveals that the gene product consists of 208 amino acids and showed about 27%, 32% and 21% identity in amino acid sequence with FRase I, the major flavin reductase of Vibrio fischeri, the NADH dehydrogenase of Thermus thermophilus and several members of the nitroreductase family, respectively. The coexpression of flv with two kinds of desulfurizing genes, dszABC and tdsABC, in E. coli enhanced the rate of DBT degradation by about 10 and 5 times as high as in the case without flv, respectively.
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10. |
Svetoch EA,
Stern NJ,
Eruslanov BV,
Kovalev YN,
Volodina LI,
Perelygin VV,
Mitsevich EV,
Mitsevich IP,
Pokhilenko VD,
Borzenkov VN,
Levchuk VP,
Svetoch OE,
Kudriavtseva TY,
( 2005 ) Isolation of Bacillus circulans and Paenibacillus polymyxa strains inhibitory to Campylobacter jejuni and characterization of associated bacteriocins. PMID : 15690798 : DOI : 10.4315/0362-028x-68.1.11 Abstract >>
We evaluated anti-Campylobacter activity among 365 Bacillus and Paenibacillus isolates from poultry production environments. One novel antagonistic Bacillus circulans and three Paenibacillus polymyxa strains were identified and further studied. Cell-free ammonium sulfate precipitate (crude antimicrobial preparation) was obtained from each candidate culture. Zones of Campylobacter growth inhibition surrounding 10 microl of this crude antimicrobial preparation were quantified using a spot test. Campylobacter growth resumed when the preparation was preincubated with selected protease enzymes, demonstrating peptide characteristics consistent with a bacteriocin. These peptides were further purified using combinations of molecular mass resolution and ion exchange chromatography. Molecular masses of the peptides were estimated at approximately 3,500 Da by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Isoelectric focusing was used to determine the pI values of the peptides. Amino acid sequences of the bacteriocins and more precise molecular masses were obtained by matrix-assisted laser desorption and ionization-time of flight (MALDI-TOF) analysis. The bacteriocin from P. polymyxa NRRL B-30507 had a pI of 4.8, that from P. polymyxa NRRL B-30509 had a pI of 7.2, that from P. polymyxa NRRL B-30508 had a pI of 4.8, and that from B. circulans NRRL B-30644 had a pI of 7.8. The amino acid sequences were consistent with those of class IIa bacteriocins. These antagonists and the corresponding bacteriocins may be useful in the control of Campylobacter infection in poultry.
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11. |
Yao WL,
Wang YS,
Han JG,
Li LB,
Song W,
( 2004 ) [Purification and cloning of an antifungal protein from the rice diseases controlling bacterial strain Paenibacillus polymyxa WY110]. PMID : 15493136 : Abstract >>
Paenibacillus polymyxa WY110, a plant growth-promoting bacteria strain isolated from rice rhizosphere could suppress the growth of various plant pathogens effectively. With (NH4)2SO4 fractional precipitation, DEAE-Sephadex A-50 chromatography and Sephacryl S-200 chromatography followed by tracks of fraction antagonistic assay and SDS-PAGE, an antifungal protein P2 with in vitro anti-Pyricularia oxyzae activity was isolated and purified. It was showed with antagonistic activity on PDA plates that the growth of Pyricularia oryzae was inhibited by 1.5 microg of P2 protein effectively. N-terminal amino acid residues analysis showed 24 amino acid sequence: H2N-Ala-Asn-Val-Phe-Trp-Glu-Pro-Leu-Ser-Tyr-Tyr-Asn-Pro-Ser-Thr-Trp-Gln-Lys-Ala-Asp-Gly-Tyr-Ser-Asn-. Using this amino acid sequence as a target, the similarity of P2 protein was searched with BlastP program on Internet. It was showed a high homology between the P2 protein and the precursors of beta-1, 3-1, 4-glucanases from Bacillus. The beta-1, 3-1, 4-glucanase activity of P2 protein was identified with the specific substrate lichenan. According to the N-terminal partial sequence of P2 protein and the C-terminal conserved sequence of beta-1, 3-1, 4-glucanase, the primers for both terminals were synthesized. Using the genomic DNA of WY110 as the template, the full-length sequence of the gene encoding P2 was amplified by high fidelity PCR, then cloned into pMD18-T vecter. Sequence analysis showed the 72 nucleotide sequence on 5'-end matched with the known 24 amino acid sequence on N-terminal of P2 protein. The sequence (GenBank Accession Number: AF284449) was 636 bp in length encoding 212 amino acids. Comparing with a beta-1, 3-1, 4-glucanase gene (gluB) from Paenibacillus polymyxa, the sequence homology for nucleotides and deduced amino acids were 84% and 88.7% respectively. The cloning of the gene encoding P2 protein would be a new potential objective gene for plant gene engineering.
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12. |
Jamal-Talabani S,
Boraston AB,
Turkenburg JP,
Tarbouriech N,
Ducros VM,
Davies GJ,
( 2004 ) Ab initio structure determination and functional characterization of CBM36; a new family of calcium-dependent carbohydrate binding modules. PMID : 15242594 : DOI : 10.1016/j.str.2004.04.022 Abstract >>
The enzymatic degradation of polysaccharides harnesses multimodular enzymes whose carbohydrate binding modules (CBM) target the catalytic domain onto the recalcitrant substrate. Here we report the ab initio structure determination and subsequent refinement, at 0.8 A resolution, of the CBM36 domain of the Paenibacillus polymyxa xylanase 43A. Affinity electrophoresis, isothermal titration calorimetry, and UV difference spectroscopy demonstrate that CBM36 is a novel Ca(2+)-dependent xylan binding domain. The 3D structure of CBM36 in complex with xylotriose and Ca(2+), at 1.5 A resolution, displays significant conformational changes compared to the native structure and reveals the molecular basis for its unique Ca(2+)-dependent binding of xylooligosaccharides through coordination of the O2 and O3 hydroxyls. CBM36 is one of an emerging spectrum of carbohydrate binding modules that increasingly find applications in industry and display great potential for mapping the "glyco-architecture" of plant cells.
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13. |
da Mota FF,
Gomes EA,
Paiva E,
Rosado AS,
Seldin L,
( 2004 ) Use of rpoB gene analysis for identification of nitrogen-fixing Paenibacillus species as an alternative to the 16S rRNA gene. PMID : 15189285 : DOI : 10.1111/j.1472-765X.2004.01536.x Abstract >>
To avoid the limitations of 16S rRNA-based phylogenetic analysis for Paenibacillus species, the usefulness of the RNA polymerase beta-subunit encoding gene (rpoB) was investigated as an alternative to the 16S rRNA gene for taxonomic studies. Partial rpoB sequences were generated for the type strains of eight nitrogen-fixing Paenibacillus species. The presence of only one copy of rpoB in the genome of P. graminis strain RSA19(T) was demonstrated by denaturing gradient gel electrophoresis and hybridization assays. A comparative analysis of the sequences of the 16S rRNA and rpoB genes was performed and the eight species showed between 91.6-99.1% (16S rRNA) and 77.9-97.3% (rpoB) similarity, allowing a more accurate discrimination between the different species using the rpoB gene. Finally, 24 isolates from the rhizosphere of different cultivars of maize previously identified as Paenibacillus spp. were assigned correctly to one of the nitrogen-fixing species. The data obtained in this study indicate that rpoB is a powerful identification tool, which can be used for the correct discrimination of the nitrogen-fixing species of agricultural and industrial importance within the genus Paenibacillus.
