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41 results on '"WALDOR, MATTHEW K."'

1. Vibrio cholerae LexA coordinates CTX prophage gene expression

Author

Kimsey, Harvey H. and Waldor, Matthew K.

Subjects
Vibrio cholerae -- Genetic aspects, Vibrio cholerae -- Research, Gene expression -- Research, Bacteriophages -- Research, Cholera toxin -- Genetic aspects, Cholera toxin -- Research, Biological sciences
Abstract

The filamentous bacteriophage CTX[PHI] transmits the cholera toxin genes by infecting and lysogenizing its host, Vibrio cholerae. CTX[PHI] genes required for virion production initiate transcription from the strong [P.sub.A] promoter, which is dually repressed in lysogens by the phage-encoded repressor RstR and the host-encoded SOS repressor LexA. Here we identify the neighboring divergent rstR promoter, [P.sub.R], and show that RstR both positively and negatively autoregulates its own expression from this promoter. LexA is absolutely required for RstR-mediated activation of [P.sub.R] transcription. RstR autoactivation occurs when RstR is bound to an operator site centered 60 bp upstream of the start of transcription, and the coactivator LexA is bound to a 16-bp SOS box centered at position -23.5, within the [P.sub.R] spacer region. Our results indicate that LexA, when bound to its single site in the CTX[PHI] prophage, both represses transcription from [P.sub.A] and coactivates transcription from the divergent [P.sub.R]. We propose that LexA coordinates [P.sub.A] and [P.sub.R] prophage transcription in a gene regulatory circuit. This circuit is predicted to display transient switch behavior upon induction of CTX[PHI] lysogens. doi: 10.1128/JB.00682-09

Published
2009

2. Genetic analysis of activation of the Vibrio cholerae Cpx pathway

Author

Slamti, Leyla and Waldor, Matthew K.

Subjects
Cholera toxin -- Genetic aspects, Cholera toxin -- Physiological aspects, Genetic research -- Methods, Vibrio cholerae -- Genetic aspects, Vibrio cholerae -- Physiological aspects, Cellular signal transduction -- Research, Biological sciences
Abstract

The Cpx two-component system is thought to mediate envelope stress responses in many gram-negative bacteria and has been implicated in the pathogenicity of several enteric pathogens. While cues that activate the Escherichia coli Cpx system have been identified, the nature of the molecular signals that stimulate this pathway is not well understood. Here, we investigated stimuli that trigger this system in Vibrio cholerae, a facultative pathogen that adapts to various niches during its life cycle. In contrast to E. coli, there was no basal activity of the V. cholerae Cpx pathway under standard laboratory conditions. Furthermore, several known stimuli of the E. coli pathway did not induce expression of this system in V. cholerae. There were no defects in intestinal growth in V. cholerae cpx mutants, arguing against the idea that this pathway promotes V. cholerae adaptation to conditions in the mammalian host. We discovered that chloride ions activate the V. cholerae Cpx pathway, raising the possibility that this signal transduction system provides a means for V. cholerae to sense and respond to alterations in salinity. We used a genetic approach to screen for mutants in which the Cpx pathway is activated. We found that mutations in genes whose products are required for periplasmic disulfide bond isomerization result in activation of the Cpx pathway, suggesting that periplasmic accumulation of proteins with aberrant disulfide bonds triggers the V. cholerae Cpx pathway.

Published
2009

3. Genomic and functional analysis of ICEPdaSpa1, a fish-pathogen-derived SXT-related integrating conjugative element that can mobilize a virulence plasmid

Author

Osorio, Carlos R., Marrero, Joeli, Wozniak, Rachel A.F., Lemos, Manuel L., Burrus, Vincent, and Waldor, Matthew K.

Subjects
Pathogenic microorganisms -- Genetic aspects, Pathogenic microorganisms -- Physiological aspects, Virulence (Microbiology) -- Genetic aspects, Biological sciences
Abstract

Integrating conjugative elements (ICEs) are self-transmissible mobile elements that transfer between bacteria via conjugation and integrate into the host chromosome. SXT and related ICEs became prevalent in Asian Vibrio cholerae populations in the 1990s and play an important role in the dissemination of antibiotic resistance genes in V. cholerae. Here, we carried out genomic and functional analyses of ICEPdaSpal, an SXT-related ICE derived from a Spanish isolate of Photobacterium damselae subsp, piscicida, the causative agent of fish pasteurellosis. The ~102-kb DNA sequence of ICEPdaSpal shows nearly 97% DNA sequence identity to SXT in genes that encode essential ICE functions, including integration and excision, conjugal transfer, and regulation. However, ~25 kb of ICEPdaSpa1 DNA, including a tetracycline resistance locus, is not present in SXT. Most ICEPdaSpal-specific DNA is inserted at loci where other SXT-related ICEs harbor element-specific DNA. ICEPdaSpal excises itself from the chromosome and is transmissible to other Photobacterium strains, as well as to Escherichia coli, in which it integrates into prfC. Interestingly, the P. damselae virulence plasmid pPHDP10 could be mobilized from E. coli in an ICEPdaSpa1-dependent fashion via the formation of a cointegrate between pPHDP10 and ICEPdaSpal. pPHDP10-Cm integrated into ICEPdaSpal in a non-site-specific fashion independently of RecA. The ICEPdaSpa1::pPHDP10 cointegrates were stable, and markers from both elements became transmissible at frequencies similar to those observed for the transfer of ICEPdaSpa1 alone. Our findings reveal the plasticity of ICE genomes and demonstrate that ICEs can enable virulence gene transfer.

