Hiroshi Arita scite author profile

By using biotinylated enterotoxin DNA probes, a method to detect enterotoxigenic Escherichia coli by colony hybridization was developed. The treatment of colonies on nitrocellulose membrane filters with proteinase K and Triton X-100 was essential for obtaining the specific hybridization. A total of 200 E. coli strains isolated from travelers with diarrhea were tested for colony hybridization by using a probe encoding heat-labile toxin (LT) type h. All strains (86 of 86) that produced LT, but none of the non-LT producers, hybridized with 32P-labeled and biotinylated LT type h probes. A total of 36 strains chosen randomly from the 200 isolates were tested for colony hybridization by using heat-stable enterotoxin (ST) probes. All but two strains that hybridized with the 32P-labeled ST type la probe also hybridized with the biotinylated ST type la probe. All strains that hybridized with the 32P-labeled ST type lb probe also hybridized with the biotinylated ST type lb probe. Thus, almost all E. coli strains tested were judged to be the same by colony hybridization with biotinylated or 32P-labeled enterotoxin probes. These results demonstrate that the biotinylated enterotoxin probes are useful in the diagnosis of enterotoxigenic E. coli strains by colony hybridization.

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Molecular analysis of enterotoxin plasmids of enterotoxigenic Escherichia coli of 14 different O serotypes

Danbara

Komase

Arita

et al. 1988

Infect Immun

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A total of 104 isolates of enterotoxigenic Escherichia coli derived from diarrheal patients from more than 10 countries were examined for serotype and toxigenicity. The transferability and molecular structure of the enterotoxin plasmids from each isolate were also examined. Enterotoxin plasmids from serotypes such as 06, 025, 027, 0126, 0128, and 0159, which are frequently associated with E. coli diarrhea (classical strains) generally did not transfer by conjugation from clinical isolates, whereas those from serotypes such as 07, 017, 080, 098, 0139, 0150, and 0153, which are rarely associated with diarrhea (rare strains) transferred almost always from the clinical isolates by conjugation. Analyses of enterotoxin plasmids by restriction endonucleases and DNA-DNA hybridization with the enterotoxin probes revealed that the strains with the same 0 serotype and toxigenicity carry closely related enterotoxin plasmids. These results suggest that classical strains resulted from the dissemination of ancestral clones which received enterotoxin plasmids long ago, while the rare strains acquired the enterotoxin plasmids recently by conjugation and have not yet been spread to the same degree as the ancestral clones.

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Conjugal Acquisition and Stable Maintenance of Ent Plasmids in Nontoxigenic Wild‐Type Strains of Escherichia coli

Danbara

Arita

Baba³

et al. 1986

Microbiology and Immunology

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In spite of the ability of the genetic determinants for enterotoxin production to be conjugally transferred, mobilized or transposed, enterotoxigenic Escherichia coli (ETEC) isolated from diarrheal patients is restricted to certain serotypes. Four conjugative enterotoxigenic plasmids (Ent plasmids)encoding either a heatlabile enterotoxin or a heat-stable enterotoxin or both and belonging to one of three incompatibility groups IncFI, IncH1, or IncX, were examined for their transferability to and stability in 157 nonenterotoxigenic Escherichia coli strains belonging to various serotypes and 89 clinical isolates nonenterotoxigenic but belonging to those serotypes in which ETEC from diarrheal patients are usually found. The serotypes of the strains to which Ent plasmids were efficiently transferred and in which they were maintained stably were not always the serotypes in which ETEC had usually been found and vice versa. The frequencies of transfer of four Ent and two R plasmids to each of the 157 recipients were correlated with each other, indicating that the frequency of transfer of the plasmid is not determined by a resident plasmid, if there is one, but by a recipient factor which commonly affects transferability to all donors. These results have led to the conclusion that the reason why only certain serotypes are found among ETEC isolated from diarrheal patients is not the ability of these strains specifically and preferentially to acquire and maintain the Ent plasmids.

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Hiroshi Arita

Analysis of the plasmids of Escherichia coli O148:H28 from travellers with diarrhea

Detection of enterotoxigenic Escherichia coli by colony hybridization with biotinylated enterotoxin probes

Molecular analysis of enterotoxin plasmids of enterotoxigenic Escherichia coli of 14 different O serotypes

Conjugal Acquisition and Stable Maintenance of Ent Plasmids in Nontoxigenic Wild‐Type Strains of Escherichia coli

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