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14. |
Jung WS,
Lee J,
Kim MI,
Ma J,
Nagamatsu T,
Goo E,
Kim H,
Hwang I,
Han J,
Rhee S,
( 2011 ) Structural and functional analysis of phytotoxin toxoflavin-degrading enzyme. PMID : 21799856 : DOI : 10.1371/journal.pone.0022443 PMC : PMC3143149 Abstract >>
Pathogenic bacteria synthesize and secrete toxic low molecular weight compounds as virulence factors. These microbial toxins play essential roles in the pathogenicity of bacteria in various hosts, and are emerging as targets for antivirulence strategies. Toxoflavin, a phytotoxin produced by Burkholderia glumae BGR1, has been known to be the key factor in rice grain rot and wilt in many field crops. Recently, toxoflavin-degrading enzyme (TxDE) was identified from Paenibacillus polymyxa JH2, thereby providing a possible antivirulence strategy for toxoflavin-mediated plant diseases. Here, we report the crystal structure of TxDE in the substrate-free form and in complex with toxoflavin, along with the results of a functional analysis. The overall structure of TxDE is similar to those of the vicinal oxygen chelate superfamily of metalloenzymes, despite the lack of apparent sequence identity. The active site is located at the end of the hydrophobic channel, 9 ? in length, and contains a Mn(II) ion interacting with one histidine residue, two glutamate residues, and three water molecules in an octahedral coordination. In the complex, toxoflavin binds in the hydrophobic active site, specifically the Mn(II)-coordination shell by replacing a ligating water molecule. A functional analysis indicated that TxDE catalyzes the degradation of toxoflavin in a manner dependent on oxygen, Mn(II), and the reducing agent dithiothreitol. These results provide the structural features of TxDE and the early events in catalysis.
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15. |
Ariza A,
Eklöf JM,
Spadiut O,
Offen WA,
Roberts SM,
Besenmatter W,
Friis EP,
Skjøt M,
Wilson KS,
Brumer H,
Davies G,
( 2011 ) Structure and activity of Paenibacillus polymyxa xyloglucanase from glycoside hydrolase family 44. PMID : 21795708 : DOI : 10.1074/jbc.M111.262345 PMC : PMC3190823 Abstract >>
The enzymatic degradation of plant polysaccharides is emerging as one of the key environmental goals of the early 21st century, impacting on many processes in the textile and detergent industries as well as biomass conversion to biofuels. One of the well known problems with the use of nonstarch (nonfood)-based substrates such as the plant cell wall is that the cellulose fibers are embedded in a network of diverse polysaccharides, including xyloglucan, that renders access difficult. There is therefore increasing interest in the "accessory enzymes," including xyloglucanases, that may aid biomass degradation through removal of "hemicellulose" polysaccharides. Here, we report the biochemical characterization of the endo-�]-1,4-(xylo)glucan hydrolase from Paenibacillus polymyxa with polymeric, oligomeric, and defined chromogenic aryl-oligosaccharide substrates. The enzyme displays an unusual specificity on defined xyloglucan oligosaccharides, cleaving the XXXG-XXXG repeat into XXX and GXXXG. Kinetic analysis on defined oligosaccharides and on aryl-glycosides suggests that both the -4 and +1 subsites show discrimination against xylose-appended glucosides. The three-dimensional structures of PpXG44 have been solved both in apo-form and as a series of ligand complexes that map the -3 to -1 and +1 to +5 subsites of the extended ligand binding cleft. Complex structures are consistent with partial intolerance of xylosides in the -4' subsites. The atypical specificity of PpXG44 may thus find use in industrial processes involving xyloglucan degradation, such as biomass conversion, or in the emerging exciting applications of defined xyloglucans in food, pharmaceuticals, and cellulose fiber modification.
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16. |
González-Candelas L,
Ramón D,
Polaina J,
( 1990 ) Sequences and homology analysis of two genes encoding beta-glucosidases from Bacillus polymyxa. PMID : 2123813 : DOI : 10.1016/0378-1119(90)90410-s Abstract >>
The nucleotide sequences of the bglA and bglB genes encoding beta-glucosidases from Bacillus polymyxa have been determined. Both genes contain coding regions of 1344 bp, corresponding to polypeptides with Mrs of 51,643 and 51,547, respectively. Patterns of codon usage indicate that both genes are expressed at a low frequency. Previous data suggested that the proteins encoded by bglA and bglB were intra- and extracellular enzymes, respectively; however, neither of the two deduced amino acid sequences has N termini with the typical features of a leader peptide. The proteins encoded by bglA and bglB show remarkable homology to each other and to other beta-glucosidases (Bgl) and beta-galactosidases (beta Gal). On the basis of the observed homologies, we can define two groups of microbial Bgl: one of them, type I, including most bacterial Bgl, and type II, including enzymes from different yeast species and one from Clostridium thermocellum. Likewise, at least two groups of beta Gal can be distinguished: type I, including enzymes homologous to type-I Bgl, and type II, showing no homology to any of the previous groups.
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17. |
Fenwick MK,
Philmus B,
Begley TP,
Ealick SE,
( 2011 ) Toxoflavin lyase requires a novel 1-His-2-carboxylate facial triad. PMID : 21166463 : DOI : 10.1021/bi101741v PMC : PMC3035768 Abstract >>
High-resolution crystal structures are reported for apo, holo, and substrate-bound forms of a toxoflavin-degrading metalloenzyme (TflA). In addition, the degradation reaction is shown to be dependent on oxygen, Mn(II), and dithiothreitol in vitro. Despite its low sequence identity with proteins of known structure, TflA is structurally homologous to proteins of the vicinal oxygen chelate superfamily. Like other metalloenzymes in this superfamily, the TflA fold contains four modules that associate to form a metal binding site; however, the fold displays a rare rearrangement of the structural modules indicative of domain permutation. Moreover, unlike the 2-His-1-carboxylate facial triad commonly utilized by vicinal oxygen chelate dioxygenases and other dioxygen-activating non-heme Fe(II) enzymes, the metal center in TflA consists of a 1-His-2-carboxylate facial triad. The substrate-bound complex shows square-pyramidal geometry in which one position is occupied by O5 of toxoflavin. The open coordination site is predicted to be the dioxygen binding site. TflA appears to stabilize the reduced form of toxoflavin through second-sphere interactions. This anionic species is predicted to be the electron source responsible for reductive activation of oxygen to produce a peroxytoxoflavin intermediate.
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18. |
Yeasmin S,
Kim CH,
Park HJ,
Sheikh MI,
Lee JY,
Kim JW,
Back KK,
Kim SH,
( 2011 ) Cell surface display of cellulase activity-free xylanase enzyme on Saccharomyces Cerevisiae EBY100. PMID : 21161608 : DOI : 10.1007/s12010-010-9135-5 Abstract >>
Cellulase-free xylanase has potential for its application in the selective removal of hemicellulose from kraft pulp to give good strength to paper. In this study, a gene (xyn) encoding cellulase activity-free xylanase enzyme (Xyn) was isolated from Paenibacillus polymyxa PPL-3. The xyn gene encoded a protein of 221 amino acids, and the purified Xyn was about 22.5 kDa measured by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Moreover, the cellulase activity-free xylanase enzyme (Xyn) was displayed on the cell surface of Saccharomyces cerevisiae EBY100 using Aga2p as an anchor protein. Cell surface display of xylanase enzyme (Xyn) on S. cerevisiae EBY100 was confirmed by immunofluorescence microscopy. Optimum cell surface display of xylanase enzyme (Xyn) was observed at pH 7 and 40 �XC. Therefore, cell surface-displayed xylanase enzyme (Xyn) can be used in the paper industry.
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19. |
Koh S,
Kim H,
Kim J,
Goo E,
Kim YJ,
Choi O,
Jwa NS,
Ma J,
Nagamatsu T,
Moon JS,
Hwang I,
( 2011 ) A novel light-dependent selection marker system in plants. PMID : 20731786 : DOI : 10.1111/j.1467-7652.2010.00557.x Abstract >>
Photosensitizers are common in nature and play diverse roles as defense compounds and pathogenicity determinants and as important molecules in many biological processes. Toxoflavin, a photosensitizer produced by Burkholderia glumae, has been implicated as an essential virulence factor causing bacterial rice grain rot. Toxoflavin produces superoxide and H?O? during redox cycles under oxygen and light, and these reactive oxygen species cause phytotoxic effects. To utilize toxoflavin as a selection agent in plant transformation, we identified a gene, tflA, which encodes a toxoflavin-degrading enzyme in the Paenibacillus polymyxa JH2 strain. TflA was estimated as 24.56 kDa in size based on the amino acid sequence and is similar to a ring-cleavage extradiol dioxygenase in the Exiguobacterium sp. 255-15; however, unlike other extradiol dioxygenases, Mn(2+) and dithiothreitol were required for toxoflavin degradation by TflA. Here, our results suggested toxoflavin is a photosensitizer and its degradation by TflA serves as a light-dependent selection marker system in diverse plant species. We examined the efficiencies of two different plant selection systems, toxoflavin/tflA and hygromycin/hygromycin phosphotransferase (hpt) in both rice and Arabidopsis. The toxoflavin/tflA selection was more remarkable than hygromycin/hpt selection in the high-density screening of transgenic Arabidopsis seeds. Based on these results, we propose the toxoflavin/tflA selection system, which is based on the degradation of the photosensitizer, provides a new robust nonantibiotic selection marker system for diverse plants.