Published
2008

4. Dam methyltransferase is required for stable lysogeny of the Shiga toxin (Stx2)-encoding bacteriophage 933W of enterohemorrhagic Escherichia coli O157:H7

Author

Murphy, Kenan C., Ritchie, Jennifer M., Waldor, Matthew K., Lobner-Olesen, Anders, and Marinus, M.G.

Subjects
Escherichia coli -- Physiological aspects, Escherichia coli -- Genetic aspects, Virulence (Microbiology) -- Research, Methyltransferases -- Physiological aspects, Bacteriophages -- Physiological aspects, Biological sciences
Abstract

Shiga toxin 2 (Stx2), one of the principal virulence factors of enterohemorrhagic Escherichia coli, is encoded by 933W, a lambda-like prophage. 933W prophage induction contributes to Stx2 production, and here, we provide evidence that Dam methyltransferase is essential for maintenance of 933W lysogeny. Our findings are consistent with the idea that the 933W prophage has a relatively low threshold for induction, which may promote Stx2 production during infection.

Published
2008

5. Distribution of centromere-like parS sites in bacteria: insights from comparative genomics

Author

Livny, Jonathan, Yamaichi, Yoshiharu, and Waldor, Matthew K.

Subjects
Genomics -- Research, Centromeres -- Properties, Microbiological research, Biological sciences
Abstract

Partitioning of low-copy-number plasmids to daughter cells often depends on ParA and ParB proteins acting on centromere-like parS sites. Similar chromosome-encoded par loci likely also contribute to chromosome segregation. Here, we used bioinformatic approaches to search for chromosomal parS sites in 400 prokaryotic genomes. Although the consensus sequence matrix used to search for parS sites was derived from two gram-positive species, putative parS sites were identified on the chromosomes of 69% of strains from all branches of bacteria. Strains that were not found to contain parS sites clustered among relatively few branches of the prokaryotic evolutionary tree. In the vast majority of cases, parS sites were identified in origin-proximal regions of chromosomes. The widespread conservation of parS sites across diverse bacteria suggests that par loci evolved very early in the evolution of bacterial chromosomes and that the absence of parS, parA, and/or parB in certain strains likely reflects the loss of one of more of these loci much later in evolution. Moreover, the highly conserved origin-proximal position of parS suggests par loci are primarily devoted to regulating processes that involve the origin region of bacterial chromosomes. In species containing multiple chromosomes, the parS sites found on secondary chromosomes diverge significantly from those found on their primary chromosomes, suggesting that chromosome segregation of multipartite genomes requires distinct replicon-specific par loci. Furthermore, parS sites on secondary chromosomes are not well conserved among different species, suggesting that the evolutionary histories of secondary chromosomes are more diverse than those of primary chromosomes.

Published
2007

6. Determinants of entry exclusion within Eex and TraG are cytoplasmic

Author

Marrero, Joeli and Waldor, Matthew K.

Subjects
Membrane proteins -- Physiological aspects, Membrane proteins -- Properties, Bacterial proteins -- Properties, Bacterial proteins -- Physiological aspects, Biological sciences
Abstract

We report here functional and topological analyses of TraG and Eex, the donor and recipient cell inner membrane proteins that mediate entry exclusion in the SXT/R391 family of integrative conjugative elements. We found that the exclusion-determining regions of the Eex variants EexS (SXT) and EexR (R391) are located in distinct yet overlapping regions of the proteins. Unexpectedly, the carboxyl-terminal regions of TraG and Eex, which contain the residues essential for exclusion activity and specificity, were found to localize in the cell cytoplasm. These observations suggest that complex topological rearrangements of conjugative proteins must occur during mating to enable these domains to interact.

Published
2007

7. Distinct centromere-like parS sites on the two chromosomes of Vibrio spp

Author

Yamaichi, Yoshiharu, Fogel, Michael A., McLeod, Sarah M., Hui, Monica P., and Waldor, Matthew K.

