| 1. |
Kamath AV,
Yanofsky C,
( 1992 ) Characterization of the tryptophanase operon of Proteus vulgaris. Cloning, nucleotide sequence, amino acid homology, and in vitro synthesis of the leader peptide and regulatory analysis. PMID : 1400314 : Abstract >>
The tryptophanase (tna) operon of Proteus vulgaris was cloned and characterized and found to be organized similarly to the tna operon of Escherichia coli. Both operons contain two major structural genes, tnaA and tnaB, that encode tryptophanase and a tryptophan permease, respectively. tnaA of P. vulgaris is preceded by a transcribed leader region, encoding a 34-residue leader peptide, TnaC, that contains a single tryptophan residue. The tnaC coding region also has a boxA-like sequence. Regulatory studies performed in P. vulgaris, and with a plasmid carrying the P. vulgaris tna operon in E. coli, established that expression of the Proteus operon was induced by tryptophan and was subject to catabolite repression. Site-directed mutagenesis studies established that translation of the tnaC coding region was essential for induction. Synthesis of the P. vulgaris leader peptide was demonstrated in an in vitro coupled transcription-translation system. Interestingly, the 5 amino acid residues of the TnaC peptide surrounding the sole tryptophan residue are identical in P. vulgaris and E. coli. We conclude that the tna operon of P. vulgaris is also regulated by tryptophan-induced transcription antitermination. Homology of tryptophanase and tryptophan permease of P. vulgaris to related proteins from other species is described.
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2. |
Takahashi H,
Kimura B,
Yoshikawa M,
Fujii T,
( 2003 ) Cloning and sequencing of the histidine decarboxylase genes of gram-negative, histamine-producing bacteria and their application in detection and identification of these organisms in fish. PMID : 12732523 : DOI : 10.1128/aem.69.5.2568-2579.2003 PMC : PMC154508 Abstract >>
The use of molecular tools for early and rapid detection of gram-negative histamine-producing bacteria is important for preventing the accumulation of histamine in fish products. To date, no molecular detection or identification system for gram-negative histamine-producing bacteria has been developed. A molecular method that allows the rapid detection of gram-negative histamine producers by PCR and simultaneous differentiation by single-strand conformation polymorphism (SSCP) analysis using the amplification product of the histidine decarboxylase genes (hdc) was developed. A collection of 37 strains of histamine-producing bacteria (8 reference strains from culture collections and 29 isolates from fish) and 470 strains of non-histamine-producing bacteria isolated from fish were tested. Histamine production of bacteria was determined by paper chromatography and confirmed by high-performance liquid chromatography. Among 37 strains of histamine-producing bacteria, all histidine-decarboxylating gram-negative bacteria produced a PCR product, except for a strain of Citrobacter braakii. In contrast, none of the non-histamine-producing strains (470 strains) produced an amplification product. Specificity of the amplification was further confirmed by sequencing the 0.7-kbp amplification product. A phylogenetic tree of the isolates constructed using newly determined sequences of partial hdc was similar to the phylogenetic tree generated from 16S ribosomal DNA sequences. Histamine accumulation occurred when PCR amplification of hdc was positive in all of fish samples tested and the presence of powerful histamine producers was confirmed by subsequent SSCP identification. The potential application of the PCR-SSCP method as a rapid monitoring tool is discussed.
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3. |
Huang W,
Lunin VV,
Li Y,
Suzuki S,
Sugiura N,
Miyazono H,
Cygler M,
( 2003 ) Crystal structure of Proteus vulgaris chondroitin sulfate ABC lyase I at 1.9A resolution. PMID : 12706721 : DOI : 10.1016/s0022-2836(03)00345-0 Abstract >>
Chondroitin Sulfate ABC lyase I from Proteus vulgaris is an endolytic, broad-specificity glycosaminoglycan lyase, which degrades chondroitin, chondroitin-4-sulfate, dermatan sulfate, chondroitin-6-sulfate, and hyaluronan by beta-elimination of 1,4-hexosaminidic bond to unsaturated disaccharides and tetrasaccharides. Its structure revealed three domains. The N-terminal domain has a fold similar to that of carbohydrate-binding domains of xylanases and some lectins, the middle and C-terminal domains are similar to the structures of the two-domain chondroitin lyase AC and bacterial hyaluronidases. Although the middle domain shows a very low level of sequence identity with the catalytic domains of chondroitinase AC and hyaluronidase, the residues implicated in catalysis of the latter enzymes are present in chondroitinase ABC I. The substrate-binding site in chondroitinase ABC I is in a wide-open cleft, consistent with the endolytic action pattern of this enzyme. The tryptophan residues crucial for substrate binding in chondroitinase AC and hyaluronidases are lacking in chondroitinase ABC I. The structure of chondroitinase ABC I provides a framework for probing specific functions of active-site residues for understanding the remarkably broad specificity of this enzyme and perhaps engineering a desired specificity. The electron density map showed clearly that the deposited DNA sequence for residues 495-530 of chondroitin ABC lyase I, the segment containing two putative active-site residues, contains a frame-shift error resulting in an incorrectly translated amino acid sequence.
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4. |
Murata T,
Ohnishi M,
Ara T,
Kaneko J,
Han CG,
Li YF,
Takashima K,
Nojima H,
Nakayama K,
Kaji A,
Kamio Y,
Miki T,
Mori H,
Ohtsubo E,
Terawaki Y,
Hayashi T,
( 2002 ) Complete nucleotide sequence of plasmid Rts1: implications for evolution of large plasmid genomes. PMID : 12029035 : DOI : 10.1128/jb.184.12.3194-3202.2002 PMC : PMC135101 Abstract >>
Rts1, a large conjugative plasmid originally isolated from Proteus vulgaris, is a prototype for the IncT plasmids and exhibits pleiotropic thermosensitive phenotypes. Here we report the complete nucleotide sequence of Rts1. The genome is 217,182 bp in length and contains 300 potential open reading frames (ORFs). Among these, the products of 141 ORFs, including 9 previously identified genes, displayed significant sequence similarity to known proteins. The set of genes responsible for the conjugation function of Rts1 has been identified. A broad array of genes related to diverse processes of DNA metabolism were also identified. Of particular interest was the presence of tus-like genes that could be involved in replication termination. Inspection of the overall genome organization revealed that the Rts1 genome is composed of four large modules, providing an example of modular evolution of plasmid genomes.
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5. |
Dauga C,
( 2002 ) Evolution of the gyrB gene and the molecular phylogeny of Enterobacteriaceae: a model molecule for molecular systematic studies. PMID : 11931166 : DOI : 10.1099/00207713-52-2-531 Abstract >>
Phylogenetic trees showing the evolutionary relatedness of Enterobacteriaceae based upon gyrB and 16S rRNA genes were compared. Congruence among trees of these molecules indicates that the genomes of these species are not completely mosaic and that molecular systematic studies can be carried out. Phylogenetic trees based on gyrB sequences appeared to be more reliable at determining relationships among Serratia species than trees based on 16S rRNA gene sequences. gyrB sequences from Serratia species formed a monophyletic group validated by significant bootstrap values. Serratia fonticola had the most deeply branching gyrB sequence in the Serratia monophyletic group, which was consistent with its atypical phenotypic characteristics. Klebsiella and Enterobacter genera seemed to be polyphyletic, but the branching patterns of gyrB and 16S rRNA gene trees were not congruent. Enterobacter aerogenes was grouped with Klebsiella pneumoniae on the gyrB phylogenetic tree, which supports that this species could be transferred to the Klebsiella genus. Unfortunately, 16S rRNA and gyrB phylogenetic trees gave conflicting evolutionary relationships for Citrobacter freundii because of its unusual gyrB evolutionary process. gyrB lateral gene transfer was suspected for Hafnia alvei. Saturation of gyrB genes was observed by the pairwise comparison of Proteus spp., Providencia alcalifaciens and Morganella morganii sequences. Depending on their level of variability, 16S rRNA gene sequences were useful for describing phylogenetic relationships between distantly related Enterobacteriaceae, whereas gyrB sequence comparison was useful for inferring intra- and some intergeneric relationships.
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6. |
Leaphart AB,
Lovell CR,
( 2001 ) Recovery and analysis of formyltetrahydrofolate synthetase gene sequences from natural populations of acetogenic bacteria. PMID : 11229939 : DOI : 10.1128/AEM.67.3.1392-1395.2001 PMC : PMC92742 Abstract >>
Primers for PCR amplification of partial (1,102 of 1,680 bp) formyltetrahydrofolate synthetase (FTHFS) gene sequences were developed and tested. Partial FTHFS sequences were successfully amplified from DNA from pure cultures of known acetogens, from other FTHFS-producing organisms, from the roots of the smooth cordgrass, Spartina alterniflora, and from fresh horse manure. The amplimers recovered were cloned, their nucleotide sequences were determined, and their translated amino acid sequences were used to construct phylogenetic trees. We found that FTHFS sequences from homoacetogens formed a monophyletic cluster that did not contain sequences from nonhomoacetogens and that FTHFS sequences appear to be informative regarding major physiological features of FTHFS-producing organisms.
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7. |
Ito K,
Takahashi E,
( 1999 ) Cloning of L-amino acid deaminase gene from Proteus vulgaris. PMID : 10664862 : Abstract >>
The L-amino acid degrading enzyme gene from Proteus vulgaris was cloned and the nucleotide sequence of the enzyme gene was clarified. An open reading frame of 1,413 bp starting at an ATG methionine codon was found, which encodes a protein of 471 amino acid residues, the calculated molecular weight of which is 51,518. The amino acid sequence of P. vulgaris was 58.6% identical with the L-amino acid deaminase of P. mirabilis. A significantly conserved sequence was found around the FAD-binding sequence of flavo-proteins. The partially purified wild and recombinant enzymes had the same substrate specificity for L-amino acids to form the respective keto-acids, however not for D-amino acids.
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8. |
Forst S,
( 1999 ) Identification of a conserved N-terminal sequence involved in transmembrane signal transduction in EnvZ. PMID : 10464234 : PMC : PMC94069 Abstract >>
To determine whether N-terminal sequences are involved in the transmembrane signaling mechanism of EnvZ, the nucleotide sequences of envZ genes from several enteric bacteria were determined. Comparative analysis revealed that the amino acid sequence between Pro41 and Glu53 was highly conserved. To further analyze the role of the conserved sequence, envZ of Escherichia coli was subjected to random PCR mutagenesis and mutant alleles that produced a high-osmolarity phenotype, in which ompF was repressed, were isolated. The mutations identified clustered within, as well as adjacent to, the Pro41-to-Glu53 sequence. These findings suggest that the conserved Pro41-to-Glu53 sequence is involved in the signal transduction mechanism of EnvZ.
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9. |
O'Halloran JA,
McGrath BM,
Pembroke JT,
( 2007 ) The orf4 gene of the enterobacterial ICE, R391, encodes a novel UV-inducible recombination directionality factor, Jef, involved in excision and transfer of the ICE. PMID : 17504243 : DOI : 10.1111/j.1574-6968.2007.00747.x Abstract >>
The enterobacterial mobile genetic element R391, the prototype ICE (integrating-conjugative element) of the SXT/R391 family, shows increased conjugative transfer following UV irradiation. This is dependent on a functioning R391 orf4 gene, which is adjacent to the element encoded integrase gene, int. orf4 mutants fail to form a detectable circular transfer intermediate, do not show UV induced transfer and show a much reduced general transfer ability. The orf4 gene product, termed Jef (IncJ excision factor), shows little homology to anything currently in the nucleotide or protein databases. It is predicted to encode a 66 amino acid, 8.03 kDa, basic, DNA-binding protein with an iso-electric point of pH 8.1: these characteristics being similar to those of recombinational directionality factors involved in excision. Jef expression is up-regulated upon UV irradiation as demonstrated by real-time reverse transcriptase PCR and is controlled by two element encoded genes orf90 and orf91, which show similarity to the transcriptional activator complex FlhC and FlhD. orf4, orf90 and orf91 are conserved in all the SXT/R391-like elements sequenced to date including SXT, ICESpuPO1 and ICEVchMex1. orf4 is also conserved in other SXT/R391 family members such as R997, R392, R705 and pMERPH as shown by sequencing amplicons from these ICEs generated using orf4 specific primers.
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10. |
Pham HN,
Ohkusu K,
Mishima N,
Noda M,
Monir Shah M,
Sun X,
Hayashi M,
Ezaki T,
( 2007 ) Phylogeny and species identification of the family Enterobacteriaceae based on dnaJ sequences. PMID : 17368802 : DOI : 10.1016/j.diagmicrobio.2006.12.019 Abstract >>
Phylogenetic relations within the family Enterobacteriaceae were analyzed using partial dnaJ sequences of 165 strains belonging to 93 species from 27 enterobacterial genera. The dnaJ phylogeny was in relative agreement with that constructed by 16S rDNA sequences, but more monophyletic groups were obtained from the dnaJ tree than from the 16S rDNA tree. The degree of divergence of the dnaJ gene was approximately 6 times greater than that of 16S rDNA. Also, the dnaJ gene showed the most discriminatory power in comparison with tuf and atpD genes, facilitating clear differentiation of any 2 enterobacterial species by dnaJ sequence analysis. The application of dnaJ sequences to the identification was confirmed by assigning 72 clinical isolates to the correct enterobacterial species. Our data indicate that analysis of the dnaJ gene sequences can be used as a powerful marker for phylogenetic study and identification at the species level of the family Enterobacteriaceae.