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20. |
Choi SK,
Park SY,
Kim R,
Kim SB,
Lee CH,
Kim JF,
Park SH,
( 2009 ) Identification of a polymyxin synthetase gene cluster of Paenibacillus polymyxa and heterologous expression of the gene in Bacillus subtilis. PMID : 19304848 : DOI : 10.1128/JB.01728-08 PMC : PMC2687177 Abstract >>
Polymyxin, a long-known peptide antibiotic, has recently been reintroduced in clinical practice because it is sometimes the only available antibiotic for the treatment of multidrug-resistant gram-negative pathogenic bacteria. Lack of information on the biosynthetic genes of polymyxin, however, has limited the study of structure-function relationships and the development of improved polymyxins. During whole genome sequencing of Paenibacillus polymyxa E681, a plant growth-promoting rhizobacterium, we identified a gene cluster encoding polymyxin synthetase. Here, we report the complete sequence of the gene cluster and its function in polymyxin biosynthesis. The gene cluster spanning the 40.6-kb region consists of five open reading frames, designated pmxA, pmxB, pmxC, pmxD, and pmxE. The pmxC and pmxD genes are similar to genes that encode transport proteins, while pmxA, pmxB, and pmxE encode polymyxin synthetases. The insertional disruption of pmxE led to a loss of the ability to produce polymyxin. Introduction of the pmx gene cluster into the amyE locus of the Bacillus subtilis chromosome resulted in the production of polymyxin in the presence of extracellularly added L-2,4-diaminobutyric acid. Taken together, our findings demonstrate that the pmx gene cluster is responsible for polymyxin biosynthesis.
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21. |
Hu XF,
Li SX,
Wu JG,
Wang JF,
Fang QL,
Chen JS,
( 2010 ) Transfer of Bacillus mucilaginosus and Bacillus edaphicus to the genus Paenibacillus as Paenibacillus mucilaginosus comb. nov. and Paenibacillus edaphicus comb. nov. PMID : 19643872 : DOI : 10.1099/ijs.0.008532-0 Abstract >>
Bacillus mucilaginosus and Bacillus edaphicus were reclassified based on their 16S rRNA and gyrB gene sequences, DNA-DNA hybridization, fatty acid methyl esters and other taxonomic characteristics. Phylogenetic analysis based on 16S rRNA and gyrB gene sequences indicated that strains of B. mucilaginosus and B. edaphicus were members of the genus Paenibacillus, with over 90.4 % and 70.3 % sequence similarity, respectively. Their DNA G+C contents were 54.5-56.8 mol%. The DNA-DNA relatedness values of B. edaphicus VKPM B-7517(T) with B. mucilaginosus KNP414 and B. mucilaginosus CGMCC 1.236 were 89.2 % and 88.7 %, respectively. The major isoprenoid quinone of B. mucilaginosus and B. edaphicus was MK-7 (94.1-95.7 %). The peptidoglycan type was A1gamma (meso-diaminopimelic acid) and the major polar lipids were phosphatidylglycerol and diphosphatidylglycerol. The major fatty acids were anteiso-C(15 : 0), C(16 : 1)omega11c and C(16 : 0). Phenotypic features and fatty acid profiles supported the similarity of B. mucilaginosus and B. edaphicus to Paenibacillus validus CCTCC 95016(T) and confirmed their relationship with members of the genus Paenibacillus. Therefore, it is proposed that Bacillus mucilaginosus and Bacillus edaphicus be transferred to the genus Paenibacillus as Paenibacillus mucilaginosus comb. nov. (type strain HSCC 1605(T)=VKPM B-7519(T)=VKM B-1480D(T)=CIP 105815(T)=KCTC 3870(T)) and Paenibacillus edaphicus comb. nov. (type strain VKPM B-7517(T)=DSM 12974(T)=CIP 105814(T)), respectively.
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22. |
He Z,
Yuan C,
Zhang L,
Yousef AE,
( 2008 ) N-terminal acetylation in paenibacillin, a novel lantibiotic. PMID : 18625234 : DOI : 10.1016/j.febslet.2008.07.008 Abstract >>
N-terminal acetylation was uncovered in paenibacillin, a novel lantibiotic recently reported as a product of Paenibacillus polymyxa OSY-DF. This N-terminal modification is unprecedented among bacteria-derived antimicrobial peptides and further illustrates the broad range of modifications that can occur in lantibiotics. Additionally, the primary structure of paenibacillin has been finally determined unequivocally by the extensive NMR analysis taken together with previous MS/MS results. These analyses revealed the structure of paenibacillin as one of the most post-translationally modified lantibiotics.
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23. |
Phi QT,
Park YM,
Ryu CM,
Park SH,
Ghim SY,
( 2008 ) Functional identification and expression of indole-3-pyruvate decarboxylase from Paenibacillus polymyxa E681. PMID : 18667851 : Abstract >>
Indole-3-acetic acid (IAA) is produced commonly by plants and many bacteria, however, little is known about the genetic basis involving the key enzymes of IAA biosynthetic pathways from Bacillus spp. IAA intermediates from the Gram-positive spore-forming bacterium Paenibacillus polymyxa E681 were investigated, which showed the existence of only an indole-3-pyruvic acid (IPA) pathway for IAA biosynthesis from the bacterium. Four open reading frames (ORFs) encoding indole-3-pyruvate decarboxylaselike proteins and putative indole-3-pyruvate decarboxylase (IPDC), a key enzyme in the IPA synthetic pathway, were found on the genome sequence database of P. polymyxa and cloned in Escherichia coli DH5alpha. One of the ORFs, PP2_01257, was assigned as probable indole-3-pyruvate decarboxylase. The ORF consisted of 1,743 nucleotides encoding 581 amino acids with a deduced molecular mass of 63,380 Da. Alignment studies of the deduced amino acid sequence of the ORF with known IPDC sequences revealed conservation of several amino acids in PP2_01257, essential for substrate and cofactor binding. Recombinant protein, gene product of the ORF PP2_01257 from P. polymyxa E681, was expressed in E. coli BL21 (DE3) as a glutathione S-transferase (GST)-fusion protein and purified to homogeneity using affinity chromatography. The molecular mass of the purified enzyme showed about 63 kDa, corresponding closely to the expected molecular mass of IPDC. The indole-3-pyruvate decarboxylase activity of the recombinant protein, detected by HPLC, using IPA substrate in the enzyme reaction confirmed the identity and functionality of the enzyme IPDC from the E681 strain.
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24. |
Da Mota FF,
Gomes EA,
Seldin L,
( 2008 ) Auxin production and detection of the gene coding for the Auxin Efflux Carrier (AEC) protein in Paenibacillus polymyxa. PMID : 18604494 : DOI : 10.1007/s12275-007-0245-x Abstract >>
Different species of Paenibacillus are considered to be plant growth-promoting rhizobacteria (PGPR) due to their ability to repress soil borne pathogens, fix atmospheric nitrogen, induce plant resistance to diseases and/or produce plant growth-regulating substances such as auxins. Although it is known that indole-3-acetic acid (IAA) is the primary naturally occurring auxin excreted by Paenibacillus species, its transport mechanisms (auxin efflux carriers) have not yet been characterized. In this study, the auxin production of P. polymyxa and P. graminis, which are prevalent in the rhizospheres of maize and sorghum sown in Brazil, was evaluated. In addition, the gene encoding the Auxin Efflux Carrier (AEC) protein from P. polymyxa DSM36(T) was sequenced and used to determine if various strains of P. polymyxa and P. graminis possessed this gene. Each of the 68 P. polymyxa strains evaluated in this study was able to produce IAA, which was produced at concentrations varying from 1 to 17 microg/ml. However, auxin production was not detected in any of the 13 P. graminis strains tested in this study. Different primers were designed for the PCR amplification of the gene coding for the AEC in P. polymyxa, and the predicted protein of 319 aa was homologous to AEC from Bacillus amyloliquefaciens, B. licheniformis, and B. subtilis. However, no product was observed when these primers were used to amplify the genomic DNA of seven strains of P. graminis, which suggests that this gene is not present in this species. Moreover, none of the P. graminis genomes tested were homologous to the gene coding for AEC, whereas all of the P. polymyxa genomes evaluated were. This is the first study to demonstrate that the AEC protein is present in P. polymyxa genome.