Subjects
Centromeres -- Research, Vibrio cholerae -- Genetic aspects, Vibrio cholerae -- Research, Chromosomes -- Research, Biological sciences
Abstract

Vibrio cholerae, the cause of cholera, has two circular chromosomes. The parAB genes on each V. cholerae chromosome act to control chromosome segregation in a replicon-specific fashion. The chromosome I (ChrI) parAB genes (parAB1) govern the localization of the origin region of ChrI, while the chromosome II (ChrII) parAB genes (parAB2) control the segregation of ChrII. In addition to ParA and ParB proteins, Par systems require ParB binding sites (parS). Here we identified the parS sites on both V. cholerae chromosomes. We found three clustered origin-proximal ParB1 binding parS1 sites on ChrI. Deletion of these three parS1 sites abrogated yellow fluorescent protein (YFP)-ParB1 focus formation in vivo and resulted in mislocalization of the ChrI origin region. However, as observed in a parA1 mutant, mislocalization of the ChrI origin region in the parS1 mutant did not compromise V. cholerae growth, suggesting that additional (non-Par-related) mechanisms may mediate the partitioning of ChrI. We also identified 10 ParB2 binding parS2 sites, which differed in sequence from parS1. Fluorescent derivatives of ParB1 and ParB2 formed foci only with the cognate parS sequence, parABS2 appears to form a functional partitioning system, as we found that parABS2 was sufficient to stabilize an ordinarily unstable plasmid in Escherichia coli. MostparS2 sites were located within 70 kb of the ChrII origin of replication, but one parS2 site was found in the terminus region of ChrI. In contrast, in other sequenced vibrio species, the distribution of parS1 and parS2 sites was entirely chromosome specific.

Published
2007

8. The SXT/R391 family of integrative conjugative elements is composed of two exclusion groups

Author

Marrero, Joeli and Waldor, Matthew K.

Subjects
Host-bacteria relationships -- Research, Biological diversity -- Research, Metabolic conjugation -- Research, Biological sciences
Abstract

Conjugative elements often encode entry exclusion systems that convert host cells into poor recipients for identical or similar elements. The diversity of exclusion systems within families of conjugative elements has received little attention. We report here the most comprehensive study to date of the diversity of exclusion determinants within a single family of conjugative elements. Unexpectedly, our analyses indicate that there are only two exclusion groups among the diverse members of the SXT/R391 family of integrative conjugative elements.

Published
2007

9. Characterization of a higBA Toxin-Antitoxin Locus in Vibrio cholerae

Author

Budde, Priya Prakash, Davis, Brigid M., Yuan, Jie, and Waldor, Matthew K.

Subjects
Vibrio cholerae -- Genetic aspects, Vibrio cholerae -- Research, Bacterial toxins -- Research, Bacterial toxins -- Identification and classification, Chromosome deletion -- Research, Biological sciences
Abstract

Toxin-antitoxin (TA) loci, which were initially characterized as plasmid stabilization agents, have in recent years been detected on the chromosomes of numerous free-living bacteria. Vibrio cholerae, the causative agent of cholera, contains 13 putative TA loci, all of which are clustered within the superintegron on chromosome II. Here we report the characterization of the V. cholerae higBA locus, also known as VCA0391/2. Deletion of higA alone was not possible, consistent with predictions that it encodes an antitoxin, and biochemical analyses confirmed that HigA interacts with HigB. Transient exogenous expression of the toxin HigB dramatically slowed growth of V. cholerae and Escherichia coli and reduced the numbers of CFU by several orders of magnitude. HigB toxicity could be counteracted by simultaneous or delayed production of HigA, although HigA's effect diminished as the delay lengthened. Transcripts from endogenous higBA increased following treatment of V. cholerae with translational inhibitors, presumably due to reduced levels of HigA, which represses the higBA locus. However, no higBA-dependent cell death was observed in response to such stimuli. Thus, at least under the conditions tested, activation of endogenous HigB does not appear to be bactericidal.

Published
2007

10. Global gene expression and phenotypic analysis of a Vibrio cholerae rpoH deletion mutant

Author

Slamti, Leyla, Livny, Jonathan, and Waldor, Matthew K.

Subjects
Gene expression -- Research, Gene mutations -- Research, Vibrio cholerae -- Genetic aspects, Vibrio cholerae -- Research, Phenotype -- Research, Chromosome deletion -- Research, Biological sciences
Abstract