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11. |
Paradis S,
Boissinot M,
Paquette N,
Bélanger SD,
Martel EA,
Boudreau DK,
Picard FJ,
Ouellette M,
Roy PH,
Bergeron MG,
( 2005 ) Phylogeny of the Enterobacteriaceae based on genes encoding elongation factor Tu and F-ATPase beta-subunit. PMID : 16166704 : DOI : 10.1099/ijs.0.63539-0 Abstract >>
The phylogeny of enterobacterial species commonly found in clinical samples was analysed by comparing partial sequences of their elongation factor Tu gene (tuf) and of their F-ATPase beta-subunit gene (atpD). An 884 bp fragment for tuf and an 884 or 871 bp fragment for atpD were sequenced for 96 strains representing 78 species from 31 enterobacterial genera. The atpD sequence analysis exhibited an indel specific to Pantoea and Tatumella species, showing, for the first time, a tight phylogenetic affiliation between these two genera. Comprehensive tuf and atpD phylogenetic trees were constructed and are in agreement with each other. Monophyletic genera are Cedecea, Edwardsiella, Proteus, Providencia, Salmonella, Serratia, Raoultella and Yersinia. Analogous trees based on 16S rRNA gene sequences available from databases were also reconstructed. The tuf and atpD phylogenies are in agreement with the 16S rRNA gene sequence analysis, and distance comparisons revealed that the tuf and atpD genes provide better discrimination for pairs of species belonging to the family Enterobacteriaceae. In conclusion, phylogeny based on tuf and atpD conserved genes allows discrimination between species of the Enterobacteriaceae.
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12. |
Tao T,
Blumenthal RM,
( 1992 ) Sequence and characterization of pvuIIR, the PvuII endonuclease gene, and of pvuIIC, its regulatory gene. PMID : 1577705 : DOI : 10.1128/jb.174.10.3395-3398.1992 PMC : PMC206011 Abstract >>
An open reading frame partially overlaps pvuIIR, and genetic evidence implies that this open reading frame, named pvuIIC, specifies a positive regulator of pvuIIR (T. Tao, J. C. Bourne, and R. M. Blumenthal, J. Bacteriol. 173:1367-1375, 1991). Inducible constructs of pvuIIC produced a protein of the expected size. The site of C.PvuII action appears to lie within pvuIIC itself; thus, pvuIIC may be a self-contained regulatory cassette.
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13. |
Prabhakar V,
Raman R,
Capila I,
Bosques CJ,
Pojasek K,
Sasisekharan R,
( 2005 ) Biochemical characterization of the chondroitinase ABC I active site. PMID : 16108757 : DOI : 10.1042/BJ20050532 PMC : PMC1198919 Abstract >>
cABC I (chondroitinase ABC I) from Proteus vulgaris is a GalAG (galactosaminoglycan) depolymerizing lyase that cleaves its substrates at the glycosidic bond via beta-elimination. cABC I cleaves a particularly broad range of GalAG substrates, including CS (chondroitin sulphate), DS (dermatan sulphate) and hyaluronic acid. We recently cloned and recombinantly expressed cABC I in Escherichia coli, and completed a preliminary biochemical characterization of the enzyme. In the present study, we have coupled site-directed mutagenesis of the recombinant cABC I with a structural model of the enzyme-substrate complex in order to investigate in detail the roles of active site amino acids in the catalytic action of the enzyme. The putative catalytic residues His-501, Tyr-508, Arg-560 and Glu-653 were probed systematically via mutagenesis. Assessment of these mutants in kinetic and end-point assays provided direct evidence on the catalytic roles of these active-site residues. The crystal structure of the native enzyme provided a framework for molecular docking of representative CS and DS substrates. This enabled us to construct recombinant enzyme-substrate structural complexes. These studies together provided structural insights into the effects of the mutations on the catalytic mechanism of cABC I and the differences in its processing of CS and DS substrates. All His-501 mutants were essentially inactive and thereby implicating this amino acid to play the critical role of proton abstraction during catalysis. The kinetic data for Glu-653 mutants indicated that it is involved in a hydrogen bonding network in the active site. The proximity of Tyr-508 to the glycosidic oxygen of the substrate at the site of cleavage suggested its potential role in protonating the leaving group. Arg-560 was proximal to the uronic acid C-5 proton, suggesting its possible role in the stabilization of the carbanion intermediate formed during catalysis.
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14. |
Prabhakar V,
Capila I,
Bosques CJ,
Pojasek K,
Sasisekharan R,
( 2005 ) Chondroitinase ABC I from Proteus vulgaris: cloning, recombinant expression and active site identification. PMID : 15691229 : DOI : 10.1042/BJ20041222 PMC : PMC1134771 Abstract >>
GalAGs (galactosaminoglycans) are one subset of the GAG (glycosaminoglycan) family of chemically heterogeneous polysaccharides that are involved in a wide range of biological processes. These complex biomacromolecules are believed to be responsible for the inhibition of nerve regeneration following injury to the central nervous system. The enzymic degradation of GAG chains in damaged nervous tissue by cABC I (chondroitinase ABC I), a broad-specificity lyase that degrades GalAGs, promotes neural recovery. In the present paper, we report the subcloning of cABC I from Proteus vulgaris, and discuss a simple methodology for the recombinant expression and purification of this enzyme. The originally expressed cABC I clone resulted in an enzyme with negligible activity against a variety of GalAG substrates. Sequencing of the cABC I clone revealed four point mutations at issue with the electron-density data of the cABC I crystal structure. Site-directed mutagenesis produced a clone with restored GalAG-degrading function. We have characterized this enzyme biochemically, including an analysis of its substrate specificity. By coupling structural inspections of cABC I and an evaluation of sequence homology against other GAG-degrading lyases, a set of amino acids was chosen for further study. Mutagenesis studies of these residues resulted in the first experimental evidence of cABC I's active site. This work will facilitate the structure-function characterization of biomedically relevant GalAGs and further the development of therapeutics for nerve regeneration.
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15. |
Hill JE,
Penny SL,
Crowell KG,
Goh SH,
Hemmingsen SM,
( 2004 ) cpnDB: a chaperonin sequence database. PMID : 15289485 : DOI : 10.1101/gr.2649204 PMC : PMC509277 Abstract >>
Type I chaperonins are molecular chaperones present in virtually all bacteria, some archaea and the plastids and mitochondria of eukaryotes. Sequences of cpn60 genes, encoding 60-kDa chaperonin protein subunits (CPN60, also known as GroEL or HSP60), are useful for phylogenetic studies and as targets for detection and identification of organisms. Conveniently, a 549-567-bp segment of the cpn60 coding region can be amplified with universal PCR primers. Here, we introduce cpnDB, a curated collection of cpn60 sequence data collected from public databases or generated by a network of collaborators exploiting the cpn60 target in clinical, phylogenetic, and microbial ecology studies. The growing database currently contains approximately 2000 records covering over 240 genera of bacteria, eukaryotes, and archaea. The database also contains over 60 sequences for the archaeal Type II chaperonin (thermosome, a homolog of eukaryotic cytoplasmic chaperonin) from 19 archaeal genera. As the largest curated collection of sequences available for a protein-encoding gene, cpnDB provides a resource for researchers interested in exploiting the power of cpn60 as a diagnostic or as a target for phylogenetic or microbial ecology studies, as well as those interested in broader subjects such as lateral gene transfer and codon usage. We built cpnDB from open source tools and it is available at http://cpndb.cbr.nrc.ca.
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16. |
McGrath BM,
Pembroke JT,
( 2004 ) Detailed analysis of the insertion site of the mobile elements R997, pMERPH, R392, R705 and R391 in E. coli K12. PMID : 15268933 : DOI : 10.1016/j.femsle.2004.06.009 Abstract >>
The IncJ group of mobile elements have not been extensively studied until recently, due to the inability to isolate extrachromosomal DNA from IncJ-strains. Sequence analysis of the prototype IncJ element, R391, revealed it to be a mosaic structure, integrated into the prfC gene in E. coli. Using inverse PCR (iPCR), we localised the other available IncJ elements (R392, R705, R997 and pMERPH) site of insertion to a 17-bp sequence, within the 5' end of prfC at 99.31 min on the E. coli chromosome, and confirmed this for R391. Despite disrupting prfC, the IncJ's encode novel promoter and 5' sequences, restoring function of the disrupted prfC. Sequence analysis of the elements ends revealed that they contain integrase genes, which share extensive homologies among the group, despite being isolated from broad geographic locations. The elements excise from the host chromosome by recombination between their attL and attR sites, with subsequent recombination between the attP sites on the circular forms and the attB sites in the host genomes. The attB site is highly conserved and found in many different bacteria, suggesting a possible broad host range.
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17. |
Gueneau de Novoa P,
Williams KP,
( 2004 ) The tmRNA website: reductive evolution of tmRNA in plastids and other endosymbionts. PMID : 14681369 : DOI : 10.1093/nar/gkh102 PMC : PMC308836 Abstract >>
tmRNA combines tRNA- and mRNA-like properties and ameliorates problems arising from stalled ribosomes. Research on the mechanism, structure and biology of tmRNA is served by the tmRNA website (http://www.indiana.edu/~ tmrna), a collection of sequences, alignments, secondary structures and other information. Because many of these sequences are not in GenBank, a BLAST server has been added; another new feature is an abbreviated alignment for the tRNA-like domain only. Many tmRNA sequences from plastids have been added, five found in public sequence data and another 10 generated by direct sequencing; detection in early-branching members of the green plastid lineage brings coverage to all three primary plastid lineages. The new sequences include the shortest known tmRNA sequence. While bacterial tmRNAs usually have a lone pseudoknot upstream of the mRNA segment and a string of three or four pseudoknots downstream, plastid tmRNAs collectively show loss of pseudoknots at both postions. The pseudoknot-string region is also too short to contain the usual pseudoknot number in another new entry, the tmRNA sequence from a bacterial endosymbiont of insect cells, Tremblaya princeps. Pseudoknots may optimize tmRNA function in free-living bacteria, yet become dispensible when the endosymbiotic lifestyle relaxes selective pressure for fast growth.
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18. |
Wang Y,
Wang Y,
Wu CM,
Schwarz S,
Shen Z,
Zhang W,
Zhang Q,
Shen JZ,
( 2011 ) Detection of the staphylococcal multiresistance gene cfr in Proteus vulgaris of food animal origin. PMID : 21795256 : DOI : 10.1093/jac/dkr322 Abstract >>
To investigate the presence and the genetic environment of the multiresistance gene cfr in naturally occurring Gram-negative bacteria of pigs. A total of 391 bacterial isolates with florfenicol MICs of ?16 mg/L, obtained from 557 nasal swabs of individual pigs, were screened by PCR for the known florfenicol resistance genes. The species assignment of the cfr-carrying isolate was based on the results of Gram's staining, colony morphology, 16S rDNA sequencing and biochemical profiling. The location of the cfr and floR genes was determined by Southern blotting and the regions flanking the cfr gene were sequenced by a modified random primer walking strategy. A single Proteus vulgaris isolate, which carried the genes floR and cfr, was detected in this study. A cfr-carrying segment of 7 kb with homology to a staphylococcal plasmid was found to be inserted into the chromosomal fimD gene of P. vulgaris. This segment was flanked by two IS26 elements located in the same orientation, which are believed to have played a role in this integration process. Stability testing via inverse PCR approaches showed that this integrate is not entirely stable, but the cfr-carrying centre region plus one IS26 copy can be looped out via IS26-mediated recombination. To the best of our knowledge, this is the first report of the cfr gene in a naturally occurring Gram-negative bacterium. Surveillance and monitoring of the cfr gene in Gram-negative bacteria are warranted with respect to food safety and consumer protection.
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19. |
Wang Q,
Torzewska A,
Ruan X,
Wang X,
Rozalski A,
Shao Z,
Guo X,
Zhou H,
Feng L,
Wang L,
( 2010 ) Molecular and genetic analyses of the putative Proteus O antigen gene locus. PMID : 20581173 : DOI : 10.1128/AEM.02946-09 PMC : PMC2918944 Abstract >>
Proteus species are well-characterized opportunistic pathogens primarily associated with urinary tract infections (UTI) of humans. The Proteus O antigen is one of the most variable constituents of the cell surface, and O antigen heterogeneity is used for serological classification of Proteus isolates. Even though most Proteus O antigen structures have been identified, the O antigen locus has not been well characterized. In this study, we identified the putative Proteus O antigen locus and demonstrated this region's high degree of heterogeneity by comparing sequences of 40 Proteus isolates using PCR-restriction fragment length polymorphism (RFLP). This analysis identified five putative Proteus O antigen gene clusters, and the probable functions of these O antigen-related genes were proposed, based on their similarity to genes in the available databases. Finally, Proteus-specific genes from these five serogroups were identified by screening 79 strains belonging to the 68 Proteus O antigen serogroups. To our knowledge, this is the first molecular characterization of the putative Proteus O antigen locus, and we describe a novel molecular classification method for the identification of different Proteus serogroups.
