| 1. |
Nikolich MP,
Shoemaker NB,
Salyers AA,
( 1992 ) A Bacteroides tetracycline resistance gene represents a new class of ribosome protection tetracycline resistance. PMID : 1339256 : DOI : 10.1128/aac.36.5.1005 PMC : PMC188826 Abstract >>
The ribosome protection type of tetracycline resistance (Tcr) has been found in a variety of bacterial species, but the only two classes described previously, Tet(M) and Tet(O), shared a high degree of amino acid sequence identity (greater than 75%). Thus, it appeared that this type of resistance emerged recently in evolution and spread among different species of bacteria by horizontal transmission. We obtained the DNA sequence of a Tcr gene from Bacteroides, a genus of gram-negative, obligately anaerobic bacteria that is phylogenetically distant from the diverse species in which tet(M) and tet(O) have been found. The Bacteroides Tcr gene defines a new class of ribosome protection resistance genes, Tet(Q), and has a deduced amino acid sequence that was only 40% identical to Tet(M) or Tet(O). Like tet(M) and tet(O), tet(Q) appears to have spread by horizontal transmission, but only within the Bacteroides group.
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2. |
Ueda O,
Yoshimura F,
( 2003 ) Transposon-induced norfloxacin-sensitive mutants of Bacteroides thetaiotaomicron. PMID : 12636249 : DOI : 10.1111/j.1348-0421.2003.tb02781.x Abstract >>
To elucidate the mechanism of norfloxacin (a fluoroquinolone) resistance of Bacteroides thetaiotaomicron, a member of the B. fragilis group, we isolated transposon-induced mutants sensitive to this agent using Tn4351. Four norfloxacin-sensitive mutants showed reduced levels of resistance, at least, to ethidium bromide. Cloning and sequencing of three chromosomal fragments adjacent to Tn4351 from the mutants revealed that two partial open reading frames (orfs) were disrupted by a transposon. Amino acid sequences of partial orf products had strong homologies to those of Escherichia coli RecB and B. ovatus transketolase. Two mutants carried a recB homolog inserted by Tn4351 together with R751 (cointegration) and by itself (simple transposition) at the amino- and carboxyl-terminal portions, respectively. Since mutations in recB produce E. coli cells sensitive to DNA-damaging treatments by quinolones, it is concluded that decreases of the minimum inhibitory concentrations (MICs) of the agents for B. thetaiotaomicron resulted from disruption of the recB homolog. Another mutant carried a transketolase gene inserted by Tn4351. There is no reasonable explanation why disruption of the transketolase gene caused a decrease of the MIC of norfloxacin for this organism, although Streptococcus pneumoniae RecP related to DNA recombination was reported to be transketolase.
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3. |
Miyamae S,
Ueda O,
Yoshimura F,
Hwang J,
Tanaka Y,
Nikaido H,
( 2001 ) A MATE family multidrug efflux transporter pumps out fluoroquinolones in Bacteroides thetaiotaomicron. PMID : 11709306 : DOI : 10.1128/AAC.45.12.3341-3346.2001 PMC : PMC90835 Abstract >>
We cloned a gene, bexA, that codes for a multidrug efflux transporter from the chromosomal DNA of Bacteroides thetaiotaomicron ATCC 29741 by using an Escherichia coli DeltaacrAB DeltaacrEF mutant as a host. Although the initial recombinant construct contained other open reading frames, the presence of bexA alone was sufficient to confer to the E. coli host elevated levels of resistance to norfloxacin, ciprofloxacin, and ethidium bromide. Disruption of bexA in B. thetaiotaomicron made the strain more susceptible to norfloxacin, ciprofloxacin, and ethidium bromide, showing that this gene is expressed in this organism and functions as a multidrug efflux pump. The deduced BexA protein sequence was homologous to the protein sequence of Vibrio parahaemolyticus NorM, a multidrug efflux transporter, and thus, BexA belongs to the multidrug and toxic compound extrusion (MATE) family.