Vibrio cholerae, the cause of cholera, can grow in a variety of environments outside of human hosts. During infection, this pathogen must adapt to significant environmental alterations, including the elevated temperature of the human gastrointestinal tract, [[omega].sup.32], an alternative sigma factor encoded by rpoH, activates transcription of genes involved in the heat shock response in several bacterial species. Here, we assessed the role of [[omega].sup.32] in V. cholerae physiology. In aggregate, our findings suggest that [[omega].sup.32] promotes V. cholerae growth at temperatures ranging at least from 15[degrees]C to 42[degrees]C. Growth of the rpoH mutant was severely attenuated within the suckling mouse intestine, suggesting that [[omega].sup.32]-regulated genes are critical for V. cholerae adaptation to conditions within the gastrointestinal tract. We defined the V. cholerae RpoH regulon by comparing the whole-genome transcription profiles of the wild-type and rpoH mutant strains after a temperature up-shift. Most of the V. cholerae genes expressed in an RpoH-dependent manner after heat shock encode proteins that influence protein fate, such as proteases and chaperones, or are of unknown function. Bioinformatic analyses of the microarray data were used to define a putative [[omega].sup.32] consensus binding sequence and subsequently to identify genes that are likely to be directly regulated by RpoH in the whole V. cholerae genome.

Published
2007

11. Independent control of replication initiation of the two Vibrio cholerae chromosomes by DnaA and Rct

Author

Duigou, Stephane, Knudsen, Kristine G., Skovgaard, Ole, Egan, Elizabeth S., Lobner-Olesen, Anders, and Waldor, Matthew K.

Subjects
Vibrio cholerae -- Genetic aspects, Vibrio cholerae -- Research, DNA -- Research, Chromosome replication -- Research, Biological sciences
Abstract

Although the two Vibrio cholerae chromosomes initiate replication in a coordinated fashion, we show here that each chromosome appears to have a specific replication initiator. DnaA overproduction promoted overinitiation of chromosome I and not chromosome II. In contrast, overproduction of RctB, a protein that binds to the origin of replication of chromosome II, promoted overinitiation of chromosome II and not chromosome I.

Published
2006

12. Requirement for Vibrio cholerae integration host factor in conjugative DNA transfer

Author

McLeod, Sarah M., Burrus, Vincent, and Waldor, Matthew K.

Subjects
Host-bacteria relationships -- Research, Vibrio cholerae -- Genetic aspects, Biological sciences
Abstract

The requirement for host factors in the transmission of integrative and conjugative elements (ICEs) has not been extensively explored. Here we tested whether integration host factor (IHF) or Fis, two host-encoded nucleoid proteins, are required for transfer of SXT, a Vibrio cholerae-derived ICE that can be transmitted to many gram-negative species. Fis did not influence the transfer of SXT to or from V. cholerae. In contrast, IHF proved to be required for V. cholerae to act as an SXT donor. In the absence of IHF, V. cholerae displayed a modest defect for serving as an SXT recipient. Surprisingly, SXT integration into or excision from the V. cholerae chromosome, which requires an SXT-encoded integrase related to [lambda] integrase, did not require IHF. Therefore, the defect in SXT transmission in the V. cholerae IHF mutant is probably not related to IHF's ability to promote DNA recombination. The V. cholerae IHF mutant was also highly impaired as a donor of RP4, a broad-host-range conjugative plasmid. Thus, the V. cholerae IHF mutant appears to have a general defect in conjugation. Escherichia coli IHF mutants were not impaired as donors or recipients of SXT or RP4, indicating that IHF is a V. cholerae-specific conjugation factor.

Published
2006

13. Autorepression of RctB, an initiator of Vibrio cholerae chromosome II replication

Author

Egan, Elizabeth S., Duigou, Stephane, and Waldor, Matthew K.

Subjects
Vibrio cholerae -- Research, Genetic transcription -- Research, Chromosome replication -- Research, Biological sciences
Abstract

The RctB protein binds to the origin of replication of Vibrio cholerae chromosome II (chrII) and is required for oriC[II.sub.Vc]-based replication. Here, we found that RctB acts as an autorepressor, inhibiting rctB transcription. Integration host factor promotes rctB transcription, while Dam and DnaA, factors required for replication of both V. cholerae chromosomes, influence RctB autorepression. Thus, RctB appears to regulate chrII replication as both an initiator and a transcription repressor, and its synthesis is modulated by factors that govern replication of both chromosomes.

Published
2006

15. Characterization of the small untranslated RNA RyhB and its regulon in Vibrio cholerae

Author

Davis, Brigid M., Quinones, Mariam, Pratt, Jason, Ding, Yanpeng, and Waldor, Matthew K.