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20. |
Lu Y,
Lin Q,
Wang J,
Wu Y,
Bao W,
Lv F,
Lu Z,
( 2010 ) Overexpression and characterization in Bacillus subtilis of a positionally nonspecific lipase from Proteus vulgaris. PMID : 20490605 : DOI : 10.1007/s10295-010-0739-0 Abstract >>
A Proteus vulgaris strain named T6 which produced lipase (PVL) with nonpositional specificity had been isolated in our laboratory. To produce the lipase in large quantities, we cloned its gene, which had an opening reading frame of 864 base pairs and encoded a deduced 287-amino-acid protein. The PVL gene was inserted into the Escherichia coli expression vector pET-DsbA, and active lipase was expressed in E. coli BL21 cells. The secretive expression of PVL gene in Bacillus subtilis was examined. Three vectors, i.e., pMM1525 (xylose-inducible), pMMP43 (constitutive vector, derivative of pMM1525), and pHPQ (sucrose-inducible, constructed based on pHB201), were used to produce lipase in B. subtilis. Recombinant B. subtilis WB800 cells harboring the pHPQ-PVL plasmid could synthesize and secrete the PVL protein in high yield. The lipase activity reached 356.8 U/mL after induction with sucrose for 72 h in shake-flask culture, representing a 12-fold increase over the native lipase activity in P. vulgaris. The characteristics of the heterologously expressed lipase were identical to those of the native one.
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21. |
Giammanco GM,
Grimont PA,
Grimont F,
Lefevre M,
Giammanco G,
Pignato S,
( 2011 ) Phylogenetic analysis of the genera Proteus, Morganella and Providencia by comparison of rpoB gene sequences of type and clinical strains suggests the reclassification of Proteus myxofaciens in a new genus, Cosenzaea gen. nov., as Cosenzaea myxofaciens comb. nov. PMID : 20709916 : DOI : 10.1099/ijs.0.021964-0 Abstract >>
Phylogenetic analysis of partial rpoB gene sequences of type and clinical strains belonging to different 16S rRNA gene-fingerprinting ribogroups within 11 species of enterobacteria of the genera Proteus, Morganella and Providencia was performed and allowed the definition of rpoB clades, supported by high bootstrap values and confirmed by ?2.5 % nucleotide divergence. None of the resulting clades included strains belonging to different species and the majority of the species were confirmed as discrete and homogeneous. However, more than one distinct rpoB clade could be defined among strains belonging to the species Proteus vulgaris (two clades), Providencia alcalifaciens (two clades) and Providencia rettgeri (three clades), suggesting that some strains represent novel species according to the genotypes outlined by rpoB gene sequence analysis. Percentage differences between the rpoB gene sequence of the type strain of Proteus myxofaciens and other members of the same genus (17.3-18.9 %) were similar to those calculated amongst strains of the genus Providencia (16.4-18.7 %), suggesting a genetic distance at the genus-level between Proteus myxofaciens and the rest of the Proteus-Providencia group. Proteus myxofaciens therefore represents a member of a new genus, for which the name Cosenzaea gen. nov., is proposed.
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22. |
Mochida S,
Tsuchiya H,
Mori K,
Kaji A,
( 1991 ) Three short fragments of Rts1 DNA are responsible for the temperature-sensitive growth phenotype (Tsg) of host bacteria. PMID : 2013575 : DOI : 10.1128/jb.173.8.2600-2607.1991 PMC : PMC207826 Abstract >>
Rts1 is a multiphenotype drug resistance factor, and one of its phenotypes is temperature-sensitive growth (Tsg) of host bacteria. A 3.65-kb fragment from Rts1 DNA was shown to cause the Tsg phenotype in host cells. This tsg fragment was split by a restriction enzyme, HincII, into four fragments. Two of these fragments were called HincII-S (short) and HincII-L (long), respectively. Each of these two fragments conferred the Tsg phenotype, indicating that, in fact, these two independent regions were responsible for the Tsg phenotype. The HincII-S 783-bp and HincII-L 1,479-bp fragments were sequenced. The region in the HincII-S fragment to which the Tsg phenotype was attributed was narrowed to a 146-bp (nucleotides 1 to 146) fragment by various restriction enzyme digestions. Further digestion of the 146-bp fragment with Bal 31 suggested that the 116-bp (nucleotides 9 to 124) fragment is the minimum sequence required for Tsg. On the other hand, in the HincII-L fragment, a fragment of 249 bp (nucleotides 1210 to 1458) and a fragment of 321 bp (nucleotides 1942 to 2262) contained separate temperature-sensitive growth activity. None of three tsg fragments contained open reading frames. The 249-bp fragment had very weak Tsg activity, while the 321-bp fragment had no Tsg activity. On the other hand, when these two fragments were together in the pUC19 vector, they exhibited very strong Tsg activity equivalent to that of the original 1,479-bp fragment. In addition, two of the 249-bp fragments gave similar, strong Tsg activity. The HincII-L 1,479-bp fragment contained an open reading frame for kanamycin resistance which was found between nucleotides 1423 and 2238. This kanamycin resistance gene sequence was different from that of the reported kanamycin resistance gene of Tn903 at 12 positions which were deduced to change seven amino acids.
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23. |
Leinberger DM,
Grimm V,
Rubtsova M,
Weile J,
Schröppel K,
Wichelhaus TA,
Knabbe C,
Schmid RD,
Bachmann TT,
( 2010 ) Integrated detection of extended-spectrum-beta-lactam resistance by DNA microarray-based genotyping of TEM, SHV, and CTX-M genes. PMID : 20007393 : DOI : 10.1128/JCM.00765-09 PMC : PMC2815585 Abstract >>
Extended-spectrum beta-lactamases (ESBL) of the TEM, SHV, or CTX-M type confer resistance to beta-lactam antibiotics in gram-negative bacteria. The activity of these enzymes against beta-lactam antibiotics and their resistance against inhibitors can be influenced by genetic variation at the single-nucleotide level. Here, we describe the development and validation of an oligonucleotide microarray for the rapid identification of ESBLs in gram-negative bacteria by simultaneously genotyping bla(TEM), bla(SHV), and bla(CTX-M). The array consists of 618 probes that cover mutations responsible for 156 amino acid substitutions. As this comprises unprecedented genotyping coverage, the ESBL array has a high potential for epidemiological studies and infection control. With an assay time of 5 h, the ESBL microarray also could be an attractive option for the development of rapid antimicrobial resistance tests in the future. The validity of the DNA microarray was demonstrated with 60 blinded clinical isolates, which were collected during clinical routines. Fifty-eight of them were characterized phenotypically as ESBL producers. The chip was characterized with regard to its resolution, phenotype-genotype correlation, and ability to resolve mixed genotypes. ESBL phenotypes could be correctly ascribed to ESBL variants of bla(CTX-M) (76%), bla(SHV) (22%), or both (2%), whereas no ESBL variant of bla(TEM) was found. The most prevalent ESBLs identified were CTX-M-15 (57%) and SHV-12 (18%).
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24. |
Tao T,
Bourne JC,
Blumenthal RM,
( 1991 ) A family of regulatory genes associated with type II restriction-modification systems. PMID : 1995588 : DOI : 10.1128/jb.173.4.1367-1375.1991 PMC : PMC207272 Abstract >>
Restriction-modification systems must be regulated to avoid autorestriction and death of the host cell. An open reading frame (ORF) in the PvuII restriction-modification system appears to code for a regulatory protein from a previously unrecognized family. First, interruptions of this ORF result in a nonrestricting phenotype. Second, this ORF can restore restriction competence to such interrupted mutants in trans. Third, the predicted amino acid sequence of this ORF resembles those of known DNA-binding proteins and includes a probable helix-turn-helix motif. A survey of unattributed ORFs in 15 other type II restriction-modification systems revealed three that closely resemble the PvuII ORF. All four members of this putative regulatory gene family have a common position relative to the endonuclease genes, suggesting a common regulatory mechanism.
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25. |
Hurley JM,
Woychik NA,
( 2009 ) Bacterial toxin HigB associates with ribosomes and mediates translation-dependent mRNA cleavage at A-rich sites. PMID : 19423702 : DOI : 10.1074/jbc.M109.008763 PMC : PMC2707191 Abstract >>
Most pathogenic Proteus species are primarily associated with urinary tract infections, especially in persons with indwelling catheters or functional/anatomic abnormalities of the urinary tract. Urinary tract infections caused by Proteus vulgaris typically form biofilms and are resistant to commonly used antibiotics. The Rts1 conjugative plasmid from a clinical isolate of P. vulgaris carries over 300 predicted open reading frames, including antibiotic resistance genes. The maintenance of the Rts1 plasmid is ensured in part by the HigBA toxin-antitoxin system. We determined the precise mechanism of action of the HigB toxin in vivo, which is distinct from other known toxins. We demonstrate that HigB is an endoribonuclease whose enzymatic activity is dependent on association with ribosomes through the 50 S subunit. Using primer extension analysis of several test mRNAs, we showed that HigB cleaved extensively across the entire length of coding regions only at specific recognition sequences. HigB mediated cleavage of 100% of both in-frame and out-of-frame AAA sequences. In addition, HigB cleaved approximately 20% of AA sequences in coding regions and occasionally cut single As. Remarkably, the cleavage specificity of HigB coincided with one of the most frequently used codons in the AT-rich Proteus spp., AAA (lysine). Therefore, the HigB-mediated plasmid maintenance system for the Rts1 plasmid highlights the intimate relationship between host cells and extrachromosomal DNA that enables the dynamic acquisition of genes that impart a spectrum of survival advantages, including those encoding multidrug resistance and virulence factors.
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26. |
Prabhakar V,
Capila I,
Soundararajan V,
Raman R,
Sasisekharan R,
( 2009 ) Recombinant expression, purification, and biochemical characterization of chondroitinase ABC II from Proteus vulgaris. PMID : 18849565 : DOI : 10.1074/jbc.M806630200 PMC : PMC2613618 Abstract >>
Chondroitin lyases (or chondroitinases) are a family of enzymes that depolymerize chondroitin sulfate (CS) and dermatan sulfate (DS) galactosaminoglycans, which have gained prominence as important players in central nervous system biology. Two distinct chondroitinase ABC enzymes, cABCI and cABCII, were identified in Proteus vulgaris. Recently, cABCI was cloned, recombinantly expressed, and extensively characterized structurally and biochemically. This study focuses on recombinant expression, purification, biochemical characterization, and understanding the structure-function relationship of cABCII. The biochemical parameters for optimal activity and kinetic parameters associated with processing of various CS and DS substrates were determined. The profile of products formed by action of cABCII on different substrates was compared with product profile of cABCI. A homology-based structural model of cABCII and its complexes with CS oligosaccharides was constructed. This structural model provided molecular insights into the experimentally observed differences in the product profile of cABCII as compared with that of cABCI. The critical active site residues involved in the catalytic activity of cABCII identified based on the structural model were validated using site-directed mutagenesis and kinetic characterization of the mutants. The development of such a contaminant-free cABCII enzyme provides additional tools to decode the biologically important structure-function relationship of CS and DS galactosaminoglycans and offers novel therapeutic strategies for recovery after central nervous system injury.
|
27. |
Kassem II,
Esseili MA,
Sigler V,
( 2008 ) Occurrence of mecA in nonstaphylococcal pathogens in surface waters. PMID : 18845826 : DOI : 10.1128/JCM.01035-08 PMC : PMC2576628 Abstract >>
N/A
|
28. |
Crespo D,
Asher RA,
Lin R,
Rhodes KE,
Fawcett JW,
( 2007 ) How does chondroitinase promote functional recovery in the damaged CNS? PMID : 17572406 : DOI : 10.1016/j.expneurol.2007.05.001 Abstract >>
A number of recent studies have established that the bacterial enzyme chondroitinase ABC promotes functional recovery in the injured CNS. The issue of how it works is rarely addressed, however. The effects of the enzyme are presumed to be due to the degradation of inhibitory chondroitin sulphate GAG chains. Here we review what is known about the composition, structure and distribution of the extracellular matrix in the CNS, and how it changes in response to injury. We summarize the data pertaining to the ability of chondroitinase to promote functional recovery, both in the context of axon regeneration and the reactivation of plasticity. We also present preliminary data on the persistence of the effects of the enzyme in vivo, and its hyaluronan-degrading activity in CNS homogenates in vitro. We then consider precisely how the enzyme might influence functional recovery in the CNS. The ability of chondroitinase to degrade hyaluronan is likely to result in greater matrix disruption than the degradation of chondroitin sulphate alone.
|
29. |
Nozue H,
Tsuchiya K,
Kamio Y,
( 1988 ) Nucleotide sequence and copy control function of the extension of the incI region (incI-b) of Rts 1. PMID : 2840681 : Abstract >>
An Rts1 derivative, pTW20, contains three incompatibility (inc) regions, incI-a (incI in previous studies), incII, and newly determined incI-b loci. By restriction analysis, we have located the incI-b adjacent to the incI-a region on the pTW20 map. Nucleotide sequence analysis of the minimal incI-b region revealed the presence of four repeated sequences, each consisting of 18 bp, which is similar to the incI-a and incII repeats existing on mini-Rts1. All four repeating units were required for expression of a strong incompatibility. In addition, RepA protein, essential for the replication of Rts1, bound specifically to the repeated sequences, suggesting that the repeats would titrate out RepA protein as do incI-a and IncII. Insertion of the incI-b to a mini-Rts1 plasmid in a natural arrangement decreases the copy number of mini-Rts1 to the same level as that of mini-F. The incI-a and incI-b might be a single constituent in incompatibility and copy number control of Rts1.