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4. |
Cho KH,
Cho D,
Wang GR,
Salyers AA,
( 2001 ) New regulatory gene that contributes to control of Bacteroides thetaiotaomicron starch utilization genes. PMID : 11717279 : DOI : 10.1128/JB.183.24.7198-7205.2001 PMC : PMC95569 Abstract >>
Bacteroides thetaiotaomicron uses starch as a source of carbon and energy. Early steps in the pathway of starch utilization, such as starch binding and starch hydrolysis, are encoded by sus genes, which have been characterized previously. The sus structural genes are expressed only if cells are grown in medium containing maltose or higher oligomers of glucose. Regulation of the sus structural genes is mediated by SusR, an activator that is encoded by a gene located next to the sus structural genes. A strain with a disruption in susR cannot grow on starch but can still grow on maltose and maltotriose. A search for transposon-generated mutants that could not grow on maltose and maltotriose unexpectedly located a gene, designated malR, which regulates expression of an alpha-glucosidase not controlled by SusR. Although a disruption in susR did not affect expression of the malR controlled gene, a disruption in malR reduced expression of the sus structural genes. Thus, MalR appears to participate with SusR in regulation of the sus genes. Results of transcriptional fusion assays and reverse transcription-PCR experiments showed that malR is expressed constitutively. Moreover, multiple copies of malR provided on a plasmid (5 to 10 copies per cell) more than doubled the amount of alpha-glucosidase activity in cell extracts. Our results demonstrate that the starch utilization system of B. thetaiotaomicron is controlled on at least two levels by the regulatory proteins SusR and MalR.
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5. |
Whittle G,
Hund BD,
Shoemaker NB,
Salyers AA,
( 2001 ) Characterization of the 13-kilobase ermF region of the Bacteroides conjugative transposon CTnDOT. PMID : 11472924 : DOI : 10.1128/AEM.67.8.3488-3495.2001 PMC : PMC93048 Abstract >>
The conjugative transposon CTnDOT is virtually identical over most of its length to another conjugative transposon, CTnERL, except that CTnDOT carries an ermF gene that is not found on CTnERL. In this report, we show that the region containing ermF appears to consist of a 13-kb chimera composed of at least one class I composite transposon and a mobilizable transposon (MTn). Although the ermF region contains genes also carried on Bacteroides transposons Tn4351 and Tn4551, it does not contain the IS4351 element which is found on these transposons. In CTnDOT, insertion of the ermF region occurred near a stem-loop structure at the end of orf2, an open reading frame located immediately downstream of the integrase (int) gene of CTnDOT, and in a region known to be important for excision of CTnERL and CTnDOT. The chimera that comprises the ermF region can apparently no longer excise and circularize, but it contains a functional mobilization region related to that described for the Bacteroides MTn Tn4399. Analysis of 19 independent Bacteroides isolates showed that the ermF region is located in the same position in all of the strains analyzed and that the compositions of the ermF region are almost identical in these strains. Therefore, it appears that CTnDOT-like elements present in community and clinical isolates of Bacteroides were derived from a common ancestor and proliferated in the diverse Bacteroides population.
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6. |
Cheng Q,
Sutanto Y,
Shoemaker NB,
Gardner JF,
Salyers AA,
( 2001 ) Identification of genes required for excision of CTnDOT, a Bacteroides conjugative transposon. PMID : 11532130 : DOI : 10.1046/j.1365-2958.2001.02519.x Abstract >>
Integrated self-transmissible elements called conjugative transposons have been found in many different bacteria, but little is known about how they excise from the chromosome to form the circular intermediate, which is then transferred by conjugation. We have now identified a gene, exc, which is required for the excision of the Bacteroides conjugative transposon, CTnDOT. The int gene of CTnDOT is a member of the lambda integrase family of recombinases, a family that also contains the integrase of the Gram-positive conjugative transposon Tn916. The exc gene was located 15 kbp from the int gene, which is located at one end of the 65 kbp element. The exc gene, together with the regulatory genes, rteA, rteB and rteC, were necessary to excise a miniature form of CTnDOT that contained only the ends of the element and the int gene. Another open reading frame (ORF) in the same operon and upstream of exc, orf3, was not essential for excision and had no significant amino acid sequence similarity to any proteins in the databases. The deduced amino acid sequence of the CTnDOT Exc protein has significant similarity to topoisomerases. A small ORF (orf2) that could encode a small, basic protein comparable with lambda and Tn916 excision proteins (Xis) was located immediately downstream of the CTnDOT int gene. Although Xis proteins are required for excision of lambda and Tn916, orf2 had no effect on excision of the element. Excision of the CTnDOT mini-element was not affected by the site in which it was integrated, another difference from Tn916. Our results demonstrate that the Bacteroides CTnDOT excision system is tightly regulated and appears to be different from that of any other known integrated transmissible element, including those of some Bacteroides mobilizable transposons that are mobilized by CTnDOT.