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25. |
Cho KM,
Hong SJ,
Math RK,
Islam SM,
Kim JO,
Lee YH,
Kim H,
Yun HD,
( 2008 ) Cloning of two cellulase genes from endophytic Paenibacillus polymyxa GS01 and comparison with cel 44C-man 26A. PMID : 18759236 : DOI : 10.1002/jobm.200700281 Abstract >>
Endophytic bacteria are acknowledged as a new source of genes, proteins and other biochemical compounds, which are often used in biochemical processes. In this study, Paenibacillus polymyxa GS01 was isolated from the interior of the roots of Korean cultivars of ginseng (Panax ginseng C. A. Meyer). Two cellulase genes, cel 5A and cel 5B, were cloned from GS01, and encode 334 aa and 573 aa proteins, respectively. Cel5A and Cel5B each contain a glycosyl hydrolase family 5 (GH5) catalytic domain. The molecular mass of Cel5A and Cel5B were estimated to be 33 kDa and 61 kDa, respectively, by CMC-SDS-PAGE. When purified from Escherichia coli Cel5A and Cel5B both displayed cellulase activity with pH optima of 7.0 and 6.0, respectively and shared a temperature optimum of 50 degrees C. Neither enzyme had detectable xylanase, lichenase, or mannase activity, in contrast to the multifunctional Cel44C-Man26A enzyme of P. polymyxa which displays cellulase, xylanase, lichenase and mannanase activities. However, Cel5A and Cel5B exhibited higher specific cellulase activity than Cel44C-Man26A (120% and 140%, respectively). Cel5A and Cel5B mutants with alanine substitutions at a conserved glutamic acid in the GH5 domain (Glu 179 of Cel5A and Glu184 of Cel5B) lacked cellulase activity, suggesting that this residue is important for GH5 domain function.
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26. |
Takekawa S,
Uozumi N,
Tsukagoshi N,
Udaka S,
( 1991 ) Proteases involved in generation of beta- and alpha-amylases from a large amylase precursor in Bacillus polymyxa. PMID : 1834632 : DOI : 10.1128/jb.173.21.6820-6825.1991 PMC : PMC209033 Abstract >>
The genes for extracellular neutral protease (Npr) and intracellular serine protease (Isp) were cloned from Bacillus polymyxa in order to elucidate the process involved in the generation of multiple beta-amylases and an alpha-amylase from a large amylase precursor. The npr gene was composed of 1,770 bp and 570 amino acids, while the isp gene was composed of 978 bp and 326 amino acids. Both proteases produced by E. coli cleaved the amylase precursor to generate beta- and alpha-amylases. Furthermore, several other proteases produced the same products from the precursor. A 130-kDa amylase precursor has two large domain structures responsible for the generation of beta- and alpha-amylases. The junction region of approximately 200 amino acids may be exposed on the surface of the molecule and susceptible to proteolytic enzymes, which results in the formation of multiple amylases.
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27. |
Uozumi N,
Matsuda T,
Tsukagoshi N,
Udaka S,
( 1991 ) Structural and functional roles of cysteine residues of Bacillus polymyxa beta-amylase. PMID : 1827035 : DOI : 10.1021/bi00232a033 Abstract >>
Bacillus polymyxa beta-amylase contains three cysteine residues at positions 83, 91, and 323, which can react with sulfhydryl reagents. To determine the role of cysteine residues in the catalytic reaction, cysteine residues were mutated to construct four mutant enzymes, C83S, C91V, C323S, and C-free. Wild-type and mutant forms of the enzyme were expressed in, and purified to homogeneity from, Bacillus subtilis. A disulfide bond between Cys83 and Cys91 was identified by isolation of tryptic peptides bearing a fluorescent label, IAEDANS, from wild-type and C91 V enzymes followed by amino acid sequencing. Therefore, only Cys323 contains a free SH group. Replacement of cysteine residues with serine or valine residues resulted in a significant decrease in the kcat/Km value of the enzyme. C323S, containing no free SH group, however, retained a high specific activity, approximately 20% of the wild-type enzyme. None of the cysteine residues participate directly in the catalytic reaction.
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28. |
Li J,
Jensen SE,
( 2008 ) Nonribosomal biosynthesis of fusaricidins by Paenibacillus polymyxa PKB1 involves direct activation of a D-amino acid. PMID : 18291316 : DOI : 10.1016/j.chembiol.2007.12.014 Abstract >>
Paenibacillus polymyxa PKB1 produces fusaricidins, a family of lipopeptide antibiotics that strongly inhibits the growth of many plant pathogenic fungi. The fusaricidin biosynthetic gene cluster was cloned and sequenced, and it spans 32.4 kb, including an open reading frame (fusA) encoding a six-module nonribosomal peptide synthetase. The second, fourth, and fifth modules of fusaricidin synthetase each contain an epimerization domain, consistent with the structure of fusaricidins. However, no epimerization domain is found in the sixth module, corresponding to D-Ala. This sixth adenylation domain was produced at a high level in Escherichia coli and is shown to activate D-Ala specifically, providing evidence for direct activation of a D-amino acid by a prokaryotic peptide synthetase. The fusaricidin gene cluster also includes genes involved in the biosynthesis of the lipid moiety, but no genes for resistance, regulation, or transport functions were encountered.
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29. |
Phi QT,
Oh SH,
Park YM,
Park SH,
Ryu CM,
Ghim SY,
( 2008 ) Isolation and characterization of transposon-insertional mutants from Paenibacillus polymyxa E681 altering the biosynthesis of indole-3-acetic acid. PMID : 18283514 : DOI : 10.1007/s00284-008-9118-8 Abstract >>
We screened a mini-Tn10 insertional mutant library of the spore-forming bacterium Paenibacillus polymyxa E681 with variable indole-3-acetic acid (IAA) productivity. Four mutants, of which two showed a decrease in IAA production and the other two showed an increase in IAA production, were finally selected. Further analyses demonstrated different levels of IAA intermediates from culture supernatant of wild-type strain and mutants. In addition, mutants showed different promotions on the early growth of 10-day-old maize in terms of the increase in shoot and root weights. DNA fragments flanking the transposon insertion in four mutants were cloned and sequenced. The target sites of insertion were gene gpr1, disrupted at two sites, 49 bp downstream of the spo0F gene, and relA/spoT homologue, which codes for GPR1/FUN34/YaaH family protein, stage 0 sporulation protein F, and RelA/SpoT domain protein, respectively. This evidence suggests that there may be a number of genes involved in the regulation of IAA biosynthesis of P. polymyxa.
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30. |
Choi SK,
Park SY,
Kim R,
Lee CH,
Kim JF,
Park SH,
( 2008 ) Identification and functional analysis of the fusaricidin biosynthetic gene of Paenibacillus polymyxa E681. PMID : 17980146 : DOI : 10.1016/j.bbrc.2007.10.147 Abstract >>
Fusaricidin, a peptide antibiotic consisting of six amino acids, has been identified as a potential antifungal agent from Paenibacillus polymyxa. Here, we report the complete sequence of the fusaricidin synthetase gene (fusA) identified from the genome sequence of a rhizobacterium, P. polymyxa E681. The gene encodes a polypeptide consisting of six modules in a single open-reading frame. Interestingly, module six of FusA does not contain an epimerization domain, which suggests that the sixth amino acids of the fusaricidin analogs produced by P. polymyxa E681 may exist as an l-form, although all reported fusaricidins contain d-form alanines in their sixth amino acid residues. Alternatively, the sixth adenylation domain of the FusA may directly recognize the d-form alanine. The inactivation of fusA led to the complete loss of antifungal activity against Fusarium oxysporum. LC/MS analysis confirmed the incapability of fusaricidin production in the fusA mutant strain, thus demonstrating that fusA is involved in fusaricidin biosynthesis. Our findings suggested that FusA can produce more than one kind of fusaricidin, as various forms of fusaricidins were identified from P. polymyxa E681.