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30. |
Li X,
Du Y,
Du P,
Dai H,
Fang Y,
Li Z,
Lv N,
Zhu B,
Kan B,
Wang D,
( 2016 ) SXT/R391 integrative and conjugative elements in Proteus species reveal abundant genetic diversity and multidrug resistance. PMID : 27892525 : DOI : 10.1038/srep37372 PMC : PMC5124997 Abstract >>
SXT/R391 integrative and conjugative elements (ICEs) are self-transmissible mobile genetic elements that are found in most members of Enterobacteriaceae. Here, we determined fifteen SXT/R391 ICEs carried by Proteus isolates from food (4.2%) and diarrhoea patients (17.3%). BLASTn searches against GenBank showed that the fifteen SXT/R391 ICEs were closely related to that from different Enterobacteriaceae species, including Proteus mirabilis. Using core gene phylogenetic analysis, the fifteen SXT/R391 ICEs were grouped into six distinct clusters, including a dominant cluster and three clusters that have not been previously reported in Proteus isolates. The SXT/R391 ICEs shared a common structure with a set of conserved genes, five hotspots and two variable regions, which contained more foreign genes, including drug-resistance genes. Notably, a class A �]-lactamase gene was identified in nine SXT/R391 ICEs. Collectively, the ICE-carrying isolates carried resistance genes for 20 tested drugs. Six isolates were resistant to chloramphenicol, kanamycin, streptomycin, trimethoprim-sulfamethoxazole, sulfisoxazole and tetracycline, which are drug resistances commonly encoded by ICEs. Our results demonstrate abundant genetic diversity and multidrug resistance of the SXT/R391 ICEs carried by Proteus isolates, which may have significance for public health. It is therefore necessary to continuously monitor the antimicrobial resistance and related mobile elements among Proteus isolates.
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31. |
Ju Y,
Tong S,
Gao Y,
Zhao W,
Liu Q,
Gu Q,
Xu J,
Niu L,
Teng M,
Zhou H,
( 2016 ) Crystal structure of a membrane-bound l-amino acid deaminase from Proteus vulgaris. PMID : 27422658 : DOI : 10.1016/j.jsb.2016.07.008 Abstract >>
l-amino acid oxidases/deaminases (LAAOs/LAADs) are a class of oxidoreductases catalyzing the oxidative deamination of l-amino acids to �\-keto acids. They are widely distributed in eukaryotic and prokaryotic organisms, and exhibit diverse substrate specificity, post-translational modifications and cellular localization. While LAAOs isolated from snake venom have been extensively characterized, the structures and functions of LAAOs from other species are largely unknown. Here, we reported crystal structure of a bacterial membrane-bound LAAD from Proteus vulgaris (pvLAAD) in complex with flavin adenine dinucleotide (FAD). We found that the overall fold of pvLAAD does not resemble typical LAAOs. Instead it, is similar to d-amino acid oxidases (DAAOs) with an additional hydrophobic insertion module on protein surface. Structural analysis and liposome-binding assays suggested that the hydrophobic module serves as an extra membrane-binding site for LAADs. Bacteria from genera Proteus and Providencia were found to encode two classes of membrane-bound LAADs. Based on our structure, the key roles of residues Q278 and L317 in substrate selectivity were proposed and biochemically analyzed. While LAADs on the membrane were proposed to transfer electrons to respiratory chain for FAD re-oxidization, we observed that the purified pvLAAD could generate a significant amount of hydrogen peroxide in vitro, suggesting it could use dioxygen to directly re-oxidize FADH2 as what typical LAAOs usually do. These findings provide a novel insights for a better understanding this class of enzymes and will help developing biocatalysts for industrial applications.
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32. |
Koronakis V,
Koronakis E,
Hughes C,
( 1989 ) Isolation and analysis of the C-terminal signal directing export of Escherichia coli hemolysin protein across both bacterial membranes. PMID : 2656259 : PMC : PMC400846 Abstract >>
We have studied the C-terminal signal which directs the complete export of the 1024-amino-acid hemolysin protein (HlyA) of Escherichia coli across both bacterial membranes into the surrounding medium. Isolation and sequencing of homologous hlyA genes from the related bacteria Proteus vulgaris and Morganella morganii revealed high primary sequence divergence in the three HlyA C-termini and highlighted within the extreme terminal 53 amino acids the conservation of three contiguous sequences, a potential 18-amino-acid amphiphilic alpha-helix, a cluster of charged residues, and a weakly hydrophobic terminal sequence rich in hydroxylated residues. Fusion of the C-terminal 53 amino acid sequence to non-exported truncated Hly A directed wild-type export but export was radically reduced following independent disruption or progressive truncation of the three C-terminal features by in-frame deletion and the introduction of translation stop codons within the 3' hlyA sequence. The data indicate that the HlyA C-terminal export signal comprises multiple components and suggest possible analogies with the mitochondrial import signal. Hemolysis assays and immunoblotting confirmed the intracellular accumulation of non-exported HlyA proteins and supported the view that export proceeds without a periplasmic intermediate. Comparison of cytoplasmic and extracellular forms of an independently exported extreme C-terminal 194 residue peptide showed that the signal was not removed during export.
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33. |
Kazrani AA,
Kowalska M,
Czapinska H,
Bochtler M,
( 2014 ) Crystal structure of the 5hmC specific endonuclease PvuRts1I. PMID : 24634440 : DOI : 10.1093/nar/gku186 PMC : PMC4027163 Abstract >>
PvuRts1I is a prototype for a larger family of restriction endonucleases that cleave DNA containing 5-hydroxymethylcytosine (5hmC) or 5-glucosylhydroxymethylcytosine (5ghmC), but not 5-methylcytosine (5mC) or cytosine. Here, we report a crystal structure of the enzyme at 2.35 ? resolution. Although the protein has been crystallized in the absence of DNA, the structure is very informative. It shows that PvuRts1I consists of an N-terminal, atypical PD-(D/E)XK catalytic domain and a C-terminal SRA domain that might accommodate a flipped 5hmC or 5ghmC base. Changes to predicted catalytic residues of the PD-(D/E)XK domain or to the putative pocket for a flipped base abolish catalytic activity. Surprisingly, fluorescence changes indicative of base flipping are not observed when PvuRts1I is added to DNA substrates containing pyrrolocytosine in place of 5hmC (5ghmC). Despite this caveat, the structure suggests a model for PvuRts1I activity and presents opportunities for protein engineering to alter the enzyme properties for biotechnological applications.
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34. |
Shao C,
Wang C,
Zang J,
( 2014 ) Structural basis for the substrate selectivity of PvuRts1I, a 5-hydroxymethylcytosine DNA restriction endonuclease. PMID : 25195760 : DOI : 10.1107/S139900471401606X PMC : PMC4157451 Abstract >>
5-Hydroxymethylation is a curious modification of cytosine that was discovered some decades ago, but its functional role in eukaryotes still awaits elucidation. 5-Hydroxymethylcytosine is an epigenetic marker that is crucial for multiple biological processes. The profile is altered under certain disease conditions such as cancer, Huntington's disease and Alzheimer's disease. Using the DNA-modification-dependent restriction endonuclease AbaSI coupled with sequencing (Aba-seq), the hydroxymethylome can be deciphered at the resolution of individual bases. The method is based on the enzymatic properties of AbaSI, a member of the PvuRts1I family of endonucleases. PvuRts1I is a modification-dependent endonuclease with high selectivity for 5-hydroxymethylcytosine over 5-methylcytosine and cytosine. In this study, the crystal structure of PvuRts1I was determined in order to understand and improve the substrate selectivity. A nuclease domain and an SRA-like domain are located at the N- and C-termini, respectively. Through comparison with other SRA-domain structures, the SRA-like domain was proposed to be the 5-hmC recognition module. Several mutants of PvuRts1I with enzymatic activity restricted to 5-hydroxymethylcytosine only were generated based on the structural analysis, and these enzyme variants are appropriate for separating the hydroxymethylome from the wider methylome.
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35. |
Guillard T,
Grillon A,
de Champs C,
Cartier C,
Madoux J,
Berçot B,
Lebreil AL,
Lozniewski A,
Riahi J,
Vernet-Garnier V,
Cambau E,
( 2014 ) Mobile insertion cassette elements found in small non-transmissible plasmids in Proteeae may explain qnrD mobilization. PMID : 24504382 : DOI : 10.1371/journal.pone.0087801 PMC : PMC3913671 Abstract >>
qnrD is a plasmid mediated quinolone resistance gene from unknown origin, recently described in Enterobacteriaceae. It encodes a pentapeptide repeat protein 36-60% different from the other Qnr (A, B, C, S and VC). Since most qnrD-positive strains were described as strains belonging to Proteus or Providencia genera, we hypothesized that qnrD originated in Proteeae before disseminating to other enterobacterial species. We screened 317 strains of Proteeae for qnrD and its genetic support by PCR. For all the seven qnrD-positive strains (4 Proteus mirabilis, 1 Proteus vulgaris and 2 Providencia rettgeri) the gene was carried onto a small non-transmissible plasmid, contrarily to other qnr genes that are usually carried onto large multi-resistant plasmids. Nucleotide sequences of the qnrD-bearing plasmids were 96% identical. Plasmids contained 3 ORFs apart from qnrD and belonged to an undescribed incompatibility group. Only one plasmid, in P. vulgaris, was slightly different with a 1,568-bp insertion between qnrD and its promoter, leading to absence of quinolone resistance. We sought for similar plasmids in 15 reference strains of Proteeae, but which were tested negative for qnrD, and found a 48% identical plasmid (pVERM) in Providencia vermicola. In order to explain how qnrD could have been inserted into such native plasmid, we sought for gene mobilization structures. qnrD was found to be located within a mobile insertion cassette (mic) element which sequences are similar to one mic also found in pVERM. Our conclusions are that (i) the small non-transmissible qnrD-plasmids described here may result from the recombination between an as-yet-unknown progenitor of qnrD and pVERM, (ii) these plasmids are maintained in Proteeae being a qnrD reservoir (iii) the mic element may explain qnrD mobilization from non-transmissible plasmids to mobilizable or conjugative plasmids from other Enterobacteriaceae, (iv) they can recombined with larger multiresistant plasmids conjugated in Proteeae.
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36. |
Cerretti DP,
Mattheakis LC,
Kearney KR,
Vu L,
Nomura M,
( 1988 ) Translational regulation of the spc operon in Escherichia coli. Identification and structural analysis of the target site for S8 repressor protein. PMID : 2464692 : DOI : 10.1016/0022-2836(88)90578-5 Abstract >>
The spc ribosomal protein operon of Escherichia coli is feedback-regulated by ribosomal protein S8, a translational repressor. We have analyzed the region of the spc mRNA that is responsible for this regulation. First, we have established that the S8 target site on the mRNA is near the translation start site of the third gene encoding ribosomal protein L5 in the operon. This was done by constructing hybrid plasmids carrying spc operon ribosomal protein genes under lac transcriptional control, as well as their deletion derivatives, and carrying out both in vivo and in vitro protein synthesis experiments. Next, the secondary structure of this region was studied by analyzing 5' end-labeled RNA synthesized from the phage SP6 promoter using structure-specific nucleases. A secondary structure model consistent with the results was deduced with the aid of a computer prediction of RNA folding. In addition, we cloned and sequenced the corresponding region from Salmonella typhimurium, Proteus vulgaris and Serratia marcescens and found five "compensating" substitutions that support some of the deduced helical structures of mRNA. None of the base changes was inconsistent with the deduced secondary structure model. Finally, site-directed mutagenesis experiments have identified bases important for regulation, including two base-paired sites representing each of two helical regions. This has led to the conclusion that some specific nucleotide residues located between these two helical regions are directly involved in S8 recognition, and that the function of the two helical regions is to maintain the proper orientation of these nucleotide residues. Comparison of the structure of the S8 target site on the spc mRNA with the known S8 binding site on rRNA has revealed a striking similarity in both primary and secondary structures. In particular, primary sequences of rRNA conserved among distantly related bacterial species in this region is found to be identical with the sequences at the corresponding positions in mRNA. These results suggest that the same structural features of the S8 repressor protein are involved in the interaction with both 16 S rRNA and the mRNA target site.
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37. |
Heider J,
Leinfelder W,
Böck A,
( 1989 ) Occurrence and functional compatibility within Enterobacteriaceae of a tRNA species which inserts selenocysteine into protein. PMID : 2470027 : DOI : 10.1093/nar/17.7.2529 PMC : PMC317641 Abstract >>
The selC gene from E. coli codes for a tRNA species (tRNA(UCASer] which is aminoacylated with L-serine and which cotranslationally inserts selenocysteine into selenoproteins. By means of Southern hybridization it was demonstrated that this gene occurs in all enterobacteria tested. To assess whether the unique primary and secondary structural features of the E. coli selC gene product are conserved in that of other organisms, the selC homologue from Proteus vulgaris was cloned and sequenced. It was found that the Proteus selC gene differs from the E. coli counterpart in only six nucleotides, that it displays the same unique properties and that it is expressed and functions in E. coli. This indicates that the unique mechanism of selenocysteine incorporation is not restricted to E. coli but has been conserved as a uniform biochemical process.
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38. |
La Teana A,
Falconi M,
Scarlato V,
Lammi M,
Pon CL,
( 1989 ) Characterization of the structural genes for the DNA-binding protein H-NS in Enterobacteriaceae. PMID : 2494066 : DOI : 10.1016/0014-5793(89)81156-1 Abstract >>
The promoter region of Escherichia coli hns, the structural gene for the DNA-binding protein H-NS, has been identified by use of a promoter search vector and the in vivo transcriptional start point by primer extension analysis. The homologous hns genes of two other Enterobacteriaceae, Proteus vulgaris and Serratia marcescens, were identified by heterologous hybridization with a DNA probe derived from E. coli hns, cloned and sequenced. Taking into account only the invariant nucleotides and amino acids, the homology of H-NS among the three organisms was found to be greater than 70% at the DNA level and greater than 75% at the protein level. The three hns genes were also found to have nearly identical transcriptional and translational signals.