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7. |
Oh H,
El Amin N,
Davies T,
Appelbaum PC,
Edlund C,
( 2001 ) gyrA mutations associated with quinolone resistance in Bacteroides fragilis group strains. PMID : 11408211 : DOI : 10.1128/AAC.45.7.1977-1981.2001 PMC : PMC90588 Abstract >>
Mutations in the gyrA gene contribute considerably to quinolone resistance in Escherichia coli. Mechanisms for quinolone resistance in anaerobic bacteria are less well studied. The Bacteroides fragilis group are the anaerobic organisms most frequently isolated from patients with bacteremia and intraabdominal infections. Forty-four clinafloxacin-resistant and-susceptible fecal and clinical isolates of the B. fragilis group (eight Bacteroides fragilis, three Bacteroides ovatus, five Bacteroides thetaiotaomicron, six Bacteroides uniformis, and 22 Bacteroides vulgatus) and six ATCC strains of the B. fragilis group were analyzed as follows: (i) determination of susceptibility to ciprofloxacin, levofloxacin, moxifloxacin, and clinafloxacin by the agar dilution method and (ii) sequencing of the gyrA quinolone resistance-determining region (QRDR) located between amino acid residues equivalent to Ala-67 through Gln-106 in E. coli. Amino acid substitutions were found at hotspots at positions 82 (n = 15) and 86 (n = 8). Strains with Ser82Leu substitutions (n = 13) were highly resistant to all quinolones tested. Mutations in other positions of gyrA were also frequently found in quinolone-resistant and -susceptible isolates. Eight clinical strains that lacked mutations in their QRDR were susceptible to at least two of the quinolones tested. Although newer quinolones have good antimicrobial activity against the B. fragilis group, quinolone resistance in B. fragilis strains can be readily selected in vivo. Mutational events in the QRDR of gyrA seem to contribute to quinolone resistance in Bacteroides species.
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8. |
Bonheyo G,
Graham D,
Shoemaker NB,
Salyers AA,
( 2001 ) Transfer region of a bacteroides conjugative transposon, CTnDOT. PMID : 11319931 : DOI : 10.1006/plas.2000.1495 Abstract >>
Bacteroides species harbor large self-transmissible integrated elements called conjugative transposons (CTns). In this paper, we report the first complete sequence analysis of the transfer region of a Bacteroides CTn. The transfer region contained 17 genes (designated orfA-orfQ). Only 2 of the genes shared sequence similarity with genes in the databases and only 1 of these genes was associated with self-transmissible elements.
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9. |
Gordon JI,
Xu J,
Falk PG,
Midtvedt T,
( 1999 ) A molecular sensor that allows a gut commensal to control its nutrient foundation in a competitive ecosystem. PMID : 10449780 : DOI : 10.1073/pnas.96.17.9833 PMC : PMC22296 Abstract >>
Little is known about how members of the indigenous microflora interact with their mammalian hosts to establish mutually beneficial relationships. We have used a gnotobiotic mouse model to show that Bacteroides thetaiotaomicron, a component of the intestinal microflora of mice and humans, uses a repressor, FucR, as a molecular sensor of L-fucose availability. FucR coordinates expression of an operon encoding enzymes in the L-fucose metabolic pathway with expression of another locus that regulates production of fucosylated glycans in intestinal enterocytes. Genetic and biochemical studies indicate that FucR does this by using fucose as an inducer at one locus and as a corepressor at the other locus. Coordinating this commensal's immediate nutritional requirements with production of a host-derived energy source is consistent with its need to enter and persist within a competitive ecosystem.