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31. |
Zalila-Kolsi I,
Ben Mahmoud A,
Ali H,
Sellami S,
Nasfi Z,
Tounsi S,
Jamoussi K,
( 2016 ) Antagonist effects of Bacillus spp. strains against Fusarium graminearum for protection of durum wheat (Triticum turgidum L. subsp. durum). PMID : 27664733 : DOI : 10.1016/j.micres.2016.06.012 Abstract >>
Bacillus species are attractive due to their potential use in the biological control of fungal diseases. Bacillus amyloliquefaciens strain BLB369, Bacillus subtilis strain BLB277, and Paenibacillus polymyxa strain BLB267 were isolated and identified using biochemical and molecular (16S rDNA, gyrA, and rpoB) approaches. They could produce, respectively, (iturin and surfactin), (surfactin and fengycin), and (fusaricidin and polymyxin) exhibiting broad spectrum against several phytopathogenic fungi. In vivo examination of wheat seed germination, plant height, phenolic compounds, chlorophyll, and carotenoid contents proved the efficiency of the bacterial cells and the secreted antagonist activities to protect Tunisian durum wheat (Triticum turgidum L. subsp. durum) cultivar Om Rabiia against F. graminearum fungus. Application of single bacterial culture medium, particularly that of B. amyloliquefaciens, showed better protection than combinations of various culture media. The tertiary combination of B. amyloliquefaciens, B. subtilis, and P. polymyxa bacterial cells led to the highest protection rate which could be due to strains synergistic or complementary effects. Hence, combination of compatible biocontrol agents could be a strategic approach to control plant diseases.
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32. |
Wei W,
Ma J,
Chen SQ,
Cai XH,
Wei DZ,
( 2015 ) A novel cold-adapted type I pullulanase of Paenibacillus polymyxa Nws-pp2: in vivo functional expression and biochemical characterization of glucans hydrolyzates analysis. PMID : 26481143 : DOI : 10.1186/s12896-015-0215-z PMC : PMC4615870 Abstract >>
Pullulanase is an important debranching enzyme and has been widely utilized to hydrolyse the �\-1,6 glucosidic linkages in starch/sugar industry. Selecting new bacterial strains or improving bacterial strains is a prerequisite and effective solution in industrial applications. Although many pullulanase genes have been cloned and sequenced, there is no report of P. polymyxa type I pullulanase gene or the recombinant strain. Meanwhile most of the type I pullulanase investigated exhibit thermophilic or mesophilic properties. There are just few reports of cold-adapted pullulanases, which have optimum activity at moderate temperature and exhibit rather high catalytic activity at cold. Previously, six strains showing distinct pullulan degradation ability were isolated using enrichment procedures. As containing novel bacterium resource and significant pullulanase activity, strain Nws-pp2 was selected for in-depth study. In this study, a type I pullulanase gene (pulN) was obtained from the strain P. polymyxa Nws-pp2 by degenerate primers. Through optimization of induced conditions, the recombinant PulN achieved functional soluble expression by low temperature induction. The enzyme characterizations including the enzyme activity/stability, optimum temperature, optimum pH and substrate specificity were also described through protein purification. The pullulanase gene (named pulN), encoding a novel cold-adapted type I pullulanase (named PulN), was obtained from isolated strain Paenibacillus polymyxa Nws-pp2. The gene had an open reading frame of 2532-bp and was functionally expressed in Escherichia coli through optimization of induced conditions. The level of functional PulN-like protein reached the maximum after induction for 16 h at 20 �XC and reached about 0.34 mg/ml (about 20 % of total protein) with an activity of 6.49 U/ml. The purified recombinant enzyme with an apparent molecular mass of about 96 kDa was able to attack specifically the �\-1,6 linkages in pullulan to generate maltotriose as the major product. The purified PulN showed optimal activity at pH 6.0 and 35 �XC, and retained more than 40 % of the maximum activity at 10 �XC (showing cold-adapted). The pullulanase activity was significantly enhanced by Co(2+) and Mn(2+), meanwhile Cu(2+) and SDS inhibited pullulanase activity completely. The Km and Vmax values of purified PulN were 15.25 mg/ml and 20.1 U/mg, respectively. The PulN hydrolyzed pullulan, amylopectin, starch, and glycogen, but not amylose. Substrate specificity and products analysis proved that the purified pullulanase from Paenibacillus polymyxa Nws-pp2 belong to a type I pullulanase. This report of the novel type I pullulanase in Paenibacillus polymyxa would contribute to pullulanase research from Paenibacillus spp. significantly. Also, the cold-adapted pullulanase produced in recombinant strain shows the potential application.
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33. |
Cochrane SA,
Lohans CT,
van Belkum MJ,
Bels MA,
Vederas JC,
( 2015 ) Studies on tridecaptin B(1), a lipopeptide with activity against multidrug resistant Gram-negative bacteria. PMID : 25959079 : DOI : 10.1039/c5ob00780a Abstract >>
Previously other groups had reported that Paenibacillus polymyxa NRRL B-30507 produces SRCAM 37, a type IIA bacteriocin with antimicrobial activity against Campylobacter jejuni. Genome sequencing and isolation of antimicrobial compounds from this P. polymyxa strain show that the antimicrobial activity is due to polymyxins and tridecaptin B1. The complete structural assignment, synthesis, and antimicrobial profile of tridecaptin B1 is reported, as well as the putative gene cluster responsible for its biosynthesis. This peptide displays strong activity against multidrug resistant Gram-negative bacteria, a finding that is timely to the current problem of antibiotic resistance.
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34. |
Kpikpi EN,
Thorsen L,
Glover R,
Dzogbefia VP,
Jespersen L,
( 2014 ) Identification of Bacillus species occurring in Kantong, an acid fermented seed condiment produced in Ghana. PMID : 24747716 : DOI : 10.1016/j.ijfoodmicro.2014.03.028 Abstract >>
Kantong is a condiment produced in Ghana by the spontaneous fermentation of kapok tree (Ceiba pentandra) seeds with cassava flour as an additive. Fermentation is over a 48h period followed by a drying and a kneading process. Although lactic acid bacteria (LAB) have previously been identified other micro-organisms may also be involved in the fermentation process. In this study we examined the occurrence of aerobic endospore-forming bacteria (AEB) in raw materials, during fermentation and in the final product at 2 production sites in Northern Ghana. Total aerobic mesophilic bacterial counts increased from 5.4��0.1log10CFU/g in the raw materials to 8.9��0.1log10CFU/g in the final products, with the AEB accounting for between 23% and 80% of the total aerobic mesophilic (TAM) counts. A total of 196 AEB were identified at a species/subspecies level by the use of phenotypic tests and genotypic methods including M13-PCR typing, 16S rRNA and gyrA gene sequencing. Bacillus subtilis subsp. subtilis (63% of the AEB), Bacillus safensis (26% of the AEB) and Bacillus amyloliquefaciens subsp. plantarum/Bacillus methylotrophicus (9% of the AEB) were the predominant Bacillus species during fermentation and in the final products. B. amyloliquefaciens/B. methylotrophicus originated from cassava flour, B. safensis from seeds and cassava flour, while the origin of B. subtilis was less clear. Brevibacillus agri and Peanibacillus spp. occurred sporadically. Further investigations are required to elucidate the role of AEB occurring in high numbers, in the fermentation of Kantong.