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39. |
Wei Q,
Hu Q,
Li S,
Lu H,
Chen G,
Shen B,
Zhang P,
Zhou Y,
( 2014 ) A novel functional class 2 integron in clinical Proteus mirabilis isolates. PMID : 24235093 : DOI : 10.1093/jac/dkt456 Abstract >>
To describe a novel functional class 2 integron that was found in clinical Proteus mirabilis isolates. Class 1 and 2 integrons were screened by PCR in 153 clinical Proteus isolates. The variable regions of class 1 and 2 integrons were determined by restriction analysis and sequencing. The mutations of internal stop codons in class 2 integrons and their common promoters were also determined by sequencing. Enterobacterial repetitive intergenic consensus (ERIC)-PCR was used to analyse the phylogenetic relations of class 2 integron-positive P. mirabilis isolates. Class 1 integrons were detected in 96 (63%) of 153 Proteus isolates: eight different gene cassette arrays were detected, including dfrA32-ereA1-aadA2, which was detected for the first time in P. mirabilis. Class 2 integrons were detected in 101 (66%) of 153 Proteus isolates: four different gene cassette arrays were detected, including dfrA1-catB2-sat2-aadA1, which was detected for the first time in a class 2 integron. A novel functional class 2 integron was detected in 38 P. mirabilis isolates with a common promoter (-35 TTTAAT|16 bp|-10 TAAAGT). The variable region of this functional class 2 integron contained dfrA14 and three novel open reading frames with unknown functions. Very similar ERIC-PCR fingerprinting patterns were detected in these 38 P. mirabilis isolates and were different from other class 2 integron-positive isolates. A novel functional class 2 integron was found for the first time in P. mirabilis. These functional class 2 integron-harbouring P. mirabilis isolates were likely to be clonally spread in our hospital.
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40. |
Schureck MA,
Maehigashi T,
Miles SJ,
Marquez J,
Cho SE,
Erdman R,
Dunham CM,
( 2014 ) Structure of the Proteus vulgaris HigB-(HigA)2-HigB toxin-antitoxin complex. PMID : 24257752 : DOI : 10.1074/jbc.M113.512095 PMC : PMC3887174 Abstract >>
Bacterial toxin-antitoxin (TA) systems regulate key cellular processes to promote cell survival during periods of stress. During steady-state cell growth, antitoxins typically interact with their cognate toxins to inhibit activity presumably by preventing substrate recognition. We solved two x-ray crystal structures of the Proteus vulgaris tetrameric HigB-(HigA)2-HigB TA complex and found that, unlike most other TA systems, the antitoxin HigA makes minimal interactions with toxin HigB. HigB adopts a RelE family tertiary fold containing a highly conserved concave surface where we predict its active site is located. HigA does not cover the solvent-exposed HigB active site, suggesting that, in general, toxin inhibition is not solely mediated by active site hindrance by its antitoxin. Each HigA monomer contains a helix-turn-helix motif that binds to its own DNA operator to repress transcription during normal cellular growth. This is distinct from antitoxins belonging to other superfamilies that typically only form DNA-binding motifs upon dimerization. We further show that disruption of the HigB-(HigA)2-HigB tetramer to a HigBA heterodimer ablates operator binding. Taken together, our biochemical and structural studies elucidate the novel molecular details of the HigBA TA system.
|
41. |
Chen Z,
Li Y,
Yuan Q,
( 2015 ) Expression, purification and thermostability of MBP-chondroitinase ABC I from Proteus vulgaris. PMID : 25077839 : DOI : 10.1016/j.ijbiomac.2014.07.040 Abstract >>
Chondroitinase ABC I (ChSase ABC I) which can degrade chondroitin sulfate (CS) and other glycosaminoglycan to oligosaccharide or unsaturated disaccharide, was fusionally expressed with maltose-binding protein (MBP) in Escherichia coli BL21(DE3) (E. coli BL21(DE3)) and purified for the first time in this study. The result showed that the productivity of recombinant MBP-ChSase ABC I was 3180 IU/(L fermentation liquor) with CS A as substrate, and the productivity might be the highest level when compared to the reported ones. The specific activity of recombinant MBP-ChSase ABC I was 76 IU/(mg protein) after purification. The Vmax, Km and kcat were 18.7 �� 0.3 �gmol/Ls, 73.1 �� 4.1 �gmol/L and 586.7 �� 10.8 s(-1), respectively. Enzyme activity of the purified enzyme remained about 78% after 210 min when the enzyme incubated at 30 �XC. This study introduces a rapid method for highly expressing ChSase ABC I, and the method could be adopted in the process of industrial production. Furthermore the investigation of thermostability might lead to an important guide in clinical treatment.
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42. |
Athanasiadis A,
Gregoriu M,
Thanos D,
Kokkinidis M,
Papamatheakis J,
( 1990 ) Complete nucleotide sequence of the PvuII restriction enzyme gene from Proteus vulgaris. PMID : 2243794 : DOI : 10.1093/nar/18.21.6434 PMC : PMC332547 Abstract >>
N/A
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43. |
Zhao XJ,
( 1990 ) DNA sequence analysis of the recA genes from Proteus vulgaris, Erwinia carotovora, Shigella flexneri and Escherichia coli B/r. PMID : 2274037 : DOI : 10.1007/bf00633842 Abstract >>
The complete nucleotide sequences of the recA genes from Escherichia coli B/r, Shigella flexneri, Erwinia carotovora and Proteus vulgaris were determined. The DNA sequence of the coding region of the E. coli B/r gene contained a single nucleotide change compared with the E. coli K12 gene sequence whereas the S. flexneri gene differed at 7 residues. In both cases, the predicted proteins were identical in primary structure to the E. coli K12 RecA protein. The DNA sequences of the recA genes from E. carotovora and P. vulgaris were 80% and 74% homologous, respectively, to the E. coli K12 gene. The predicted amino acid sequences of the E. carotovora and P. vulgaris RecA proteins were 91% and 85% identical respectively, to that of E. coli K12. The RecA proteins from both P. vulgaris and E. carotovora diverged significantly in sequence in the last 50 residues whereas they showed striking conservation throughout the first 300 amino acids which include an ATP-binding region and a subunit interaction domain. A putative LexA repressor binding site was localized upstream of each of the heterologous genes.
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44. |
( 1997 ) Two distinct chondroitin sulfate ABC lyases. An endoeliminase yielding tetrasaccharides and an exoeliminase preferentially acting on oligosaccharides. PMID : 9083041 : DOI : 10.1074/jbc.272.14.9123 Abstract >>
Crude enzyme obtained from chondroitin sulfate-induced Proteus vulgaris NCTC 4636 has been fractionated into 1) an endoeliminase capable of depolymerizing chondroitin sulfate and related polysaccharides to produce, as end products, a mixture of Delta4-unsaturated tetra- and disaccharides and 2) an exoeliminase preferentially acting on chondroitin sulfate tetra- and hexasaccharides to yield the respective disaccharides. Isolation of the two enzymes was achieved by a simple two-step procedure: extracting the enzymes from intact P. vulgaris cells with a buffer solution of nonionic surfactant and then treating the extract by cation-exchange chromatography. Each of the enzymes thus prepared was apparently homogeneous as assessed by SDS-polyacrylamide gel electrophoresis and readily crystallized from polyethylene glycol solutions. Both enzymes acted on various substrates such as chondroitin sulfate, chondroitin sulfate proteoglycan, and dermatan sulfate at high, but significantly different, initial rates. They also attacked hyaluronan but at far lower rates and were inactive to keratan sulfate, heparan sulfate, and heparin. Our results show that the known ability of the conventional enzyme called "chondroitinase ABC" to catalyze the complete depolymerization of chondroitin sulfates to unsaturated disaccharides may actually result from the combination reactions by endoeliminase (chondroitin sulfate ABC endolyase) and exoeliminase (chondroitin sulfate ABC exolyase).
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45. |
( 1996 ) Instability of Rts1 (drug-resistant factor) replicon: stabilization by DNA fragments derived from Rts1. PMID : 9007009 : DOI : 10.1006/plas.1996.0041 Abstract >>
Rts1 is a large naturally occurring plasmid which has a kanamycin resistance gene and exhibits various temperature-sensitive phenotypes. A smaller derivative of plasmid, pOK, contains the Rts1 replicon and the kanamycin resistance gene of Rts1. This plasmid, pOK, is much more unstable than Rts1 at 42.5 degrees C. A DNA fragment, G3, 1590 nucleotides long from Rts1 DNA, stabilized pOK completely at 42.5 degrees C but only in the cis configuration. G3 did not change the copy number of pOK. The pOK derivative containing G3 was destabilized by the presence of a compatible plasmid containing G3. G3 has four inverted repeats, two 14-base direct repeats, and three ORFs. Smaller fragment of G3 also had a stabilization effect and these studies showed that the ORF does not play any role in stabilization.
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46. |
( 1996 ) Characterization of an alkaline lipase from Proteus vulgaris K80 and the DNA sequence of the encoding gene. PMID : 8598267 : DOI : 10.1111/j.1574-6968.1996.tb07975.x Abstract >>
A facultatively anaerobic bacterium producing an extracellular alkaline lipase was isolated from the soil collected near a sewage disposal plant in Korea and identified to be a strain of Proteus vulgaris. The molecular mass of the purified lipase K80 was estimated to be 31 kDa by SDS-PAGE. It was found to be an alkaline enzyme having maximum hydrolytic activity at pH 10, while fairly stable in a wide pH range from 5 to 11. The gene for lipase K80 was cloned in Escherichia coli. Sequence analysis showed an open reading frame of 861 bp coding for a polypeptide of 287 amino acid residues. The deduced amino acid sequence of the lipase gene had 46.3% identity to the lipase from Pseudomonas fragi.
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47. |
( 1996 ) A new plasmid-encoded proteic killer gene system: cloning, sequencing, and analyzing hig locus of plasmid Rts1. PMID : 8645296 : DOI : 10.1006/bbrc.1996.0396 Abstract >>
A new proteic killer gene system, hig, was identified on the plasmid Rts1. The hig locus consisting of a higA and higB is directly related to the temperature sensitive host cell growth conferred by Rts1. We proved that higB encoding presumably a 92-amino-acid polypeptide inhibited segregation of plasmid free cells, and higA encoding a 104-amino-acid polypeptide suppressed the higB function both in cis and in trans.
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48. |
( 1994 ) Molecular characterization of enterobacterial pldA genes encoding outer membrane phospholipase A. PMID : 8300539 : DOI : 10.1128/jb.176.3.861-870.1994 PMC : PMC205124 Abstract >>
The pldA gene of Escherichia coli encodes an outer membrane phospholipase A. A strain carrying the most commonly used mutant pldA allele appeared to express a correctly assembled PldA protein in the outer membrane. Nucleotide sequence analysis revealed that the only difference between the wild type and the mutant is the replacement of the serine residue in position 152 by phenylalanine. Since mutants that lack the pldA gene were normally viable under laboratory conditions and had no apparent phenotype except for the lack of outer membrane phospholipase activity, the exact role of the enzyme remains unknown. Nevertheless, the enzyme seems to be important for the bacteria, since Western blotting (immunoblotting) and enzyme assays showed that it is widely spread among species of the family Enterobacteriaceae. To characterize the PldA protein further, the pldA genes of Salmonella typhimurium, Klebsiella pneumoniae, and Proteus vulgaris were cloned and sequenced. The cloned genes were expressed in E. coli, and their gene products were enzymatically active. Comparison of the predicted PldA primary structures with that of E. coli PldA revealed a high degree of homology, with 79% of the amino acid residues being identical in all four proteins. Implications of the sequence comparison for the structure and the structure-function relationship of PldA protein are discussed.
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49. |
( 1993 ) Sequence and characterization of mutT from Proteus vulgaris. PMID : 8244038 : DOI : 10.1016/0378-1119(93)90180-b Abstract >>
A cloned DNA fragment containing the tryptophanase (tna) operon of Proteus vulgaris was found to contain a gene analogous to mutT of Escherichia coli immediately distal to the tna operon. The presumptive mutT of P. vulgaris was shown to be a functional gene by complementation of a mutT mutant from E. coli. The deduced amino acid sequence of the MutT polypeptide of P. vulgaris was 47% identical and 70% similar to MutT of E. coli. The mutT and tna operons of P. vulgaris were shown to be adjacent on the genome of this organism. These operons are located about 20 min apart in the E. coli genome. Our findings suggest that either or both tna and mutT have different genomic locations in the two organisms.
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50. |
( 1994 ) Structure of PvuII endonuclease with cognate DNA. PMID : 8076590 : PMC : PMC395312 Abstract >>
We have determined the structure of PvuII endonuclease complexed with cognate DNA by X-ray crystallography. The DNA substrate is bound with a single homodimeric protein, each subunit of which reveals three structural regions. The catalytic region strongly resembles structures of other restriction endonucleases, even though these regions have dissimilar primary sequences. Comparison of the active site with those of EcoRV and EcoRI endonucleases reveals a conserved triplet sequence close to the reactive phosphodiester group and a conserved acidic pair that may represent the ligands for the catalytic cofactor Mg2+. The DNA duplex is not significantly bent and maintains a B-DNA-like conformation. The subunit interface region of the homodimeric protein consists of a pseudo-three-helix bundle. Direct contacts between the protein and the base pairs of the PvuII recognition site occur exclusively in the major groove through two antiparallel beta strands from the sequence recognition region of the protein. Water-mediated contacts are made in the minor grooves to central bases of the site. If restriction enzymes do share a common ancestor, as has been proposed, their catalytic regions have been very strongly conserved, while their subunit interfaces and DNA sequence recognition regions have undergone remarkable structural variation.