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10. |
Ko KS,
Kuwahara T,
Haehwa L,
Yoon YJ,
Kim BJ,
Lee KH,
Ohnishi Y,
Kook YH,
( 2007 ) RNA polymerase beta-subunit gene (rpoB) sequence analysis for the identification of Bacteroides spp. PMID : 17184287 : DOI : 10.1111/j.1469-0691.2006.01553.x Abstract >>
Partial rpoB sequences (317 bp) of 11 species of Bacteroides, two Porphyromonas spp. and two Prevotella spp. were compared to delineate the genetic relationships among Bacteroides and closely related anaerobic species. The high level of inter-species sequence dissimilarities (7.6-20.8%) allowed the various Bacteroides spp. to be distinguished. The position of the Bacteroides distasonis and Bacteriodes merdae cluster in the rpoB tree was different from the position in the 16S rRNA gene tree. Based on rpoB sequence similarity and clustering in the rpoB tree, it was possible to correctly re-identify 80 clinical isolates of Bacteroides. In addition to two subgroups, cfiA-negative (division I) and cfiA-positive (division II), of Bacteroides fragilis isolates, two distinct subgroups were also found among Bacteroides ovatus and Bacteroides thetaiotaomicron isolates. Bacteroides genus-specific rpoB PCR and B. fragilis species-specific rpoB PCR allowed Bacteroides spp. to be differentiated from Porphyromonas and Prevotella spp., and also allowed B. fragilis to be differentiated from other non-fragilisBacteroides spp. included in the present study.
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11. |
Stevens AM,
Sanders JM,
Shoemaker NB,
Salyers AA,
( 1992 ) Genes involved in production of plasmidlike forms by a Bacteroides conjugal chromosomal element share amino acid homology with two-component regulatory systems. PMID : 1569023 : DOI : 10.1128/jb.174.9.2935-2942.1992 PMC : PMC205947 Abstract >>
Many human colonic Bacteroides strains carry large (greater than 70-kbp) self-transmissible chromosomal tetracycline resistance (Tcr) elements. These Tcr elements can also mediate the excision and circularization of discrete nonadjacent segments of chromosomal DNA which are designated NBUs (nonreplicating Bacteroides units). We have localized a 6.5-kbp segment of Tcr element DNA that mediates NBU excision and circularization. Analysis of the DNA sequence of this region indicated that it contained three open reading frames, all transcribed in the same direction. The first gene was the Tcr gene, tetQ. The second two open reading frames exhibited amino acid similarity to known two-component regulatory systems. Complementation and gene fusion data supported the hypothesis that the three genes were organized in an operon. Transcription from the tetQ promoter region was inducible by tetracycline, as might be expected from the previous finding that NBU excision was detectable only in cells preexposed to tetracycline. The 6.5-kbp region appeared to be essential not only for NBU excision but also for self-transfer of the elements, another activity that is enhanced by preexposure to tetracycline. Accordingly, the two genes downstream of tetQ have been designated rteA and rteB (regulation of Tcr elements).
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12. |
Walkiewicz K,
Davlieva M,
Wu G,
Shamoo Y,
( 2011 ) Crystal structure of Bacteroides thetaiotaomicron TetX2: a tetracycline degrading monooxygenase at 2.8 ? resolution. PMID : 21590745 : DOI : 10.1002/prot.23052 PMC : PMC3115393 Abstract >>
N/A
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13. |
Volkers G,
Palm GJ,
Weiss MS,
Wright GD,
Hinrichs W,
( 2011 ) Structural basis for a new tetracycline resistance mechanism relying on the TetX monooxygenase. PMID : 21402075 : DOI : 10.1016/j.febslet.2011.03.012 Abstract >>
The flavin-dependent monooxygenase TetX confers resistance to all clinically relevant tetracyclines, including the recently approved, broad-spectrum antibiotic tigecycline (Tygacil?) which is a critical last-ditch defense against multidrug-resistant pathogens. TetX represents the first resistance mechanism against tigecycline, which circumvents both the tet-gene encoded resistances, relying on active efflux of tetracyclines, and ribosomal protection proteins. The alternative enzyme-based mechanism of TetX depends on regioselective hydroxylation of tetracycline antibiotics to 11a-hydroxy-tetracyclines. Here, we report the X-ray crystallographic structure determinations at 2.1? resolution of native TetX from Bacteroides thetaiotaomicron and its complexes with tetracyclines. Our crystal structures explain the extremely versatile substrate diversity of the enzyme and provide a first step towards the rational design of novel tetracycline derivatives to counter TetX-based resistance prior to emerging clinical observations.
