Sequence-specific DNA uptake in Haemophilus transformation.

Sisco, Kenneth L.; Smith, Hamilton O.

doi:10.1073/pnas.76.2.972

Cited by 127 publications

(74 citation statements)

References 24 publications

(11 reference statements)

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“…One possibility is that the type b capsule itself has unique virulence properties which confer a measure ofinvasive potential denied to the other capsule serotypes. Since H. influenzae can be transformed to each of the different capsular serotypes using chromosomal DNA (7)(8)(9), we were able to compare these genetically similar strains using a well characterized and biologically relevant rat model of systemic H. influenzae infection (10). Type b transformants were always strikingly more virulent than other capsular types (1 1,12), thus directly implicating the type b capsule itself as a major determinant of H. influenzae pathogenicity.…”

Section: Introductionmentioning

confidence: 99%

Cloning of chromosomal DNA from Haemophilus influenzae. Its use for studying the expression of type b capsule and virulence.

Moxon¹,

Deich²,

Connelly³

1984

J. Clin. Invest.

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As bstract. Haemophilus influenzae may make any one of six chemically distinct capsular polysaccharides, but only strains of capsular serotype b commonly cause systemic infection (e.g., meningitis) in humans. Molecular cloning of DNA was used to investigate the expression of type b capsule and its association with H. influenzae virulence. A virulent H. influenzae type b strain was used to construct a lambda library of chromosomal DNA in Charon 4. Two independently isolated recombinant phage were isolated from the library and were found to possess DNA necessary for expression of type b capsule. Using a well-characterized rat model of H. influenzae systemic infection, we showed that type b transformants elicited by the cloned DNA were pathogenic, causing bacteremia and meningitis, whereas the untransformed capsule-deficient H. influenzae organisms were not. A 4.4-kb EcoRI fragment, common to both DNA clones, was used to characterize clinical isolates representing all six encapsulated serotypes as well as several capsule-deficient H. influenzae by Southern hybridization analysis. The probe hybridized to an identical sized (4.4 kb) fragment of EcoRI-digested chromosomal DNA from eight independently isolated type b strains. Single bands of homology to the probe were also found in EcoRI fragments ofchromosomal DNA obtained from 33 encapsulated, nontype b H. influenzae. However, the size of these EcoRI fragments proved to be characteristic for each of the different capsular serotypes. These studies A preliminary report ofthis work was presented at the Society

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Section: Introductionmentioning

confidence: 99%

Cloning of chromosomal DNA from Haemophilus influenzae. Its use for studying the expression of type b capsule and virulence.

Moxon¹,

Deich²,

Connelly³

1984

J. Clin. Invest.

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“…is a sequence containing a 9 bp core motif, AAGTGCGGT, of which there are 1465 copies in the Haemophilus influenzae strain Rd genome (Smith et al, 1995). This US influences the process of DNA uptake into the recipient cell (Sisco & Smith 1979 ;Danner et al, 1982). Similarly, Neisseria spp.…”

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confidence: 99%

Absence in Helicobacter pylori of an uptake sequence for enhancing uptake of homospecific DNA during transformation

1999

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Uptake sequences are abundant sequence motifs, often located downstream of ORFs, that are used to facilitate the within-species horizontal transfer of DNA. A frequent word analysis of the complete genome sequence of Helicobacter pylori strain 26685 was performed to search for and determine the identity of an uptake sequence in this species. The results demonstrated that Hel. pylori does not possess an uptake sequence. This is the first naturally transformable Gram-negative species shown to lack such a transformation-targeting system. Keywords : uptake sequence, Helicobacter pylori, transformation INTRODUCTIONHelicobacter pylori is a Gram-negative bacterial species which demonstrates a wide spectrum of genetic diversity (Marshall et al., 1998) : its genome size ranges from 1n0 to 1n8 Mb (Takami et al., 1993), extensive intra-strain variability is revealed by RFLP (Akopyanz et al., 1992) and there is little conservation of gene order in unrelated strains (Jiang et al., 1996). The index of association (I A ) is a measure of linkage equilibrium between alleles and this provides a means to measure the genetic relatedness of bacterial strains. The extent to which bacterial populations can then be considered to be ' clonal ' (high linkage disequilibrium\low frequency of horizontal exchange) or ' panmictic ' (linkage equilibrium\high frequency of horizontal exchange) populations can then be determined (Smith et al., 1993). The I A , determined following analysis by multilocus enzyme electrophoresis, does not differ significantly from zero. This indicates that the clonal population structure of Hel. pylori has been completely disrupted due to frequent recombination between strains (Go et al., 1996) and that the population can therefore be considered ' panmictic '. Furthermore, several genes investigated in Hel. pylori demonstrate a large degree of sequence divergence (Marshall et al., 1998), as well as mosaicism (Atherton et al., 1995). Finally, there is a clearly documented example of strains that have undergone horizontal exchange during co-infection of a human host (Kersulyte et al., 1999) Hel. pylori being a population of bacteria that exchange DNA horizontally within the species at a high frequency. Most strains of Hel. pylori are naturally transformable (Nedenskov-Sorensen et al., 1990 ;Wang et al., 1993 ;Tsuda et al., 1993). Naturally transformable bacteria are able to take up DNA readily from their environment and have the capacity to use it as a means of horizontal exchange of genetic information. Other naturally transformable bacteria have developed strategies to increase the likelihood that the substrate for recombination is derived from related bacteria (Solomon & Grossman 1996 ;Saunders et al., 1999). In Grampositive bacteria this is typically achieved through signals of growth phase and cell density that foster transformation only when the majority of the potential donor bacteria are the same species. In Gram-negative bacteria, as exemplified by Haemophilus and Neisseria spp., it is achieved by using uptake...