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51. |
( 1994 ) The (2R)-hydroxycarboxylate-viologen-oxidoreductase from Proteus vulgaris is a molybdenum-containing iron-sulphur protein. PMID : 8026480 : DOI : 10.1111/j.1432-1033.1994.tb18954.x Abstract >>
An oxidoreductase with an extremely broad substrate specificity reducing reversibly 2-oxocarboxylates at the expense of reduced artificial redox mediators to (2R)-hydroxycarboxylates has been purified to a specific activity of up to 1800 mumol.min-1.mg-1 for the reduction of phenylpyruvate. The membrane-bound non-pyridine nucleotide-dependent enzyme appears in the form of various oligomers of the 80-kDa monomer. The isoelectric point is 5.1. Based on a molecular mass of 80 kDa the enzyme contains up to one molybdenum, four iron and four sulphur atoms. After growth on 99Mo-labelled molybdate, enzyme and radioactivity coincided as shown by gel electrophoresis. Permanganate oxidation delivers 0.7 mol pterin-6-carboxylic acid. The molybdenum cofactor is a mononucleotide. The enzyme is inhibited by cyanide. The first 20 amino acids have been determined. The enzyme belongs to the rare group of molybdoenzymes which possess no further prosthetic groups than the iron-sulphur clusters.
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52. |
( 1994 ) Molecular cloning and expression of a novel hydroxymethylcytosine-specific restriction enzyme (PvuRts1I) modulated by glucosylation of DNA. PMID : 8078071 : DOI : 10.1006/jmbi.1994.1556 Abstract >>
The kanamycin resistance plasmid Rts1 restricts the growth of bacteriophage T2, T4 and T6. The DNA of these phage contains hydroxymethylcytosine (HMC) in place of regular cytosine and is modified by glucosylation. When HMC is not glucosylated, as in the DNA of glucosyl transferase-deficient T4 phage, this restriction becomes less apparent, a phenomenon not observed with any other known restriction systems. On the other hand, glucosylation of HMC in T6 phage leads to a less efficient restriction, while restriction of bacteriophage T2 remains unchanged. The modulating effect of glucose cannot be seen when cells contain a large amount of this enzyme, as in the case when multiple copies of its determinant are present in the cells. T-odd phage and bacteriophage lambda are not restricted by Rts1 suggesting that the restriction is specific to DNA containing HMC. The restriction phenotype is due to a single gene coding for a polypeptide of 293 amino acids. This enzyme has been named PvuRts1I. A gene with the sequence motifs similar to modification enzymes was found upstream of the gene coding for PvuRts1I. This gene, however, neither modifies the restriction phenotype of PvuRts1I, nor codes for detectable modification enzyme. T4 mutants with increased resistance to PvuRts1I appear to have deficiency in their beta-glucosyl transferase enzyme.
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53. |
( 1994 ) A common system controls the induction of very different genes. The class-A beta-lactamase of Proteus vulgaris and the enterobacterial class-C beta-lactamase. PMID : 7957242 : DOI : 10.1111/j.1432-1033.1994.tb20036.x Abstract >>
Among the Enterobacteriaceae, Proteus vulgaris is exceptional in the inducible production of a 29-kDa beta-lactamase (cefuroximase) with an unusually high activity towards the beta-lactamase-stable oximino-cephalosporins (e.g. cefuroxime and cefotaxime). Sequencing of the corresponding gene, cumA, showed that the derived CumA beta-lactamase belonged to the molecular class A. The structural gene was under the direct control of gene cumR, which was transcribed backwards and whose initiation codon was 165 bp away from that of the beta-lactamase gene. This resembled the arrangement of structural and regulator genes ampC and ampR of the 39-kDa molecular-class-C beta-lactamase AmpC present in many enterobacteria. Moreover, cloned genes ampD and ampG for negative modulation and signal transduction of AmpC beta-lactamase induction, respectively, were also able to restore constitutively CumA overproducing and non-inducible P. vulgaris mutants to the inducible, wild-type phenotype. The results indicate that controls of the induction phenomena are equivalent for the CumA and AmpC beta-lactamase. Very different structural genes can thus be under the control of identical systems.
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54. |
( 1994 ) Chromosomally encoded cephalosporin-hydrolyzing beta-lactamase of Proteus vulgaris RO104 belongs to Ambler's class A. PMID : 8043607 : DOI : 10.1016/0167-4838(94)90048-5 Abstract >>
Proteus vulgaris RO104 strain produces a chromosomally encoded beta-lactamase that confers resistance to various beta-lactam antibiotics including methoxyimino third-generation cephalosporins. The beta-lactamase hydrolyzes first- and second-generation cephalosporins efficiently and cefotaxime to a lesser extent. Catalytic activity is inhibited by low concentrations of clavulanic acid and sulbactam. By its broad-spectrum substrate profile, beta-lactamase of Proteus vulgaris RO104 belongs to the group 2e defined by Bush. The protein purified to homogeneity by a four-step procedure was characterized by a pI of 8.31 and a specific activity of 1200 U/mg. The beta-lactamase was digested by trypsin, endoproteinase Asp-N and chymotrypsin. Amino-acid sequence determinations of the resulting peptides allowed the alignment of the 271 amino-acid residues of the protein which did not contain any cysteine residue. From amino-acid sequence comparisons, Proteus vulgaris RO104 beta-lactamase was found to share about 68% identity with the chromosomally mediated beta-lactamases of Klebsiella oxytoca D488 and E23004. Therefore, the cephalosporin-hydrolyzing beta-lactamase of Proteus vulgaris RO104 belongs to Ambler's class A.
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55. |
( 1993 ) Genetic variation in VP7 gene of human rotavirus serotype 1 (G1 type) isolated in Japan and China. PMID : 8249305 : DOI : 10.1006/viro.1993.1663 Abstract >>
Sequence analysis of the gene encoding the major neutralization glycoprotein (VP7) was performed on 12 human isolates of serotype 1 of rotavirus in Japan and China. They were examined for genetic variations among serotype 1 isolates. Comparative studies of their nucleotide and deduced amino acid sequences between the 12 isolates and the Wa strain revealed an overall homology of more than 92 and 96%, respectively. Higher degrees of homologies were observed between Wa and 2 strains (K1 and K2) in Tokyo, 1979-1980, than between Wa and recent isolated strains in Tokyo and in China. In our isolates, a total of 16 amino acid residues frequently converted to another amino acid. Six amino acid residues belonging to the major neutralizing epitope regions (B, D, and E in this communication) frequently converted. From these data three subtypes (subtypes A, B, and intermediate) were suggested to be divided. Whether these differences are an important mechanism in the epidemiology of rotaviruses requires further investigation.
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56. |
( 1994 ) Replacement of serine 237 in class A beta-lactamase of Proteus vulgaris modifies its unique substrate specificity. PMID : 8060986 : DOI : 10.1021/bi00199a049 Abstract >>
The chromosomal beta-lactamase gene of Proteus vulgaris K1 was cloned and sequenced. The gene comprises 813 nucleotides and codes for the mature enzyme of 29,655 Da, comprising 271 amino acids. The K1 beta-lactamase showed 30-70% similarity, in the overall amino acid sequence, to class A beta-lactamases of Gram-negative bacteria. However, the K1 beta-lactamase differs from most class A enzymes in having a unique substrate specificity as a cephalosporinase, its spectrum extending to even oxyiminocephalosporins. To clarify the relationship between its unique substrate specificity and specific amino acid residues, alignment of the amino acid sequence of the K1 beta-lactamase with those of class A beta-lactamases was performed, and Ala104 and Ser237 were found to be candidates. Ala104 and Ser237 were replaced with glutamic acid and alanine, respectively, which are commonly found in other class A beta-lactamases. The substitution at position 104 had no effect on the enzyme activity or the substrate specificity. The amino acid replacement at position 237, however, reduced the kcat/Km value for an oxyiminocephalosporin (cefuroxime) to 17% of that in the case of the wild-type enzyme, whereas the mutant enzyme showed a higher kcat/Km value for benzylpenicillin, 3 times, than that of the wild-type enzyme. These results indicated that Ser237 is one of the residues responsible for the unique substrate specificity of the P. vulgaris beta-lactamase.
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57. |
Athanasiadis A,
Vlassi M,
Kotsifaki D,
Tucker PA,
Wilson KS,
Kokkinidis M,
( 1994 ) Crystal structure of PvuII endonuclease reveals extensive structural homologies to EcoRV. PMID : 7664066 : Abstract >>
The crystal structure of the dimeric PvuII restriction endonuclease (R.PvuII) has been determined at a resolution of 2.4A. The protein has a mixed alpha/beta architecture and consists of two subdomains. Despite a lack of sequence homology, extensive structural similarities exist between one R.PvuII subdomain and the DNA-binding subdomain of EcoRV endonuclease (R.EcoRV); the dimerization subdomains are unrelated. Within the similar domains, flexible segments of R.PvuII are topologically equivalent to the DNA-binding turns of R.EcoRV; potential catalytic residues can be deduced from the structural similarities to R.EcoRV. Conformational flexibility is important for the interaction with DNA. A possible classification of endonuclease structures on the basis of the positions of the scissile phosphates is discussed.
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58. |
Ishida H,
Fuziwara H,
Kaibori Y,
Horiuchi T,
Sato K,
Osada Y,
( 1995 ) Cloning of multidrug resistance gene pqrA from Proteus vulgaris. PMID : 7726514 : DOI : 10.1128/aac.39.2.453 PMC : PMC162559 Abstract >>
The multiple antibiotic resistance gene pqrA was cloned from the chromosomal DNA of a clinical isolate of Proteus vulgaris 881051 into Escherichia coli KY2563. The MICs of quinolones tetracycline, cephalosporin, and chloramphenicol for transformant strain DNS7020 were from 8 to 32 times higher than those for the parent strain, KY2563. The level of expression of outer membrane protein F (OmpF) by DNS7020 was lower than that of KY2563 but not as low as that of an OmpF-deficient control strain. The 1.4-kb fragment containing the pqrA gene had an open reading frame encoding a polypeptide of 122 amino acid residues with a molecular weight of about 14,000, which was consistent with the experimental value identified by the Maxicell method. The putative PqrA polypeptide showed significant amino acid sequence similarity to the E. coli proteins SoxS and MarA. These polypeptides are strongly conserved in predicted helix-turn-helix DNA binding domains. The MarA protein, which is responsible for multiple antibiotic resistance in E. coli, also decreases OmpF expression. Moreover, the SoxS protein, which is characterized as a superoxide response regulon of E. coli, has also been shown to increase resistance to many structurally unrelated antibiotics. The soxS gene increases superoxide dismutase levels in addition to decreasing OmpF expression. The expression level of superoxide dismutase with DNS7020 was about 1.5 times higher than that with KY2563. These findings suggest that the pqrA gene in P. vulgaris confers multidrug resistance in a way similar to that of the soxS and marA genes in E. coli.
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59. |
Mollet B,
Iida S,
Shepherd J,
Arber W,
( 1983 ) Nucleotide sequence of IS26, a new prokaryotic mobile genetic element. PMID : 6312419 : DOI : 10.1093/nar/11.18.6319 PMC : PMC326375 Abstract >>
The DNA sequence of a new IS element, the IS26, is 820 bp long and carries 14 bp perfect terminal inverted repeats. Upon integration, IS26 generates an 8 bp duplication of its target sequence. A large open reading frame within IS26 could code for a protein of 234 amino acids. On its reverse strand, IS26 also carries one large open reading frame, 591 bp long, which contains no stop codon within IS26.
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60. |
Sacerdot C,
Dessen P,
Hershey JW,
Plumbridge JA,
Grunberg-Manago M,
( 1984 ) Sequence of the initiation factor IF2 gene: unusual protein features and homologies with elongation factors. PMID : 6096856 : DOI : 10.1073/pnas.81.24.7787 PMC : PMC392237 Abstract >>
The gene for protein synthesis initiation factor IF2 in Escherichia coli, infB, is located downstream from nusA on the same operon. We sequenced about 3 kilobases of DNA beginning within nusA and including the entire infB structural gene plus another 392 bases downstream. This region contains no obvious strong promoter signals, but a possible transcriptional termination or pausing site occurs downstream from infB. The putative initiator codon for IF2 alpha (97,300 daltons) is AUG; that for IF2 beta (79,700 daltons) is GUG, located 471 bases downstream in the same reading frame. The codon usage for IF2 is typical of other highly expressed proteins in E. coli and suggests that IF2 mRNA is efficiently translated. IF2 alpha contains two adjacent regions (residues 104-155 and 167-214) that are rich in alanine and charged amino acids and that show striking periodicities in their sequences. These regions may alternate between flexible and helical conformations, thereby drawing together the NH2-terminal and COOH-terminal globular domains of the factor as IF2 interacts with ribosomes or tRNA. Certain regions of the DNA and protein sequences of IF2 share strong homologies with elongation factor EF-Tu and lesser homology with EF-G. In particular, a region of EF-Tu implicated in GTP binding contains sequences and secondary structure that are conserved in IF2. The homologies indicate that the genes for IF2 and the elongation factors are derived at least in part from a common ancestor.
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61. |
Gingeras TR,
Greenough L,
Schildkraut I,
Roberts RJ,
( 1981 ) Two new restriction endonucleases from Proteus vulgaris. PMID : 6272209 : DOI : 10.1093/nar/9.18.4525 PMC : PMC327455 Abstract >>
Two novel sequence-specific endonucleases have been isolated from Proteus vulgaris, ATCC 13315. PvuI recognizes the sequence: 5' C G A T decrease C G 3' 3' G C increase T A G C 5' and PvuII recognizes the sequence: 5' C A G decrease C T G 3' 3' G T C increase G A C 5' and cleave as indicated by the arrow (decrease). PvuI is an isoschizomer of XorII, RshI, and XniI. No enzyme with the specificity of PvuII has been described previously.