Subjects
Protein binding -- Research, Messenger RNA -- Research, Vibrio cholerae -- Genetic aspects, Escherichia coli -- Genetic aspects, Genetic research, Biological sciences
Abstract

Numerous small untranslated RNAs (sRNAs) have been identified in Escherichia coli in recent years, and their roles are gradually being defined. However, few of these sRNAs appear to be conserved in Vibrio cholerae, and both identification and characterization of sRNAs in V. cholerae remain at a preliminary stage. We have characterized one of the few sRNAs conserved between E. coli and V. cholerae: RyhB. Sequence conservation is limited to the central region of the gene, and RyhB in V. cholerae is significantly larger than in E. coli. As in E. coli, V. cholerae RyhB is regulated by the iron-dependent repressor Fur, and it interacts with the RNA-binding protein Hfq. The regulons controlled by RyhB in V. cholerae and E. coli appear to differ, although some overlap is evident. Analysis of gene expression in V. cholerae in the absence of RyhB suggests that the role of this sRNA is not limited to control of iron utilization. Quantitation of RyhB expression in the suckling mouse intestine suggests that iron availability is not limiting in this environment, and RyhB is not required for colonization of this mammalian host by V. cholerae.

Published
2005

16. Identification of operators and promoters that control SXT conjugative transfer

Author

Beaber, John W. and Waldor, Matthew K.

Subjects
Genes -- Research, Vibrio -- Research, Conjugation (Biology) -- Research, Biological sciences
Abstract

Transfer of SXT, a Vibrio cholerae-derived integrating conjugative element that encodes multiple antibiotic resistance genes, is repressed by SetR, a [[lambda].sup.434] cI-related repressor. Here we identify divergent promoters between s086 and setR that drive expression of the regulators of SXT transfer. One transcript encodes the activators of transfer, setC and setD. The second transcript codes for SetR and, like the cI transcript of lambda, is leaderless. SetR binds to four operators located between setR and s086; the locations and relative affinities of these sites suggest a model for regulation of SXT transfer.

Published
2004

17. Formation of SXT tandem arrays and SXT-R391 hybrids

Author

Burrus, Vincent and Waldor, Matthew K.

Subjects
Vibrio cholerae -- Research, Vibrio cholerae -- Genetic aspects, Chromosomes -- Research, Biological sciences
Abstract

SXT is an integrative and conjugative element (ICE) isolated from Vibrio cholerae. This ~100-kb ICE encodes resistance to multiple antibiotics and integrates site specifically into the chromosome. SXT excises from the chromosome to form a circular but nonreplicative extrachromosomal molecule that is required for its transfer. Here we found that a significant fraction of freshly isolated SXT exconjugants contained tandem SXT arrays. There was heterogeneity in the size of the SXT arrays detected in single exconjugant colonies. Some arrays consisted of more than five SXTs arranged in tandem. These extended arrays were unstable and did not persist during serial passages. The mechanism accounting for the generation of SXT arrays is unknown; however, array formation was not dependent upon recA and appeared to depend on conjugative transfer. While such arrays did not alter the transfer frequency of wild-type SXT, they partially complemented the transfer deficiency of a [DELAT]xis SXT mutant, which is ordinarily unable to generate the extrachromosomal intermediate required for SXT transfer. Exconjugants derived from donor strains that harbored tandem arrays of SXT and R391, an SXT-related element, contained functional hybrid elements that arose from recA-independent recombination between the two ICEs. Thus, arrays of SXT-related elements promote the creation of novel ICEs.

Published
2004

18. Transcription of the toxin genes present within the staphylococcal phage [phi]Sa3ms is intimately linked with the phage's life cycle

Author

Sumby, Paul and Waldor, Matthew K.

Subjects
Bacteriology -- Research, Bacteriophages -- Genetic aspects, Bacteriophages -- Physiological aspects, Enterotoxins -- Genetic aspects, Enterotoxins -- Physiological aspects, Enzymes -- Genetic aspects, Enzymes -- Physiological aspects, Gene expression -- Physiological aspects, Genetic transcription -- Physiological aspects, Microbial populations -- Genetic aspects, Mitomycin -- Physiological aspects, Staphylococcus aureus -- Genetic aspects, Staphylococcus aureus -- Physiological aspects, Biological sciences
Abstract

[phi]Sa3ms, a lysogenic bacteriophage encoding the staphylococcal enterotoxins SEA, SEG, and SEK and the fibrinolytic enzyme staphylokinase (Sak), was identified in the unannotated genome sequence of the hyper-virulent community-acquired Staphylococcus aureus strain 476. We found that mitomycin C induction of [phi]Sa3ms led to increased transcription of all four virulence factors. The increase in sea and sak transcription was a result of read-through transcription from upstream latent phage promoters and an increase in phage copy number. The majority of the seg2 and sek2 transcripts were shown to initiate from the upstream phage cI promoter and hence were regulated by factors influencing cI transcription. The lysogeny module of [phi]Sa3msm was shown to have some [lambda]-like features with divergent cI and cro genes. Band shift assays were used to identify binding sites for both CI and Cro within the region between these genes, suggesting a mechanism of control for the [phi]Sa3ms lytic-lysogenic switch. Our findings suggest that the production of phage-encoded virulence factors in S. aureus may be regulated by processes that govern lysogeny.

Published
2003

19. Control of SXT integration and excision

Author

Burrus, Vincent and Waldor, Matthew K.