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14. |
Sakamoto M,
Suzuki N,
Benno Y,
( 2010 ) hsp60 and 16S rRNA gene sequence relationships among species of the genus Bacteroides with the finding that Bacteroides suis and Bacteroides tectus are heterotypic synonyms of Bacteroides pyogenes. PMID : 20118288 : DOI : 10.1099/ijs.0.021154-0 Abstract >>
hsp60 gene sequences were determined for members of the genus Bacteroides and sequence similarities were compared with those obtained for the 16S rRNA gene. Among the 29 Bacteroides type strains, the mean sequence similarity of the hsp60 gene (84.5 %) was significantly less than that of the 16S rRNA gene (90.7 %), indicating a high discriminatory power of the hsp60 gene. Species of the genus Bacteroides were differentiated well by hsp60 gene sequence analysis, except for Bacteroides pyogenes JCM 6294(T), Bacteroides suis JCM 6292(T) and Bacteroides tectus JCM 10003(T). The hsp60 gene sequence analysis and the levels of DNA-DNA relatedness observed demonstrated that these three type strains are a single species. Consequently, B. suis and B. tectus are heterotypic synonyms of B. pyogenes. This study suggests that the hsp60 gene is an alternative phylogenetic marker for the classification of species of the genus Bacteroides.
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15. |
Shaya D,
Hahn BS,
Park NY,
Sim JS,
Kim YS,
Cygler M,
( 2008 ) Characterization of chondroitin sulfate lyase ABC from Bacteroides thetaiotaomicron WAL2926. PMID : 18512954 : DOI : 10.1021/bi800353g Abstract >>
Chondroitin sulfate ABC lyase (ChonABC) is an enzyme with broad specificity that depolymerizes via beta-elimination chondroitin sulfate (CS) and dermatan sulfate (DS) glycosaminoglycans (GAGs). ChonABC eliminates the glycosidic bond of its GAG substrates on the nonreducing end of their uronic acid component. This lyase possesses the unusual ability to act on both epimers of uronic acid, either glucuronic acid present in CS or iduronic acid in DS. Recently, we cloned, purified, and determined the three-dimensional structure of a broad specificity chondroitin sulfate ABC lyase from Bacteroides thetaiotaomicron (BactnABC) and identified two sets of catalytic residues. Here, we report the detailed biochemical characterization of BactnABC together with extensive site-directed mutagenesis resulting in characterization of the previously identified active site residues. BactnABC's catalysis is stimulated by Ca(2+) and Mg(2+) cations, particularly against DS. It displays extremely low activity toward hyaluronic acid and no activity toward heparin/heparan sulfate. Degradation of CS and DS by BactnABC yields only disaccharide products, pointing to an exolytic mode of action. The kinetic evaluations of the active-site mutants indicate that CS and DS substrates bind in the same active site, which is accompanied by a conformational change bringing the two sets of active site residues together. Conservative replacements of key residues suggest that His345 plays the role of a general base, initiating the degradation by abstracting the C5 bound proton from DS substrates, whereas either Tyr461 or His454 perform the equivalent role for CS substrates. Tyr461 is proposed, as well, to serve as general acid, completing the degradation of both CS and DS by protonating the leaving group.
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16. |
Shaya D,
Hahn BS,
Bjerkan TM,
Kim WS,
Park NY,
Sim JS,
Kim YS,
Cygler M,
( 2008 ) Composite active site of chondroitin lyase ABC accepting both epimers of uronic acid. PMID : 18227125 : DOI : 10.1093/glycob/cwn002 Abstract >>
Enzymes have evolved as catalysts with high degrees of stereospecificity. When both enantiomers are biologically important, enzymes with two different folds usually catalyze reactions with the individual enantiomers. In rare cases a single enzyme can process both enantiomers efficiently, but no molecular basis for such catalysis has been established. The family of bacterial chondroitin lyases ABC comprises such enzymes. They can degrade both chondroitin sulfate (CS) and dermatan sulfate (DS) glycosaminoglycans at the nonreducing end of either glucuronic acid (CS) or its epimer iduronic acid (DS) by a beta-elimination mechanism, which commences with the removal of the C-5 proton from the uronic acid. Two other structural folds evolved to perform these reactions in an epimer-specific fashion: (alpha/alpha)(5) for CS (chondroitin lyases AC) and beta-helix for DS (chondroitin lyases B); their catalytic mechanisms have been established at the molecular level. The structure of chondroitinase ABC from Proteus vulgaris showed surprising similarity to chondroitinase AC, including the presence of a Tyr-His-Glu-Arg catalytic tetrad, which provided a possible mechanism for CS degradation but not for DS degradation. We determined the structure of a distantly related Bacteroides thetaiotaomicron chondroitinase ABC to identify additional structurally conserved residues potentially involved in catalysis. We found a conserved cluster located approximately 12 A from the catalytic tetrad. We demonstrate that a histidine in this cluster is essential for catalysis of DS but not CS. The enzyme utilizes a single substrate-binding site while having two partially overlapping active sites catalyzing the respective reactions. The spatial separation of the two sets of residues suggests a substrate-induced conformational change that brings all catalytically essential residues close together.