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62. |
Dammel CS,
Noller HF,
( 1995 ) Suppression of a cold-sensitive mutation in 16S rRNA by overexpression of a novel ribosome-binding factor, RbfA. PMID : 7535280 : DOI : 10.1101/gad.9.5.626 Abstract >>
A novel 15-kDa protein, RbfA, has been identified by virtue of its ability to act as a high copy suppressor of a previously characterized dominant cold-sensitive mutation (C23U) in 16S rRNA. RbfA is found associated with free 30S ribosomal subunits, but not with 70S ribosomes or polysomes, and is essential for maximal cell growth, particularly at low temperatures. Cells lacking RbfA in a wild-type rRNA background exhibit a cold-sensitive phenotype that is strikingly similar to that of the cold-sensitive C23U rRNA mutant. The observed patterns of allele specificity of suppression and synthetic lethality in cells containing an RbfA knockout in combination with various 16S rRNA mutations suggests that RbfA interacts with the 5'-terminal helix region of 16S rRNA, possibly during a late step of 30S maturation.
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63. |
Kamio Y,
Terawaki Y,
( 1983 ) Nucleotide sequence of an incompatibility region of mini-Rts1 that contains five direct repeats. PMID : 6309744 : PMC : PMC217815 Abstract >>
The plasmid mini-Rts1, consisting of an EcoRI/HindIII fragment of about 1.8 kilobases (kb), contains an incompatibility determinant in its EcoRI/AccI region (0.5 kb). The nucleotide sequence of this incompatibility fragment was determined. A most striking feature of the sequence is the presence of five 24-base pair direct repeats. Four out of the five repeating units, which are contained in a 0.2-kb EcoRI/HincII fragment, were cloned en bloc in pACYC184 and found to express Rts1-specific incompatibility. In addition, the copy number of the mini-Rts1 plasmid appeared to be increased threefold upon removal of the 0.2-kb incompatibility region (incI) from the plasmid. This deletion derivative of mini-Rts1, as well as mini-Rts1, was maintained stably at 37 degrees C, but was cured at a high frequency at 42 degrees C. A possible role of the repeated nucleotide sequence was discussed. By subcloning the mini-Rts1 DNA, a second inc determinant (incII) was found on the AccI fragment, which is contiguous to the 0.5-kb EcoRI/AccI fragment.
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64. |
Terawaki Y,
Kakizawa Y,
Takayasu H,
Yoshikawa M,
( 1968 ) Temperature sensitivity of cell growth in Escherichia coli associated with the temperature sensitive R(KM) factor. PMID : 4876466 : DOI : 10.1038/219284a0 Abstract >>
N/A
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65. |
Adams GM,
Blumenthal RM,
( 1995 ) Gene pvuIIW: a possible modulator of PvuII endonuclease subunit association. PMID : 7607491 : DOI : 10.1016/0378-1119(94)00704-v Abstract >>
The PvuII restriction-modification system has been found to contain three genes which code for a DNA methyltransferase (MTase), a restriction endonuclease (ENase) and a small protein required for expression of the ENase-encoding gene. In addition, there is a small open reading frame (ORF) within and opposite to the MTase-encoding gene. The region containing this ORF is transcribed, and the ORF has an excellent Shine-Dalgarno sequence with an ATA start codon. A closely related ORF is present in the SmaI system. The 28-amino-acid (aa) predicted peptide from the PvuII ORF resembles a region of the PvuII ENase at the dimer interface. We have cloned this ORF, giving it an ATG start codon and putting it under the control of an inducible promoter: induction leads to a slight but significant decrease in restriction of bacteriophage lambda. We also have obtained the 28-aa synthetic peptide, and are exploring the possibility that it modulates ENase subunit association. While this peptide has no detectable effect on dimeric PvuII ENase, it inhibits renaturation of urea-denatured ENase in a concentration-dependent manner. The ORF may represent an additional safeguard during establishment of the PvuII restriction-modification system in a new host cell, helping to delay the appearance of active ENase dimers, while the MTase accumulates and protects the host chromosome.
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66. |
Ishii S,
Ihara M,
Maekawa T,
Nakamura Y,
Uchida H,
Imamoto F,
( 1984 ) The nucleotide sequence of the cloned nusA gene and its flanking region of Escherichia coli. PMID : 6326058 : DOI : 10.1093/nar/12.7.3333 PMC : PMC318749 Abstract >>
The nucleotide sequence of the promoter-proximal portion of the nusA operon including the genes for tRNAMetf2, a 15 kilodalton protein and the initial portion of the nusA gene has been determined previously (1). Here, we report the sequence for the entire nusA gene and its flanking region. The open reading frame, consisting of 1,482 nucleotides, was identified as that of the nusA protein on the basis of agreement of the amino acid sequence deduced from the DNA sequence with the N-terminal sequence of the purified nusA protein. The molecular weight of 54,417 daltons calculated for the 494 amino acid polypeptide is significantly lower than that determined previously by SDS polyacrylamide gel analysis. The nusA gene is immediately followed by another open reading frame encoding a polypeptide of at least 22 amino acids, which was identified as the initial portion of the infB structural gene. In the spacer region of 24 base pairs between the nusA and infB structural genes there is no significant DNA sequence that fits the canonical transcriptional termination signal or promoter sequence. We suggest, therefore, that the genes for tRNAMetf2, a 15 kilodalton protein, the nusA protein and IF2 alpha, aligned in this order, are co-transcribed.
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67. |
Calvin Koons MD,
Blumenthal RM,
( 1995 ) Characterization of pPvu1, the autonomous plasmid from Proteus vulgaris that carries the genes of the PvuII restriction-modification system. PMID : 7607530 : DOI : 10.1016/0378-1119(94)00618-3 Abstract >>
Plasmid pPvu1 from Proteus vulgaris carries the genes of the PvuII restriction-modification system [Blumenthal et al., J. Bacteriol. 164 (1985) 501-509]. This report focuses on physical and functional features of the 4.84-kb plasmid, which shows a composite genetic architecture. Plasmid pPvu1 has a replication origin and an incompatibility locus that each function in Escherichia coli, and an apparent cer recombination site. The replication origin includes a possible RNA I gene, and the incompatibility locus closely resembles a rom gene. These loci show substantial sequence similarity to corresponding loci from the E. coli plasmids P15A, ColEI and pSC101, and closely flank the PvuII genes. The close association between a recombinational locus and the PvuII genes has implications for their mobility.
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68. |
Kamio Y,
Tabuchi A,
Itoh Y,
Katagiri H,
Terawaki Y,
( 1984 ) Complete nucleotide sequence of mini-Rts1 and its copy mutant. PMID : 6325393 : PMC : PMC215413 Abstract >>
The nucleotide sequence of the whole mini-Rts1 genome consisting of 1,855 base pairs was determined. In addition to the cluster of five 24-base-pair direct repeats previously detected (Y. Kamio and Y. Terawaki, J. Bacteriol. 155:1185-1191, 1983), another cluster of three 21-base-pair direct repeats was found. All eight repeats were located in one direction and contained a consensus sequence TTCCCCPyPyPuPuCACACACC. Between the two clusters, a large open reading frame that could encode a 32,980-dalton polypeptide consisting of 288 amino acids was assigned. The molecular size predicted from the amino acid composition was close to the value of a unique mini-Rts1 product, the RepA protein, newly determined in minicells. A copy mutant of mini-Rts1 obtained in vitro by hydroxylamine treatment contained two-base-pair substitutions, one of which was located in the RepA protein coding region, and the other was close to the region where the oriC homologous sequences exist.
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69. |
Sato N,
Shimada M,
Nakajima H,
Oda H,
Kimura S,
( 1994 ) Cloning and expression in Escherichia coli of the gene encoding the Proteus vulgaris chondroitin ABC lyase. PMID : 7512814 : Abstract >>
The structural gene encoding chondroitin ABC lyase from Proteus vulgaris was cloned and sequenced. This gene consists of a single open reading frame of 3,063 bp, including a sequence (72 bp) for a possible secretory protein leader peptide, preceded by a Shine-Dalgarno ribosomal binding site. Promoter-like and rho-independent terminator sequences were detected upstream and downstream of the open reading frame, respectively. The G+C content of the coding region was 38.6%. The transcription startpoint was located 41-bp upstream of the initiation codon (ATG). Chondroitin ABC lyase is composed of 997 amino acids, and has a relative molecular mass of 112,635. When the 5.2-kb fragment containing the 1.2-kb upstream from the gene was inserted into pSTV29, and cloned in Escherichia coli, chondroitin ABC lyase was induced in the medium containing chondroitin-6-sulfate as the carbon source. On the other hand, when a 4.2-kb fragment containing only 0.2 kb upstream was inserted into pSTV29(pCHS delta 6), and pCHS delta 6 was introduced into E. coli, the enzyme was constitutively produced, even in medium containing glucose as the carbon source. By immunoblot analysis, the polypeptide synthesized by E. coli cells carrying pCHS delta 6 appeared to be the same as that of the purified chondroitin ABC lyase from P. vulgaris.
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70. |
Moisander PH,
Shoemaker KM,
Daley MC,
McCliment E,
Larkum J,
Altabet MA,
( 2018 ) Copepod-Associated Gammaproteobacteria Respire Nitrate in the Open Ocean Surface Layers. PMID : 30369912 : DOI : 10.3389/fmicb.2018.02390 PMC : PMC6194322 Abstract >>
Microbial dissimilatory nitrate reduction to nitrite, or nitrate respiration, was detected in association with copepods in the oxygenated water column of the North Atlantic subtropical waters. These unexpected rates correspond to up to 0.09 nmol N copepod-1 d-1 and demonstrate a previously unaccounted nitrogen transformation in the oceanic pelagic surface layers. Genes and transcripts for both the periplasmic and membrane associated dissimilatory nitrate reduction pathways (Nap and Nar, respectively) were detected. The napA genes and transcripts were closely related with sequences from several clades of Vibrio sp., while the closest relatives of the narG sequences were Pseudoalteromonas spp. and Alteromonas spp., many of them representing clades only distantly related to previously described cultivated bacteria. The discovered activity demonstrates a novel Gammaproteobacterial respiratory role in copepod association, presumably providing energy for these facultatively anaerobic bacteria, while supporting a reductive path of nitrogen in the oxygenated water column of the open ocean.
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71. |
Koronakis V,
Hughes C,
( 1988 ) Identification of the promoters directing in vivo expression of hemolysin genes in Proteus vulgaris and Escherichia coli. PMID : 3065612 : DOI : 10.1007/bf00333404 Abstract >>
The hemolytic activity of Escherichia coli and Proteus vulgaris is determined by common contiguous genes encoding synthesis (hly C, hly A) and specific secretion (hly B, hly D) of active hemolysin. Nevertheless, the hly C-proximal DNA sequences directing production of the homologous hemolysins by the recombinant DNAs P. vulgaris pVU763-709 and E. coli pANN202-312 showed no extensive homology. Primer extension and S1 nuclease protection were used to define in the two sequences the 5' termini of hly transcripts synthesized in vivo and thus to infer the active hly promoters sequences. The E. coli hly C upstream region contained three separate promotors directing in vivo hly transcription, while the corresponding transcription of the P. vulgaris hly operon originated from a single distinct promotor, the -35 and -10 sequences of which formed part of an inverted repeat sequence. Elevated hemolytic activity caused by upstream Tn5 insertions in pVU763-709 resulted from increased transcription from this promotor.
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72. |
Cole ST,
( 1987 ) Nucleotide sequence and comparative analysis of the frd operon encoding the fumarate reductase of Proteus vulgaris. Extensive sequence divergence of the membrane anchors and absence of an frd-linked ampC cephalosporinase gene. PMID : 3308458 : DOI : 10.1111/j.1432-1033.1987.tb13362.x Abstract >>
The fumarate reductase of Escherichia coli is a bioenergetically important membrane-bound flavoenzyme consisting of four subunits. A and B comprise a membrane-extrinsic catalytic domain whereas C and D are hydrophobic polypeptides which link the catalytic centres to the electron-transport chain. The nucleotide sequence of the frd operon encoding the fumarate reductase of the distantly related bacterium, Proteus vulgaris has been determined and used to predict the primary structures of the respective subunits. Extensive amino acid sequence identity (greater than 80%) was found between the fumarate reductase A and B subunits of P. vulgaris and E. coli. In contrast, the primary structures of the P. vulgaris and E. coli C and D proteins are much less closely related (about 60% homology) although the overall hydrophobicity of their three membrane-spanning segments has been conserved. In most enteric bacteria, the frd operon is followed by genes, ampR and/or ampC, required for the genetic regulation and biosynthesis of a cephalosporinase. The corresponding region of the P. vulgaris genome is occupied by an operon (orf A'BCD) containing at least four genes which are clearly unrelated to the ampC system. Intriguingly the primary structures of the OrfA and OrfD proteins suggest that, like fumarate reductase, they may be components of a membrane-bound enzyme complex involved in energy metabolism.