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35. |
Uozumi N,
Sakurai K,
Sasaki T,
Takekawa S,
Yamagata H,
Tsukagoshi N,
Udaka S,
( 1989 ) A single gene directs synthesis of a precursor protein with beta- and alpha-amylase activities in Bacillus polymyxa. PMID : 2464578 : DOI : 10.1128/jb.171.1.375-382.1989 PMC : PMC209599 Abstract >>
The Bacillus polymyxa amylase gene comprises 3,588 nucleotides. The mature amylase comprises 1,161 amino acids with a molecular weight of 127,314. The gene appeared to be divided into two portions by the direct-repeat sequence located at almost the middle of the gene. The 5' region upstream of the direct-repeat sequence was shown to be responsible for the synthesis of beta-amylase. The 3' region downstream of the direct-repeat sequence contained four sequences homologous with those in other alpha-amylases, such as Taka-amylase A. The 48-kilodalton (kDa) amylase isolated from B. polymyxa was proven to have alpha-amylase activity. The amino acid sequences of the peptides generated from the 48-kDa amylase showed complete agreement with the predicted amino acid sequence of the C-terminal portion. The B. polymyxa amylase gene was therefore concluded to contain in-phase beta- and alpha-amylase-coding sequences in the 5' and 3' regions, respectively. A precursor protein, a 130-kDa amylase, directed by a plasmid, pYN520, carrying the entire amylase gene, had both beta- and alpha-amylase activities. This represents the first report of a single protein precursor in procaryotes that gives rise to two enzymes.
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36. |
Rhodes C,
Strasser J,
Friedberg F,
( 1987 ) Sequence of an active fragment of B. polymyxa beta amylase. PMID : 2438660 : DOI : 10.1093/nar/15.9.3934 PMC : PMC340808 Abstract >>
N/A
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37. |
Kawazu T,
Nakanishi Y,
Uozumi N,
Sasaki T,
Yamagata H,
Tsukagoshi N,
Udaka S,
( 1987 ) Cloning and nucleotide sequence of the gene coding for enzymatically active fragments of the Bacillus polymyxa beta-amylase. PMID : 2435707 : DOI : 10.1128/jb.169.4.1564-1570.1987 PMC : PMC211983 Abstract >>
The gene encoding beta-amylase was cloned from Bacillus polymyxa 72 into Escherichia coli HB101 by inserting HindIII-generated DNA fragments into the HindIII site of pBR322. The 4.8-kilobase insert was shown to direct the synthesis of beta-amylase. A 1.8-kilobase AccI-AccI fragment of the donor strain DNA was sufficient for the beta-amylase synthesis. Homologous DNA was found by Southern blot analysis to be present only in B. polymyxa 72 and not in other bacteria such as E. coli or B. subtilis. B. polymyxa, as well as E. coli harboring the cloned DNA, was found to produce enzymatically active fragments of beta-amylases (70,000, 56,000, or 58,000, and 42,000 daltons), which were detected in situ by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Nucleotide sequence analysis of the cloned 3.1-kilobase DNA revealed that it contains one open reading frame of 2,808 nucleotides without a translational stop codon. The deduced amino acid sequence for these 2,808 nucleotides encoding a secretory precursor of the beta-amylase protein is 936 amino acids including a signal peptide of 33 or 35 residues at its amino-terminal end. The existence of a beta-amylase of larger than 100,000 daltons, which was predicted on the basis of the results of nucleotide sequence analysis of the gene, was confirmed by examining culture supernatants after various cultivation periods. It existed only transiently during cultivation, but the multiform beta-amylases described above existed for a long time. The large beta-amylase (approximately 160,000 daltons) existed for longer in the presence of a protease inhibitor such as chymostatin, suggesting that proteolytic cleavage is the cause of the formation of multiform beta-amylases.
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38. |
Gao J,
Xu YY,
Yang HM,
Xu H,
Xue F,
Li S,
Feng XH,
( 2014 ) Gene cloning, expression, and characterization of an exo-inulinase from Paenibacillus polymyxa ZJ-9. PMID : 24807534 : DOI : 10.1007/s12010-014-0950-y Abstract >>
An inulinase-producing strain, Paenibacillus polymyxa ZJ-9, was isolated from natural sources to produce R,R-2,3-butanediol via one-step fermentation of raw inulin extracted from Jerusalem artichoke tubers. The inulinase gene from P. polymyxa ZJ-9 was cloned and overexpressed in Escherichia coli BL21 (DE3), and the purified recombinant inulinase was estimated to be approximately 56 kDa by both sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) and gel filtration chromatography. This result suggests that the active form of the inulinase is probably a monomer. Terminal hydrolysis fructose units from the inulin indicate that enzymes are exo-inulinase. The purified recombinant enzyme showed maximum activity at 25 �XC and pH 6.0, which indicate its extreme suitability for industrial applications. Zn(2+), Fe(2+), and Mg(2+) stimulated the activity of the purified enzyme, whereas Co(2+), Cu(2+), and Ni(2+) inhibited enzyme activity. The K m and V max values for inulin hydrolysis were 1.72 mM and 21.69 �gmol min(-1) mg(-1) protein, respectively. The same parameters toward sucrose were 41.09 mM and 78.7 �gmol min(-1) mg(-1) protein, respectively. Considering its substrate specificity and other enzymatic characteristics, we believe that this inulinase gene from P. polymyxa ZJ-9 could be transformed into other special bacterial strains to allow inulin conversion to other biochemicals and bioenergy through one-step fermentation.
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39. |
Wang S,
Yang Y,
Yang R,
Zhang J,
Chen M,
Matsukawa S,
Xie J,
Wei D,
( 2014 ) Cloning and characterization of a cold-adapted endo-1,5-�\-L-arabinanase from Paenibacillus polymyxa and rational design for acidic applicability. PMID : 25077565 : DOI : 10.1021/jf501328n Abstract >>
AbnZ1, with optimal pH of 6.0 and optimal temperature of 40 �XC, is a cold-adapted endo-1,5-�\-L-arabinanase encoded by the gene abnZ1 from Paenibacillus polymyxa Z6. The specific activity of AbnZ1 remained 54.1% of maximum at 5 �XC. To apply AbnZ1 in acidic conditions, three basic hsitidine (His) residues, His(48), His(218), and His(297), around the catalytic domain were selected as mutation sites, which were replaced with Asp, Glu, Arg, and Lys, respectively, to yield 12 mutants, H48D/E/R/K, H218D/E/R/K, and H297D/E/R/K. The optimum pH of mutant H218D shifted toward the acidic direction by 0.5 unit, and the relative activity was enhanced from 20.4 to 55.7% at pH 5.0. Furthermore, the specific activity of H218D in optimal conditions was 82.6 U/mg versus that of wild type, 73.4 U/mg, and the K(m) decreased from 11.9 to 7.1 mg/mL. This work provided an arabinanase candidate for juice clarification and pectin extraction.
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40. |
Gao J,
Xu YY,
Li FW,
Ding G,
( 2013 ) Production of S-acetoin from diacetyl by Escherichia coli transformant cells that express the diacetyl reductase gene of Paenibacillus polymyxa ZJ-9. PMID : 23701367 : DOI : 10.1111/lam.12107 Abstract >>
S-acetoin (S-AC) is an important four-carbon chiral compound that has unique industrial applications in the asymmetric synthesis of valuable chiral specialty chemicals. However, previous studies showed that the usually low yield and optical purity of S-AC as well as the very high substrate cost have hindered the application of this compound. In the current work, a gene encoding diacetyl reductase (DAR) from a Paenibacillus polymyxa strain ZJ-9 was cloned and expressed in Escherichia coli. Whole cells of the recombinant E. coli were used to produce S-AC from diacetyl (DA). Under optimal conditions, S-AC with high optical purity (purity >99�P9%) was obtained with a yield of 13�P5 �� 0�P24 and 39�P4 �� 0�P38 g l(-1) under batch and fed-batch culture conditions, respectively. This process featured the biotransformation of DA into S-AC using whole cells of engineered E. coli. The result is a considerable increase in the yield and optical purity of S-AC, which in turn facilitated the practical application of the compound. This study demonstrated a highly efficient new method to produce S-acetoin with higher than 99�P9% optical purity from diacetyl using whole cells of engineered Escherichia coli. It will therefore decrease the production cost of S-acetoin and highlight its application in asymmetric synthesis of highly valuable chiral compounds.