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17. |
Wu M,
McNulty NP,
Rodionov DA,
Khoroshkin MS,
Griffin NW,
Cheng J,
Latreille P,
Kerstetter RA,
Terrapon N,
Henrissat B,
Osterman AL,
Gordon JI,
( 2015 ) Genetic determinants of in vivo fitness and diet responsiveness in multiple human gut Bacteroides. PMID : 26430127 : DOI : 10.1126/science.aac5992 PMC : PMC4608238 Abstract >>
Libraries of tens of thousands of transposon mutants generated from each of four human gut Bacteroides strains, two representing the same species, were introduced simultaneously into gnotobiotic mice together with 11 other wild-type strains to generate a 15-member artificial human gut microbiota. Mice received one of two distinct diets monotonously, or both in different ordered sequences. Quantifying the abundance of mutants in different diet contexts allowed gene-level characterization of fitness determinants, niche, stability, and resilience and yielded a prebiotic (arabinoxylan) that allowed targeted manipulation of the community. The approach described is generalizable and should be useful for defining mechanisms critical for sustaining and/or approaches for deliberately reconfiguring the highly adaptive and durable relationship between the human gut microbiota and host in ways that promote wellness.
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18. |
Volkers G,
Damas JM,
Palm GJ,
Panjikar S,
Soares CM,
Hinrichs W,
( 2013 ) Putative dioxygen-binding sites and recognition of tigecycline and minocycline in the tetracycline-degrading monooxygenase TetX. PMID : 23999299 : DOI : 10.1107/S0907444913013802 Abstract >>
Expression of the aromatic hydroxylase TetX under aerobic conditions confers bacterial resistance against tetracycline antibiotics. Hydroxylation inactivates and degrades tetracyclines, preventing inhibition of the prokaryotic ribosome. X-ray crystal structure analyses of TetX in complex with the second-generation and third-generation tetracyclines minocycline and tigecycline at 2.18 and 2.30 ? resolution, respectively, explain why both clinically potent antibiotics are suitable substrates. Both tetracyclines bind in a large tunnel-shaped active site in close contact to the cofactor FAD, pre-oriented for regioselective hydroxylation to 11a-hydroxytetracyclines. The characteristic bulky 9-tert-butylglycylamido substituent of tigecycline is solvent-exposed and does not interfere with TetX binding. In the TetX-minocycline complex a second binding site for a minocycline dimer is observed close to the active-site entrance. The pocket is formed by the crystal packing arrangement on the surface of two neighbouring TetX monomers. Crystal structure analysis at 2.73 ? resolution of xenon-pressurized TetX identified two adjacent Xe-binding sites. These putative dioxygen-binding cavities are located in the substrate-binding domain next to the active site. Molecular-dynamics simulations were performed in order to characterize dioxygen-diffusion pathways to FADH2 at the active site.