Subjects
Bacterial proteins -- Genetic aspects, Cytology -- Genetic aspects, Gene expression -- Physiological aspects, Vibrio cholerae -- Genetic aspects, Antibiotics -- Physiological aspects, Chromosomes -- Physiological aspects, Chromosomes -- Genetic aspects, Bacteriology -- Research, Biological sciences
Abstract

The Vibrio cholerae SXT element is a conjugative self-transmissible chromosomally integrating element that encodes resistance to multiple antibiotics. SXT integrates in a site-specific fashion at prfC and excises from the chromosome to form a circular but nonreplicative extrachromosomal form. Both chromosomal integration and excision depend on an SXT-encoded recombinase, Int. Here we found that Int is necessary and sufficient for SXT integration and that int expression in recipient cells requires the SXT activators SetC and SetD. Although no xis-like gene was annotated in the SXT genome, Int was not sufficient to mediate efficient SXT chromosomal excision. We identified a novel SXT Xis that seems to function as a recombination directionality factor (RDF), facilitating SXT excision and inhibiting SXT integration. Although unrelated to any previously characterized RDF, Xis is similar to five hypothetical proteins that together may constitute a new family of RDFs. Using real-time quantitative PCR assays to study SXT excision from the chromosome, we determined that while SXT excision is required for SXT transfer, the percentage of cells containing an excised circular SXT does not appear to be a major factor limiting SXT transfer; i.e., we found that most cells harboring an excised circular SXT molecule do not act as SXT donors. In the absence of prfC, SXT integrated into several secondary attachment sites but preferentially into the 5' end of pntB. SXT excision and transfer from a donor containing pntB::SXT were reduced, suggesting that the SXT integration site may also influence the element's transmissibility.

Published
2003

20. Genomic and functional analyses of SXT, an integrating antibiotic resistance gene transfer element derived from Vibrio cholerae

Author

Beaber, John W., Hochhut, Bianca, and Waldor, Matthew K.

Subjects
Transposons -- Genetic aspects, Genomes -- Analysis, Genetic transcription -- Analysis, Vibrio cholerae -- Genetic aspects, Biological sciences
Abstract

Research examines the conjugative transfer and chromosomal excision features of the mobile genetic element SXT in Vibrio cholerae. Results reveal that over half of the SXT genome is not involved in its transmissibility and two loci on SXT encode regulators, which activate gene transcription mediating SXT excision and transfer.

Published
2002

21. Role for a phage promoter in Shiga toxin 2 expression from a pathogenic Escherichia coli strain

Author

Wagner, Patrick L., Neely, Melody N., Zhang, Xiaping, Acheson, David W.K., Waldor, Matthew K., and Friedman, David I.

Subjects
Microbial toxins -- Genetic aspects, Escherichia coli -- Genetic aspects, Gene expression -- Analysis, Promoters (Genetics) -- Analysis, Biological sciences
Abstract

Results indicate that the regulatory circuits of Stx-encoding phages mediate pathogenesis of Stx-producing Escherichia coli strains. Data further show that the prophage induction by late phage promoter p(sub)R via transcription plays a role in the production of toxin.

Published
2001

22. Formation of chromosomal tandem arrays of the SXT element and R391, two conjugative chromosomally integrating elements that share an attachment site

Author

Hochhut, Bianca, Beaber, John W., Woodgate, Roger, and Waldor, Matthew K.

Subjects
Insertion elements, DNA -- Genetic aspects, Chromosomal proteins -- Genetic aspects, Conjugation (Biology) -- Genetic aspects, Escherichia coli -- Research, Vibrio cholerae -- Research, Biological sciences
Abstract

Results show that the self-transmissible, conjugative, and integrating elements, the SXT and IncJ constins, isolated from Vibrio cholerae 0139 and Providencia rettgeri are genetically and functionally related. Data indicate that the constins integrate into Escherichia coli chromosome, site specifically, in a tandem array fashion and encode identical integrases.

Published
2001

25. CTX prophages in classical biotype Vibrio cholerae: functional phage genes but dysfunctional phage genomes

Author

Davis, Brigid M., Moyer, Kathryn E., Boyd, E. Fidelma, and Waldor, Matthew K.

Subjects
Bacteriology -- Research, Genomes -- Physiological aspects, Vibrio cholerae -- Genetic aspects, Bacteriophages -- Physiological aspects, Cholera toxin -- Genetic aspects, Biological sciences
Abstract

Research has been conducted on the CTXphi, a filamentous bacteriophage whose genome encodes cholera toxin produced by Vibrio cholerae. The characterization of the viron production capacities and genetic structures of the classical prophage arrays has been conducted and the results are discussed.