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41. |
Park SY,
Park SH,
Choi SK,
( 2012 ) Characterization of sporulation histidine kinases of Paenibacillus polymyxa. PMID : 22391390 : DOI : 10.1016/j.resmic.2012.02.003 Abstract >>
Sporulation histidine kinases, which sense sporulation-specific signals and initiate phosphorelay reactions, are poorly conserved among Bacillus species. We found several putative genes for sporulation histidine kinases in the genome sequence of Paenibacillus polymyxa E681 and assayed the genes for complementation of sporulation mutants of Bacillus subtilis. One of these genes, Kin1377, significantly restored the sporulation deficiency of kinA kinB double mutant of B. subtilis, but not of B. subtilis spo0B mutant. These results indicated that Kin1377 requires B. subtilis Spo0B and possibly Spo0F to transfer phosphate to B. subtilis Spo0A. Another putative kinase, Kin1038, slightly restored the sporulation deficiencies of both kinA kinB double mutant and spo0B mutant of B. subtilis. However the sporulation deficiency of the B. subtilis spo0B mutant was significantly restored in the presence of both Kin1038 and P. polymyxa Spo0A. These results indicate that the overexpressed Kin1038 is able to interact directly with and activate P. polymyxa Spo0A, and that Spo0A can support spore formation in B. subtilis.
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( 1997 ) Sequencing and phylogenetic analysis of the spoIIA operon from diverse Bacillus and Paenibacillus species. PMID : 9266669 : DOI : 10.1016/s0378-1119(97)00096-6 Abstract >>
In order to clone the spoIIA operon from three different Bacillus and Paenibacillus species, we designed two sets of PCR primers based on three previously published Bacillus spoIIA sequences. One set of primers corresponded to the C-terminal region of SpoIIAB and a region near the middle of SpoIIAC. These primers were used to amplify the corresponding region of spoIIA from Bacillus stearothermophilus and Paenibacillus polymyxa (previously called Bacillus polymyxa [see Ash, C., Priest, F.G., Collins, M.D., 1993. Molecular identification of ribosomal-RNA group 3 bacilli using a PCR probe test - proposal for the creation of a new genus Paenibacillus. Antonie van Leeuwenhoek Int. J. Gen. Mol. Microbiol. 64, 253-260]. The other set of primers, corresponding to an N-terminal and a C-terminal region of SpoIIAC, was used for B. sphaericus. The PCR products were used as probes for Southern blotting of homologous chromosomal DNA. DNA corresponding to spoIIA from the three organisms was identified by screening chromosomal DNA libraries, and cloned. Sequence analysis showed that all spoIIA sequences were conserved, but conservation was strongest in SpoIIAC and least strong in SpoIIAA. In the promoter the -35 region was conserved well but the -10 region rather poorly. Within the proteins, certain regions were particularly strongly conserved, suggesting that they are essential to the function of the protein. Phylogenetic analysis of spoIIA suggested that B. stearothermophilus is close to B. subtilis and B. licheniformis, but that P. polymyxa and B. sphaericus are remote from B. subtilis.
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( 1996 ) Structural characterization of extracellular ribonuclease of Bacillus polymyxa: amino acid sequence determination and spatial structure prediction. PMID : 8772184 : DOI : 10.1016/0014-5793(96)00793-4 Abstract >>
The primary structure of extracellular Bacillus polymyxa ribonuclease (RNase Bpo) was established by mass spectroscopy analysis and automatic Edman degradation of the individual peptides obtained from protein digestion with Glu-specific protease V8. RNase Bpo consists of 111 amino acid residues, with a relative molecular weight of 12 607. RNase Bpo is a close structural homolog of RNases of B. amyloliquefaciens (RNase Ba) and B. intermedius (RNase Bi), the similarity of their primary structures being 68%. Molecular modelling of the structure of the complex of RNase Bpo with substrate analog d(CGAC) was performed and a spatial model based on the known crystal structure of RNase Ba complex with the corresponding nucleotide was constructed using the methods of interactive computer graphics and energy minimization. The differences in the primary and tertiary structures of the enzymes were analyzed in order to understand the substrate specificity of Bacillus RNases.
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( 1995 ) Purification and characterization of an arabinofuranosidase from Bacillus polymyxa expressed in Bacillus subtilis. PMID : 8579824 : Abstract >>
Two polypeptides showing alpha-L-arabinofuranosidase activity have been purified to homogeneity from culture supernatants of a Bacillus subtilis clone harbouring the xynD gene [Gosalbes et al. (1991) J Bacteriol 173: 7705-7710] from Bacillus polymyxa. Both polypeptides, with determined molecular masses of 64 kDa and 53 kDa, share the same sequence at their N termini, which also coincides with the sequence deduced for the mature protein from the previously determined sequence of nucleotides (Gosalbes et al. 1991). The two polypeptides have been biochemically characterized. Arabinose is the unique product released from arabinose-containing xylans which are substrates for both enzyme forms. Other natural arabinose-containing polysaccharides, such as arabinogalactans, are not attacked by them but some artificial arabinose derivatives are good substrates for both polypeptides. Their arabinose-releasing activity on arabinoxylans facilitates the hydrolysis of the xylan backbone by some endoxylanases from Bacillus polymyxa.
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( 1994 ) Cloning, sequencing, and disruption of a levanase gene of Bacillus polymyxa CF43. PMID : 8157587 : DOI : 10.1128/jb.176.8.2177-2183.1994 PMC : PMC205337 Abstract >>
The Bacillus polymyxa CF43 lelA gene, expressing both sucrose and fructan hydrolase activities, was isolated from a genomic library of B. polymyxa screened in Bacillus subtilis. The gene was detected as expressing sucrose hydrolase activity; B. subtilis transformants did not secrete the lelA gene product (LelA) into the extracellular medium. A 1.7-kb DNA fragment sufficient for lelA expression in Escherichia coli was sequenced. It contains a 548-codon open reading frame. The deduced amino acid sequence shows 54% identity with mature B. subtilis levanase and is similar to other fructanases and sucrases (beta-D-fructosyltransferases). Multiple-sequence alignment of 14 of these proteins revealed several previously unreported features. LelA appears to be a 512-amino-acid polypeptide containing no canonical signal peptide. The hydrolytic activities of LelA on sucrose, levan, and inulin were compared with those of B. subtilis levanase and sucrase, confirming that LelA is indeed a fructanase. The lelA gene in the chromosome of B. polymyxa was disrupted with a chloramphenicol resistance gene (cat) by "inter-gramic" conjugation: the lelA::cat insertion on a mobilizable plasmid was transferred from an E. coli transformant to B. polymyxa CF43, and B. polymyxa transconjugants containing the lelA::cat construct replacing the wild-type lelA gene in their chromosomes were selected directly. The growth of the mutant strain on levan, inulin, and sucrose was not affected.
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( 2013 ) A 2,3-butanediol dehydrogenase from Paenibacillus polymyxa ZJ-9 for mainly producing R,R-2,3-butanediol: purification, characterization and cloning. PMID : 22961752 : DOI : 10.1002/jobm.201200152 Abstract >>
A 2,3-butanediol dehydrogenase (BDH) from Paenibacillus polymyxa ZJ-9 was purified to homogeneity via fractional ammonium sulfate precipitation, followed by two steps of anion-exchange chromatography using DEAE-Sepharose and Source 15Q, obtaining a 35-fold increase in specific activity and 34.9% yield. The molecular weights of the purified BDH subunit and holoenzyme were 44.5 and 90.0 kDa, respectively, as detected via SDS-PAGE and gel filtration chromatography. These results were significantly different from those of other reported BDHs. Substrate specificity experiments showed that the enzyme could function preferentially as a reductase rather than as a dehydrogenase, and was mainly responsible for the reduction of R-acetoin to R,R-2,3-butanediol. Gene cloning, sequencing, and expression experiments further demonstrate that this enzyme was a new type of BDH.