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19. |
( 1996 ) Contribution of a neopullulanase, a pullulanase, and an alpha-glucosidase to growth of Bacteroides thetaiotaomicron on starch. PMID : 8955399 : DOI : 10.1128/jb.178.24.7173-7179.1996 PMC : PMC178630 Abstract >>
Bacteroides thetaiotaomicron, a gram-negative colonic anaerobe, can utilize three forms of starch: amylose, amylopectin, and pullulan. Previously, a neopullulanase, a pullulanase, and an alpha-glucosidase from B. thetaiotaomicron had been purified and characterized biochemically. The neopullulanase and alpha-glucosidase appeared to be the main enzymes involved in the breakdown of starch, because they were responsible for most of the starch-degrading activity detected in B. thetaiotaomicron cell extracts. To determine the importance of these enzymes in the starch utilization pathway, we cloned the genes encoding the neopullulanase and alpha-glucosidase. The gene encoding the neopullulanase (susA) was located upstream of the gene encoding the alpha-glucosidase (susB). Both genes were closely linked to another starch utilization gene, susC, which encodes a 115-kDa outer membrane protein that is essential for growth on starch. The gene encoding the pullulanase, pulI, was not located in this region in the chromosome. Disruption of the neopullulanase gene, susA, reduced the rate of growth on starch by about 30%. Elimination of susA in this strain allowed us to detect a low residual level of enzyme activity, which was localized to the membrane fraction. Previously, we had shown that a disruption in the pulI gene did not affect the rate of growth on pullulan. We have now shown that a double mutant, with a disruption in susA and in the pullulanase gene, pulI, was also able to grow on pullulan. Thus, there is at least one other starch-degrading enzyme besides the neopullulanase and the pullulanase. Disruption of the alpha-glucosidase gene, susB, reduced the rate of growth on starch only slightly. No residual alpha-glucosidase activity was detectable in extracts from this strain. Since this strain could still grow on maltose, maltotriose, and starch, there must be at least one other enzyme capable of degrading the small oligomers produced by the starch-degrading enzymes. Our results show that the starch utilization system of B. thetaiotaomicron is quite complex and contains a number of apparently redundant degradative enzymes.
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20. |
( 1996 ) The erythromycin resistance gene from the Bacteroides conjugal transposon Tcr Emr 7853 is nearly identical to ermG from Bacillus sphaericus. PMID : 8834912 : PMC : PMC163148 Abstract >>
Tcr Emr 7853, from Bacteroides thetaiotaomicron 7853, is a large chromosomal conjugative transposon which encodes resistance to both tetracycline (Tcr) and erythromycin (Emr). The erythromycin resistance gene of Tcr Emr 7853 did not cross-hybridize with ermF, the Emr gene found on previously studied Bacteroides regular and conjugative transposons. We have cloned and sequenced the erythromycin resistance gene from Tcr Emr 7853. The DNA sequence of this gene was 99.6% identical to that of ermG from Bacillus sphaericus.
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21. |
( 1993 ) Tetracycline regulation of genes on Bacteroides conjugative transposons. PMID : 8407786 : DOI : 10.1128/jb.175.19.6134-6141.1993 PMC : PMC206707 Abstract >>
Human colonic Bacteroides species harbor a family of large conjugative transposons, called tetracycline resistance (Tcr) elements. Activities of these elements are enhanced by pregrowth of bacteria in medium containing tetracycline, indicating that at least some Tcr element genes are regulated by tetracycline. Previously, we identified a central regulatory locus on the Tcr elements that contained two genes, rteA and rteB, which appeared to encode a two-component regulatory system (A. M. Stevens, J. M. Sanders, N. B. Shoemaker, and A. A. Salyers, J. Bacteriol. 174:2935-2942, 1992). In the present study, we describe a gene which is located downstream of rteB in a separate transcriptional unit and which requires RteB for expression. Sequence analysis of this gene showed that it encoded a 217-amino-acid protein, which had no significant sequence similarity to any proteins in the GenBank or EMBL data base. An insertional disruption in the gene abolished self-transfer of the Tcr element to Bacteroides recipients, indicating that the gene was essential for self-transfer. The disruption also affected mobilization of coresident plasmids. Mobilization frequency was reduced 100- to 1,000-fold if the recipient was Escherichia coli but was not affected to the same extent if the recipient was an isogenic Bacteroides strain. The complex phenotype of the disruption mutant suggested that the newly identified gene, like rteA and rteB, had a regulatory function. Accordingly, it has been designated rteC. Our results indicate that regulation of Tc(r) element functions is unexpectedly complex and may involve a cascade of regulators, with RteA and RteB exerting central control over secondary regulators like RteC, which in turn control subsets of Tcr element structural genes.