Published
2000

26. CTXphi infection of Vibrio cholerae requires the tolQRA gene products

Author

Heilpern, Andrew J. and Waldor, Matthew K.

Subjects
Vibrio cholerae -- Research, Bacteriophages -- Genetic aspects, Gene expression -- Analysis, Cholera toxin -- Physiological aspects, Biological sciences
Abstract

Results suggest that lysogenic filamentous bacteriophage which encodes cholera toxin enters its host with the help of a pilus and TolQRA. Data indicate Escherichia coli and other bacteria also take this course sugesting that this feature is conserved among bacterial species.

Published
2000

27. The vibrio cholerae 0139 Calcutta bacteriophage CTXphi is infectious and encodes a novel repressor

Author

Davis, Brigid M., Kimsey, Harvey H., Chang, William, and Waldor, Matthew K.

Subjects
Calcutta, India -- Health aspects, Vibrio cholerae -- Research, Cholera -- Research, Bacteriophages -- Genetic aspects, Communicable diseases -- Physiological aspects, Biological sciences
Abstract

Results demonstrate that the new CTX Calcutta prophage is capable of giving rise to infectious cholera virus and it is differentiated from the other already existing prophage in the nucleotide sequences of the repressor genes.

Published
1999

28. A new type of conjugative transposon encodes resistance to sulfamethoxazole, trimethoprim, and streptomycin in Vibrio cholerae O139

Author

Waldor, Matthew K., Tschape, Helmunt, and Mekalanos, John J.

Subjects
Transposons -- Physiological aspects, Vibrio cholerae -- Physiological aspects, Drug resistance in microorganisms -- Research, Biological sciences
Abstract

The resistance of the non-O1 serogroup Vibrio cholerae O139 to trimethoprim, sulfamethoxazole and streptomycin is mediated by the SXT transposon that does not encode a colonization factor. The transposon is a 62-kb element that can be transferred to V. cholerae O1 and Escherichia coli strains. It integrates into V. cholerae by a recA-independent site specific mechanism. The crossing of a large internal deletion of SXT to the Bengal-2 chromosome produces a Bengal-2.SXT(super S) strain that is antibiotic-sensitive. These variants are useful as live attenuated vaccines against the O139 serogroup.

Published
1996

29. pIII (super)CTX , a predicted CTXphi minor coat protein, can expand the host range of coliphage fd to include Vibrio cholerae

Author

Heilpern, Andrew J. and Waldor, Matthew K.

Subjects
Bacteriology -- Research, Bacterial proteins -- Physiological aspects, Bacterial proteins -- Genetic aspects, Vibrio cholerae -- Physiological aspects, Vibrio cholerae -- Genetic aspects, Bacteriophages -- Physiological aspects, Bacteriophages -- Genetic aspects, Infection -- Causes of, Gene expression -- Physiological aspects, Toxins -- Physiological aspects, Biological sciences
Abstract

Research has been conducted on Vibrio cholerae CTXphi, a filamentous bacteriophage encoding cholera toxin. The role of CTXphi minor coat protein in CTXphi infection has been ivestigated, and the results are reported.

Published
2003

32. Transient Shielding of Intimin and the Type III Secretion System of Enterohemorrhagic and Enteropathogenic Escherichia coli by a Group 4 Capsule

Author

Shifrin, Yulia, primary, Peleg, Adi, additional, Ilan, Ophir, additional, Nadler, Chen, additional, Kobi, Simi, additional, Baruch, Kobi, additional, Yerushalmi, Gal, additional, Berdichevsky, Tatiana, additional, Altuvia, Shoshy, additional, Elgrably-Weiss, Maya, additional, Abe, Cecilia, additional, Knutton, Stuart, additional, Sasakawa, Chihiro, additional, Ritchie, Jennifer M., additional, Waldor, Matthew K., additional, and Rosenshine, Ilan, additional

Published
2008
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39. The Three Vibrio cholerae Chromosome II-Encoded ParE Toxins Degrade Chromosome I following Loss of Chromosome II.

Author

Jie Yuan, Yamaichi, Yoshiharu, and Waldor, Matthew K.

Subjects
*VIBRIO cholerae, *CHROMOSOMES, *TOXINS, *PLASMIDS, *ANTITOXINS
Abstract