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47. |
( 2012 ) Structural characterization of the highly cyclized lantibiotic paenicidin A via a partial desulfurization/reduction strategy. PMID : 23167271 : DOI : 10.1021/ja3089229 Abstract >>
Lantibiotics are ribosomally synthesized antimicrobial peptides produced by bacteria that are increasingly of interest for food preservation and possible therapeutic uses. These peptides are extensively post-translationally modified, and are characterized by lanthionine and methyllanthionine thioether cross-links. Paenibacillus polymyxa NRRL B-30509 was found to produce polymyxins and tridecaptins, in addition to a novel lantibiotic termed paenicidin A. A bacteriocin termed SRCAM 602 previously reported to be produced by this organism and claimed to be responsible for inhibition of Campylobacter jejuni could not be detected either directly or by genomic analysis. The connectivities of the thioether cross-links of paenicidin A were solved using a novel partial desulfurization/reduction strategy in combination with tandem mass spectrometry. This approach overcame the limitations of NMR-based structural characterization that proved mostly unsuccessful for this peptide. Paenicidin A is a highly cyclized lantibiotic, containing six lanthionine and methyllanthionine rings, three of which are interlocking.
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( 1990 ) Molecular cloning, expression, and characterization of endo-beta-1,4-glucanase genes from Bacillus polymyxa and Bacillus circulans. PMID : 2307659 : DOI : 10.1128/jb.172.3.1576-1586.1990 PMC : PMC208635 Abstract >>
Endo-beta-1,4-glucanase genes from Bacillus circulans and from B. polymyxa were cloned by direct expression by using bacteriophage M13mp9 as the vector. The enzymatic activity of the gene products was detected by using either the Congo red assay or hydroxyethyl cellulose dyed with Ostazin Brilliant Red H-3B. The B. circulans and B. subtilis PAP115 endo-beta-1,4-glucanase genes were shown to be homologous by the use of restriction endonuclease site mapping, DNA-DNA hybridization, S1 nuclease digestion after heteroduplex formation, and sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the protein products. Analysis of the nucleotide sequence of 3.1 kilobase pairs of cloned B. polymyxa DNA revealed two convergently transcribed open reading frames (ORFs) consisting of 398 codons (endoglucanase) and 187 codons (ORF2) and separated by 374 nucleotides. The coding region of the B. polymyxa endoglucanase gene would theoretically produce a 44-kilodalton preprotein. Expression of the B. polymyxa endoglucanase in Escherichia coli was due to a fusion of the endoglucanase gene at codon 30 with codon 9 of the lacZ alpha-peptide gene. The B. polymyxa endoglucanase has 34% amino acid similarity to the Clostridium thermocellum celB endoglucanase sequence but very little similarity to endoglucanases from other Bacillus species. ORF2 has 28% amino acid similarity to the NH2-terminal half of the E. coli lac repressor protein, which is responsible for DNA binding.
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( 1998 ) Genetic diversity of nifH gene sequences in paenibacillus azotofixans strains and soil samples analyzed by denaturing gradient gel electrophoresis of PCR-amplified gene fragments. PMID : 9687429 : PMC : PMC106771 Abstract >>
The diversity of dinitrogenase reductase gene (nifH) fragments in Paenibacillus azotofixans strains was investigated by using molecular methods. The partial nifH gene sequences of eight P. azotofixans strains, as well as one strain each of the close relatives Paenibacillus durum, Paenibacillus polymyxa, and Paenibacillus macerans, were amplified by PCR by using degenerate primers and were characterized by DNA sequencing. We found that there are two nifH sequence clusters, designated clusters I and II, in P. azotofixans. The data further indicated that there was sequence divergence among the nifH genes of P. azotofixans strains at the DNA level. However, the gene products were more conserved at the protein level. Phylogenetic analysis showed that all nifH cluster II sequences were similar to the alternative (anf) nitrogenase sequence. A nested PCR assay for the detection of nifH (cluster I) of P. azotofixans was developed by using the degenerate primers as outer primers and two specific primers, designed on the basis of the sequence information obtained, as inner primers. The specificity of the inner primers was tested with several diazotrophic bacteria, and PCR revealed that these primers are specific for the P. azotofixans nifH gene. A GC clamp was attached to one inner primer, and a denaturing gradient gel electrophoresis (DGGE) protocol was developed to study the genetic diversity of this region of nifH in P. azotofixans strains, as well as in soil and rhizosphere samples. The results revealed sequence heterogeneity among different nifH genes. Moreover, nifH is probably a multicopy gene in P. azotofixans. Both similarities and differences were detected in the P. azotofixans nifH DGGE profiles generated with soil and rhizosphere DNAs. The DGGE assay developed here is reproducible and provides a rapid way to assess the intraspecific genetic diversity of an important functional gene in pure cultures, as well as in environmental samples.
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( 1999 ) Expression and secretion of Bacillus polymyxa neopullulanase in Saccharomyces cerevisiae. PMID : 9919651 : DOI : 10.1111/j.1574-6968.1999.tb13353.x Abstract >>
We have isolated the gene encoding the neopullulanase enzyme from Bacillus polymyxa CECT 155. It consists of an open reading frame of 1545 bp that could code for a protein of 515 amino acids. This open reading frame was expressed in Bacillus subtilis and the corresponding transformants produced extracellular neopullulanase. The neopullulanase gene was also expressed in Saccharomyces cerevisiae placing it under the control of the yeast actin gene (ACT1) promoter. Clones containing the intact neopullulanase gene, including its own bacterial signal sequence, gave rise to the synthesis of active, but intracellular, enzyme by S. cerevisiae transformants. When sequences specifying the signal sequence and leader region of the yeast mating pheromone alpha-factor (MF alpha 1) were fused upstream of the gene encoding the neopullulanase enzyme, the enzyme was secreted by S. cerevisiae. The secreted protein presented the same biochemical properties and the same apparent molecular mass as the Bacillus polymyxa original enzyme. The predicted amino acid sequence of the neopullulanase protein contained sequence motifs conserved among amylolytic enzymes. Northern blot analysis indicated that the transcription of the neopullulanase gene in B. polymyxa was induced by the presence of the substrate, pullulan, in the culture, and was repressed by glucose.
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( 1998 ) Crystal structure of beta-glucosidase A from Bacillus polymyxa: insights into the catalytic activity in family 1 glycosyl hydrolases. PMID : 9466926 : DOI : 10.1006/jmbi.1997.1467 Abstract >>
Family 1 glycosyl hydrolases are a very relevant group of enzymes because of the diversity of biological roles in which they are involved, and their generalized occurrence in all sorts of living organisms. The biological plasticity of these enzymes is a consequence of the variety of beta-glycosidic substrates that they can hydrolyze: disaccharides such as cellobiose and lactose, phosphorylated disaccharides, cyanogenic glycosides, etc. The crystal structure of BglA, a member of the family, has been determined in the native state and complexed with gluconate ligand, at 2.4 A and 2.3 A resolution, respectively. The subunits of the octameric enzyme display the (alpha/beta)8 barrel structural fold previously reported for other family 1 enzymes. However, significant structural differences have been encountered in the loops surrounding the active-center cavity. These differences make a wide and extended cavity in BglA, which seems to be able to accommodate substrates longer than cellobiose, its natural substrate. Furthermore, a third sub-site is encountered, which might have some connection with the transglycosylating activity associated to this enzyme and its certain activity against beta-1,4 oligosaccharides composed of more than two units of glucose. The particular geometry of the cavity which contains the active center of BglA must therefore account for both, hydrolytic and transglycosylating activities. A potent and well known inhibitor of different glycosidases, D-glucono-1,5-lactone, was used in an attempt to define interactions of the substrate with specific protein residues. Although the lactone has transformed into gluconate under crystallizing conditions, the open species still binds the enzyme, the conformation of its chain mimicking the true inhibitor. From the analysis of the enzyme-ligand hydrogen bonding interactions, a detailed picture of the active center can be drawn, for a family 1 enzyme. In this way, Gln20, His121, Tyr296, Glu405 and Trp406 are identified as determinant residues in the recognition of the substrate. In particular, two bidentate hydrogen bonds made by Gln20 and Glu405, could conform the structural explanation for the ability of most members of the family for displaying both, glucosidase and galactosidase activity.
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