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22. |
Cheng Q,
Yu MC,
Reeves AR,
Salyers AA,
( 1995 ) Identification and characterization of a Bacteroides gene, csuF, which encodes an outer membrane protein that is essential for growth on chondroitin sulfate. PMID : 7601836 : DOI : 10.1128/jb.177.13.3721-3727.1995 PMC : PMC177088 Abstract >>
Bacteroides thetaiotaomicron can utilize a variety of polysaccharides, including charged mucopolysaccharides such as chondroitin sulfate (CS) and hyaluronic acid (HA). Since the enzymes (chondroitin lyases I and II) that catalyze the first step in breakdown of CS and HA are located in the periplasm, we had proposed that the first step in utilization of these polysaccharides was binding to one or more outer membrane proteins followed by translocation into the periplasm, but no such outer membrane proteins had been shown to play a role in CS or HA utilization. Previously we have isolated a transposon-generated mutant, CS4, which was unable to grow on CS or HA but retained the ability to grow on disaccharide components of CS. This phenotype suggested that the mutation in CS4 either blocked the transport of the mucopolysaccharides into the periplasmic space or blocked the depolymerization of the mucopolysaccharides into disaccharides. We have mapped the CS4 mutation to a single gene, csuF, which is capable of encoding a protein of 1,065 amino acids and contains a consensus signal sequence. Although CsuF had a predicted molecular weight and pI similar to those of chondroitin lyases, it did not show significant sequence similarity to the Bacteroides chondroitin lyase II, a Proteus chondroitin ABC lyase, or two hyaluronidases from Clostridium perfringens and Streptococcus pyogenes, nor was any CS-degrading enzyme activity associated with csuF expression in Bacteroides species or Escherichia coli. The deduced amino acid sequence of CsuF exhibited features suggestive of an outer membrane protein. We obtained antibodies to CsuF and demonstrated that the protein is located in the outer membrane. This is the first evidence that a nonenzymatic outer membrane protein is essential for utilization of CS and HA.
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23. |
Trinh S,
Haggoud A,
Reysset G,
Sebald M,
( 1995 ) Plasmids pIP419 and pIP421 from Bacteroides: 5-nitroimidazole resistance genes and their upstream insertion sequence elements. PMID : 7773395 : DOI : 10.1099/13500872-141-4-927 Abstract >>
The genetic organization of two different 5-nitroimidazole (5-Ni) resistance genes was investigated: nimC and nimD from Bacteroides plasmids pIP419 and pIP421, respectively. The nimC gene (492 bp) and the nimD gene (495 bp) directed the synthesis of polypeptides with deduced molecular masses of 18.37 kDa and 18.48 kDa, respectively. The predicted proteins showed 67-83% identity and 78-91% similarity with the products of two other nimA and nimB genes previously described and could be derived from a common ancestral gene. An insertion sequence element (IS1170) was identified upstream of the nimC gene. IS1170 is 1604 bp in length and is flanked by imperfect inverted repeats (15 bp). IS1170 is similar to the Bacteroides insertion sequence element IS942 with an identity of 70% at the nucleotide level. The single copy of IS1170 present on plasmid pIP419 is integrated 24 bp upstream of the initiation codon of nimC. Similar genetic organization was found on plasmid pIP421. One copy of another insertion sequence (IS1169) was found 4 bp upstream of the first ATG codon of the nimD gene. This element (1325 bp) shows a strong homology at the nucleotide level (70% identity) with IS1186 and IS1168 found to be associated with the Bacteroides carbapenem resistance gene cfiA, and the 5-Nirgenes nimA and nimB, respectively. There is strong evidence that, as in the case of the cfiA gene, the transcription of the four nim genes so far studied is directed by outward-oriented promoters, carried on the right ends of the different insertion sequence elements.
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24. |
Jiang X,
Hall AB,
Arthur TD,
Plichta DR,
Covington CT,
Poyet M,
Crothers J,
Moses PL,
Tolonen AC,
Vlamakis H,
Alm EJ,
Xavier RJ,
( 2019 ) Invertible promoters mediate bacterial phase variation, antibiotic resistance, and host adaptation in the gut. PMID : 30630933 : DOI : 10.1126/science.aau5238 PMC : PMC6543533 Abstract >>
Phase variation, the reversible alternation between genetic states, enables infection by pathogens and colonization by commensals. However, the diversity of phase variation remains underexplored. We developed the PhaseFinder algorithm to quantify DNA inversion-mediated phase variation. A systematic search of 54,875 bacterial genomes identified 4686 intergenic invertible DNA regions (invertons), revealing an enrichment in host-associated bacteria. Invertons containing promoters often regulate extracellular products, underscoring the importance of surface diversity for gut colonization. We found invertons containing promoters regulating antibiotic resistance genes that shift to the ON orientation after antibiotic treatment in human metagenomic data and in vitro, thereby mitigating the cost of antibiotic resistance. We observed that the orientations of some invertons diverge after fecal microbiota transplant, potentially as a result of individual-specific selective forces.
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