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“…Gram-positive bacteria, like the well-studied bacteria Bacillus subtilis and Streptococcus pneumoniae, and some Gram-negative bacteria, like Acinetobacter species (Dubnau, 1999;Chen and Dubnau, 2004) and Legionella pneumophila (X Charpentier and HA Shuman, personal communication), are able to take up DNA non-specifically. In contrast, some Gramnegative bacteria, such as H. influenzae, Actinobacillus pleuropneumoniae, Neisseria meningitidis, and N. gonorrhoeae, take up their own DNA preferentially (Sisco and Smith, 1979;Goodman and Scocca, 1988;Smith et al, 1999;Bakkali et al, 2004;Hamilton and Dillard, 2006;Redfield et al, 2006). This specificity arises from the presence of Uptake Signal Sequences (USSs), also called DNA Uptake Sequences (DUSs), that occur frequently in their genomes Dubnau, 1999;Chen and Dubnau, 2004;Redfield et al, 2006).…”

Section: Introductionmentioning

confidence: 99%

tfoX (sxy)-dependent transformation of Aggregatibacter (Actinobacillus) actinomycetemcomitans

Bhattacharjee

Fine

Figurski

2007

Gene

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AbstracttfoX (sxy) is a regulatory gene needed to turn on competence genes. Aggregatibacter (Actinobacillus) actinomycetemcomitans has a tfoX gene that is important for transformation. We cloned this gene on an IncQ plasmid downstream of the inducible tac promoter. When this plasmid was resident in cells of A. actinomycetemcomitans and tfoX was induced, the cells became competent for transformation. Several strains of A. actinomycetemcomitans, including different serotypes, as well as rough (adherent) and isogenic smooth (nonadherent) forms were tested. Only our two serotype f strains failed to be transformed. With the other strains, we could easily get transformants with extrachromosomal plasmid DNA when closed circular, replicative plasmid carrying an uptake signal sequence (USS) was used. When a replicative plasmid carrying a USS and cloned DNA from the chromosome of A. actinomycetemcomitans was linearized by digestion with a restriction endonuclease or when genomic DNA was used directly, the outcome was allelic exchange. To facilitate allelic exchange, we constructed a suicide plasmid (pMB78) that does not replicate in A. actinomycetemcomitans and carries a region with two inverted copies of a USS. This vector gave allelic exchange in the presence of cloned and induced tfoX easily and without digestion. Using transposon insertions in cloned katA DNA, we found that as little as 78 bp of homology at one of the ends was sufficient for that end to participate in allelic exchange. The cloning and induction of tfoX makes it possible to transform nearly any strain of A. actinomycetemcomitans, and allelic exchange has proven to be important for site-directed mutagenesis.

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Sequence-specific DNA uptake in Haemophilus transformation.

Cited by 127 publications

References 24 publications

Cloning of chromosomal DNA from Haemophilus influenzae. Its use for studying the expression of type b capsule and virulence.

Cloning of chromosomal DNA from Haemophilus influenzae. Its use for studying the expression of type b capsule and virulence.

Absence in Helicobacter pylori of an uptake sequence for enhancing uptake of homospecific DNA during transformation

tfoX (sxy)-dependent transformation of Aggregatibacter (Actinobacillus) actinomycetemcomitans

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