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73. |
Sor F,
Nomura M,
( 1987 ) Cloning and DNA sequence determination of the L11 ribosomal protein operon of Serratia marcescens and Proteus vulgaris: translational feedback regulation of the Escherichia coli L11 operon by heterologous L1 proteins. PMID : 3323840 : DOI : 10.1007/bf00337758 Abstract >>
In Escherichia coli the genes encoding ribosomal proteins L11 (rplK) and L1 (rplA) are contained in a single operon and their expression is translationally regulated by L1. We have cloned the homologous genes from two other enterobacteria, Serratia marcescens and Proteus vulgaris, and determined nucleotide sequences. The genes are organized in a similar way to that found in E. coli. Conservation of nucleotide and amino acid sequences relative to E. coli in the protein coding regions are 89.2% and 94.7% for S. marcescens, and 80.9% and 88.6% for P. vulgaris. Nucleotide sequences of L11 mRNA leader regions were strongly conserved for the primary as well as the secondary structures in the L1 target site. We have also constructed plasmids carrying E. coli L11 and either P. vulgaris or S. marcescens L1 genes fused to the lac promoter, with or without the E. coli leader containing the L1 target site. Induction of transcription of the operons possessing the E. coli mRNA leader did not lead to overproduction of L11, indicating translational regulation of the chimeric operon as well as the chromosomal operon by the plasmid encoded L1. Repression of the chromosomal L11 operon was directly demonstrated upon induction of the chimeric operons without the leader, which also lack the L11 initiation signal but have a mutation allowing L1 translation.(ABSTRACT TRUNCATED AT 250 WORDS)
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74. |
Koronakis V,
Koronakis E,
Hughes C,
( 1988 ) Comparison of the haemolysin secretion protein HlyB from Proteus vulgaris and Escherichia coli; site-directed mutagenesis causing impairment of export function. PMID : 3054490 : DOI : 10.1007/bf00339631 Abstract >>
The hlyB secretion genes of Proteus vulgaris and Escherichia coli showed 81% nucleotide homology and similar E. coli-atypical codon usage. The deduced protein sequences differed in 54 of 707 residues and shared a previously unreported sequence which corresponds to the ATP-binding motif characteristic of protein kinases. The motif was also conserved in the HlyB of Morganella morganii. Of 4 oligonucleotide-directed substitutions introduced into the putative E. coli HlyB motif, 2 non-conservative changes caused radical reductions in the export of active haemolysin protein.
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75. |
Tanaka M,
Okawa N,
Mori K,
Suyama Y,
Kaji A,
( 1988 ) Nucleotide sequence of an Rts1 fragment causing temperature-dependent instability. PMID : 3277947 : DOI : 10.1128/jb.170.3.1175-1182.1988 PMC : PMC210889 Abstract >>
Rts1 is a multiphenotypic drug resistance plasmid which is eliminated from host bacteria at 42 degrees C but not at 32 degrees C. This phenotype has been called temperature-dependent instability (Tdi). We determined the nucleotide sequence of the Rts1 DNA b' segment which causes this phenotype. Within this 786-base-pair segment, several open reading frames (ORFs) were found, including one which encodes a protein with a molecular weight of 16,000. A protein approximately corresponding to this protein is expressed in Escherichia coli minicells harboring plasmids containing the b' segment. In addition, we found the chi sequence at 112 bases proximal to this ORF. Temperature-dependent elimination due to this segment was not observed in the RecA strain of E. coli, but the RecB protein was not required for expression of this phenotype. We constructed various deletion derivatives and found that three portions, the region containing the chi (nucleotides 1 to 24), ORF (nucleotides 25 to 546), and tail (nucleotides 631 to 786) sequences are necessary for Tdi activity. Site-directed mutagenesis studies indicated that ORF I is required for Tdi expression.
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76. |
Yu X,
Torzewska A,
Zhang X,
Yin Z,
Drzewiecka D,
Cao H,
Liu B,
Knirel YA,
Rozalski A,
Wang L,
( 2017 ) Genetic diversity of the O antigens of Proteus species and the development of a suspension array for molecular serotyping. PMID : 28817637 : DOI : 10.1371/journal.pone.0183267 PMC : PMC5560731 Abstract >>
Proteus species are well-known opportunistic pathogens frequently associated with skin wound and urinary tract infections in humans and animals. O antigen diversity is important for bacteria to adapt to different hosts and environments, and has been used to identify serotypes of Proteus isolates. At present, 80 Proteus O-serotypes have been reported. Although the O antigen structures of most Proteus serotypes have been identified, the genetic features of these O antigens have not been well characterized. The O antigen gene clusters of Proteus species are located between the cpxA and secB genes. In this study, we identified 55 O antigen gene clusters of different Proteus serotypes. All clusters contain both the wzx and wzy genes and exhibit a high degree of heterogeneity. Potential functions of O antigen-related genes were proposed based on their similarity to genes in available databases. The O antigen gene clusters and structures were compared, and a number of glycosyltransferases were assigned to glycosidic linkages. In addition, an O serotype-specific suspension array was developed for detecting 31 Proteus serotypes frequently isolated from clinical specimens. To our knowledge, this is the first comprehensive report to describe the genetic features of Proteus O antigens and to develop a molecular technique to identify different Proteus serotypes.
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77. |
Mollet B,
Clerget M,
Meyer J,
Iida S,
( 1985 ) Organization of the Tn6-related kanamycin resistance transposon Tn2680 carrying two copies of IS26 and an IS903 variant, IS903. B. PMID : 2989253 : PMC : PMC219079 Abstract >>
The kanamycin resistance transposon Tn2680, which originates from the R plasmid Rts1, is homologous to Tn6 and carries two directly repeated copies of IS26, one at each end. The kanamycin resistance gene codes for type I aminoglycoside-3'-phosphotransferase. Tn2680 also contains, in the middle of the transposon, an additional IS element homologous to IS903. This element, designated IS903.B, is flanked by a 9-base-pair direct target duplication. A novel kanamycin resistance transposon. Tn2681, can be generated from Tn2680 by IS903.B-mediated cointegration and subsequent reciprocal recombination between the directly repeated IS26 sequences. Tn2681 carries a single IS26 element in the middle of the transposon and is flanked by two directly repeated copies of IS903.B. Possible evolutionary relationships between Tn2680 and other kanamycin resistance transposons such as Tn903 and Tn2350 are discussed, based on the gene organization and DNA sequences.
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78. |
Blumenthal RM,
Gregory SA,
Cooperider JS,
( 1985 ) Cloning of a restriction-modification system from Proteus vulgaris and its use in analyzing a methylase-sensitive phenotype in Escherichia coli. PMID : 2997113 : PMC : PMC214280 Abstract >>
A 4.84-kilobase-pair plasmid was isolated from Proteus vulgaris (ATCC 13315) and cloned into the plasmid vector pBR322. Plasmid pBR322 contains substrate sites for the restriction endonucleases PvuI and PvuII. The recombinant plasmids were resistant to in vitro cleavage by PvuII but not PvuI endonuclease and were found to cause production of PvuII endonuclease or methylase activity or both in Escherichia coli HB101. The approximate endonuclease and methylase gene boundaries were determined through subcloning, Bal 31 resection, insertional inactivation, DNA-dependent translation, and partial DNA sequencing. The two genes are adjacent and appear to be divergently transcribed. Most E. coli strains tested were poorly transformed by the recombinant plasmids, and this was shown by subcloning and insertional inactivation to be due to the PvuII methylase gene. At a low frequency, stable methylase-producing transformants of a methylase-sensitive strain were obtained, and efficiently transformed cell mutants were isolated from them.
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79. |
Butkus V,
Klimasauskas S,
Petrauskiene L,
Maneliene Z,
Lebionka A,
Janulaitis A,
( 1987 ) Interaction of AluI, Cfr6I and PvuII restriction-modification enzymes with substrates containing either N4-methylcytosine or 5-methylcytosine. PMID : 3040102 : DOI : 10.1016/0167-4781(87)90078-9 Abstract >>
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80. |
( 2012 ) Integrons, �]-lactamase and qnr genes in multidrug resistant clinical isolates of Proteus mirabilis and P. vulgaris. PMID : 23030307 : DOI : 10.1111/j.1600-0463.2012.02923.x Abstract >>
Thirty-three isolates of Proteus mirabilis and two P. vulgaris were examined for their antimicrobial resistance, the presence of integrons with regard to gene cassette content, and genetic determinants of �]-lactam and low-level quinolone resistance. Integrons were detected in 23 (69.7%) P. mirabilis isolates; six (18.2%) of them had class 1 integrons, 11 (33.3%) possessed class 2 integrons and six (18.2%) carried integrons of both classes. One P. vulgaris strain possessed class 1 and class 2 integrons. The presence of integrons was associated with increased frequency of resistance to gentamicin, ciprofloxacin, sulfamethoxazole and co-trimoxazole. Moreover, integron presence was associated with increased resistance range in terms of both the number of antimicrobials and the number of classes of antimicrobials to which a strain was resistant. Class 1 integrons contained aadA1, aadB-aadA1, dfrA1-aadA1, bla(PSE-1) -aadA1 and aacA4-orfA-orfB-aadA1 gene cassette arrays, whereas all class 2 integrons had a dfrA1-sat2-aada1 array. �]-lactamase genes not associated with integrons comprised bla(TEM-2) , bla(DHA-1) and bla(CMY-15) . Plasmid-mediated fluoroquinolone resistance was determined by qnrD and qnrS1 genes. This is the first report of P. vulgaris strains harbouring qnrD genes in Europe.
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81. |
( 1998 ) Identification and characterization of the fis operon in enteric bacteria. PMID : 9811652 : PMC : PMC107668 Abstract >>
The small DNA binding protein Fis is involved in several different biological processes in Escherichia coli. It has been shown to stimulate DNA inversion reactions mediated by the Hin family of recombinases, stimulate integration and excision of phage lambda genome, regulate the transcription of several different genes including those of stable RNA operons, and regulate the initiation of DNA replication at oriC. fis has also been isolated from Salmonella typhimurium, and the genomic sequence of Haemophilus influenzae reveals its presence in this bacteria. This work extends the characterization of fis to other organisms. Very similar fis operon structures were identified in the enteric bacteria Klebsiella pneumoniae, Serratia marcescens, Erwinia carotovora, and Proteus vulgaris but not in several nonenteric bacteria. We found that the deduced amino acid sequences for Fis are 100% identical in K. pneumoniae, S. marcescens, E. coli, and S. typhimurium and 96 to 98% identical when E. carotovora and P. vulgaris Fis are considered. The deduced amino acid sequence for H. influenzae Fis is about 80% identical and 90% similar to Fis in enteric bacteria. However, in spite of these similarities, the E. carotovora, P. vulgaris, and H. influenzae Fis proteins are not functionally identical. An open reading frame (ORF1) preceding fis in E. coli is also found in all these bacteria, and their deduced amino acid sequences are also very similar. The sequence preceding ORF1 in the enteric bacteria showed a very strong similarity to the E. coli fis P region from -53 to +27 and the region around -116 containing an ihf binding site. Both beta-galactosidase assays and primer extension assays showed that these regions function as promoters in vivo and are subject to growth phase-dependent regulation. However, their promoter strengths vary, as do their responses to Fis autoregulation and integration host factor stimulation.
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82. |
( 1997 ) Detection and speciation of bacteria through PCR using universal major cold-shock protein primer oligomers. PMID : 9439003 : Abstract >>
The detection of bacteria using PCR is a well-established diagnostic technique. However, conventional PCR requires the use of DNA primer oligomers that are specific to the target organism and, as a consequence, a sample can only be tested for the presence of that specific target. A significant advantage would be to probe a sample for the presence of any bacteria, followed by identification. To achieve this it is necessary to identify a DNA sequence common to all bacteria. Here we demonstrate that such a sequence may be that encoding the major cold-shock proteins. Using two universal PCR primer oligomers from conserved regions of these gene homologues, we have amplified a 200 base-pair DNA sequence from more than 30 diverse Gram-positive and Gram-negative bacteria, including representatives from the genera Aeromonas, Bacillus, Citrobacter, Enterobacter, Enterococcus, Escherichia, Klebsiella, Lactobacillus, Lactococcus, Listeria, Pediococcus, Photobacterium, Proteus, Salmonella, Shigella, Staphylococcus, Streptococcus, and Yersinia. Sequence analysis of the amplified products confirmed a high level of DNA homology. Significantly, however, there are sufficient nucleotide variations to allow the unique allocation of each amplified sequence to its parental bacterium.
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83. |
( 1998 ) Crystal structure of tryptophanase. PMID : 9551100 : DOI : 10.1006/jmbi.1997.1561 Abstract >>
The X-ray structure of tryptophanase (Tnase) reveals the interactions responsible for binding of the pyridoxal 5'-phosphate (PLP) and atomic details of the K+ binding site essential for catalysis. The structure of holo Tnase from Proteus vulgaris (space group P2(1)2(1)2(1) with a = 115.0 A, b = 118.2 A, c = 153.7 A) has been determined at 2.1 A resolution by molecular replacement using tyrosine phenol-lyase (TPL) coordinates. The final model of Tnase, refined to an R-factor of 18.7%, (Rfree = 22.8%) suggests that the PLP-enzyme from observed in the structure is a ketoenamine. PLP is bound in a cleft formed by both the small and large domains of one subunit and the large domain of the adjacent subunit in the so-called "catalytic" dimer. The K+ cations are located on the interface of the subunits in the dimer. The structure of the catalytic dimer and mode of PLP binding in Tnase resemble those found in aspartate amino-transferase, TPL, omega-amino acid pyruvate aminotransferase, dialkylglycine decarboxylase (DGD), cystathionine beta-lyase and ornithine decarboxylase. No structural similarity has been detected between Tnase and the beta 2 dimer of tryptophan synthase which catalyses the same beta-replacement reaction. The single monovalent cation binding site of Tnase is similar to that of TPL, but differs from either of those in DGD.
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