Three homologues of the plasmid RK2 ParDE toxin-antitoxin system are present in the Vibrio cholerae genome within the superintegron on chromosome II. Here we found that these three loci--two of which have identical open reading frames and regulatory sequences--encode functional toxin-antitoxin systems. The ParE toxins inhibit bacterial division and reduce viability, presumably due to their capacity to damage DNA. The in vivo effects of ParE1/3 mimic those of ParE2, which we have previously demonstrated to be a DNA gyrase inhibitor in vitro, suggesting that ParE1/3 is likewise a gyrase inhibitor, despite its relatively low degree of sequence identity. ParE-mediated DNA damage activates the V. cholerae SOS response, which in turn likely accounts for ParE's inhibition of cell division. Each toxin's effects can be prevented by the expression of its cognate ParD antitoxin, which acts in a toxin-specific fashion both to block toxicity and to repress the expression of its parDE operon. Derepression of ParE activity in AparAB2 mutant V. cholerae cells that have lost chromosome II contributes to the prominent DNA degradation that accompanies the death of these cells. Overall, our findings suggest that the ParE toxins lead to the postsegregational killing of cells missing chromosome II in a manner that closely mimics postsegregational killing mediated by plasmid-encoded homologs. Thus, theparDE loci aid in the maintenance of the integrity of the V. cholerae superintegron and in ensuring the inheritance of chromosome II. [ABSTRACT FROM AUTHOR]

Published
2011
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40. Genetic analysis of the role of the conserved inner membrane protein CvpA in EHEC resistance to deoxycholate.

Author

Warr AR, Giorgio RT, and Waldor MK

Abstract

The function of cvpA , a bacterial gene predicted to encode an inner membrane protein, is largely unknown. Early studies in E. coli linked cvpA to Colicin V secretion and recent work revealed that it is required for robust intestinal colonization by diverse enteric pathogens. In enterohemorrhagic E. coli (EHEC), cvpA is required for resistance to the bile salt deoxycholate (DOC). Here, we carried out genome-scale transposon-insertion mutagenesis and spontaneous suppressor analysis to uncover cvpA's genetic interactions and identify common pathways that rescue the sensitivity of a Δ cvpA EHEC mutant to DOC. These screens demonstrated that mutations predicted to activate the σ E -mediated extracytoplasmic stress response bypass the Δ cvpA mutant's susceptibility to DOC. Consistent with this idea, we found that deletions in rseA and msbB and direct overexpression of rpoE restored DOC resistance to the Δ cvpA mutant. Analysis of the distribution of CvpA homologs revealed that this inner membrane protein is conserved across diverse bacterial phyla, in both enteric and non-enteric bacteria that are not exposed to bile. Together, our findings suggest that CvpA plays a role in cell envelope homeostasis in response to DOC and similar stress stimuli in diverse bacterial species. IMPORTANCE Several enteric pathogens, including Enterohemorrhagic E. coli (EHEC), require CvpA to robustly colonize the intestine. This inner membrane protein is also important for secretion of a colicin and EHEC resistance to the bile salt deoxycholate (DOC), but its function is unknown. Genetic analyses carried out here showed that activation of the σ E -mediated extracytoplasmic stress response restored the resistance of a cvpA mutant to DOC, suggesting that CvpA plays a role in cell envelope homeostasis. The conservation of CvpA across diverse bacterial phyla suggests that this membrane protein facilitates cell envelope homeostasis in response to varied cell envelope perturbations., (Copyright © 2020 American Society for Microbiology.)

Published
2020
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41. pIIICTX, a predicted CTXphi minor coat protein, can expand the host range of coliphage fd to include Vibrio cholerae.

Author

Heilpern AJ and Waldor MK

Subjects
Amino Acid Sequence, Capsid Proteins physiology, Molecular Sequence Data, Bacteriophage M13 physiology, Cholera Toxin genetics, DNA-Binding Proteins physiology, Vibrio cholerae virology, Viral Fusion Proteins physiology
Abstract

CTXphi is a filamentous bacteriophage that encodes cholera toxin. CTXphi infection of its host bacterium, Vibrio cholerae, requires the toxin-coregulated pilus (TCP) and the products of the V. cholerae tolQRA genes. Here, we have explored the role of OrfU, a predicted CTXphi minor coat protein, in CTXphi infection. Prior to the discovery that it was part of a prophage, orfU was initially described as an open reading frame of unknown function that lacked similarity to known protein sequences. Based on its size and position in the CTXphi genome, we hypothesized that OrfU may function in a manner similar to that of the coliphage fd protein pIII and mediate CTXphi infection as well as playing a role in CTXphi assembly and release. Deletion of orfU from CTXphi dramatically reduced the number of CTXphi virions detected in supernatants from CTXphi-bearing cells. This defect was complemented by expression of orfU in trans, thereby confirming a role for this gene in CTXphi assembly and/or release. To evaluate the requirement for OrfU in CTXphi infection, we introduced fragments of orfU into gIII in an fd derivative to create OrfU-pIII fusions. While fd is ordinarily unable to infect V. cholerae, an fd phage displaying the N-terminal 274 amino acids of OrfU could infect V. cholerae in a TCP- and TolA-dependent fashion. Since our findings indicate that OrfU functions as the CTXphi pIII, we propose to rename OrfU as pIII(CTX). Our data also provide new evidence for a conserved pathway for filamentous phage infection.

Published
2003
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