Characterization of an organism that produces type E botulinal toxin but which resembles Clostridium butyricum from the feces of an infant with type E botulism

McCroskey, L M; Hatheway, Charles L.; Fenicia, Lucia; Pasolini, Beatrice; Aureli, Paolo

doi:10.1128/jcm.23.1.201-202.1986

Cited by 175 publications

(39 citation statements)

References 6 publications

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“…Botulinum neurotoxins (BoNT) are produced by phenotypically and genetically different Clostridium species including Clostridium botulinum, and some strains of Clostridium baratii (McCroskey et al 1991) and Clostridium butyricum (McCroskey et al 1986). BoNTs are the most potent biological and chemical substances known and are responsible for botulism, which is characterized by severe flaccid paralysis.…”

Section: Introductionmentioning

confidence: 99%

Development of real-time PCR tests for detecting botulinum neurotoxins A, B, E, F producingClostridium botulinum,Clostridium baratiiandClostridium butyricum

Fach

Micheau

Mazuet

et al. 2009

Journal of Applied Microbiology

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Aims: To develop real‐time PCR assays for tracking and tracing clostridia responsible for human botulism. Methods and Results: Real‐time PCR assays based on the detection of the genes ntnh encoding the nontoxin‐nonhaemagglutinin (NTNH) proteins or the most homologous regions of the botulinum neurotoxin (bont) genes have been developed together with four real‐time PCR assays, each being specific of the genes bont/A, bont/B, bont/E, bont/F and enables a toxin type‐specific identification. The specificity of the assays was demonstrated using a panel of botulinum toxin producing clostridia (29 strains), nonbotulinum toxin producing clostridia (21 strains) and various other bacterial strains. The toxin type‐specific assays had a sensitivity of 100 fg–1000 fg of total DNA in the PCR tube (25–250 genome equivalents) which correspond to 103 to 104 cells ml−1. After a 48 h enrichment in anaerobic conditions, these PCR assays allowed the detection of Clostridium botulinum type A in a naturally contaminated sample of ‘foie gras’ suspected in a C. botulinum outbreak. Conclusion: These PCR tests are specific and reliable for detection of heterogeneous BoNT producing clostridia responsible for human botulism. Significance and Impact of the Study: Adoption of these PCR assays is a step forward a reliable and rapid detection of these clostridia in food samples.

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Section: Introductionmentioning

confidence: 99%

Development of real-time PCR tests for detecting botulinum neurotoxins A, B, E, F producingClostridium botulinum,Clostridium baratiiandClostridium butyricum

Fach

Micheau

Mazuet

et al. 2009

Journal of Applied Microbiology

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“…proteolytic strains) whilst in other cases the same toxin type is produced by different genotypes (BoNT types B and F). Recently some strains of C. barati Table 1 Comparison of percentage sequence similarities (lower left hand triangle) and total number of nucleotide differences (upper right hand triangle) for a 1516nucleotide region of 16S rRNA of saccharolytic C. botulinum and other clostridia and C. butyricum have been shown to produce BoNT (types F and E respectively; [5][6][7]) and which by definition are now considered to be C. botulinum. In view of the above taxonomic complexities and the clinical and veterinary importance of C. botulinum there is an urgent need to determine the precise genetic interrelationships of members of this species complex.…”

Section: Introductionmentioning

confidence: 99%

Genetic interrelationships of saccharolytic Clostridium botulinum types B, E and F and related clostridia as revealed by small-subunit rRNA gene sequences

Hutson

1993

FEMS Microbiology Letters

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Abstract:The phylogenetic interrelationships of saccharolytic C. botulinum types B, E and F together with eleven other saccharolytic clostridia were examined by 16S rRNA gene sequencing. Comparative analysis of the sequence data revealed that the saccharolytic C. botulinum types B, E and F were highly related and represent a single genetic group. Strains of C. barati and C. butyricum that produce botulinal neurotoxin revealed almost 100% 16S rRNA sequence identity with their respective non-toxigenic counterparts and were phylogenetically distinct from saccharolytic C. botulinum (types B, E and F). Proteolytic C. botulinum type F was shown to be phylogenetically remote from the saccharolytic C. botulinum group. The implications of the sequence data for the taxonomy of the C. botulinum complex are discussed.

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“…BoNT type B is produced by saccharolytic and proteolytic genotypes). The classification of C. botulinum has been further complicated by reports of neurotoxins produced by some strains of C. barati [6,7] and C. butyricum [8,9] that cross-react with antisera raised against BoNT types F and E respectively. The genospecific authenticity of these strains has been confirmed by definitive molecular techniques [2,4].…”

Section: Introductionmentioning

confidence: 99%

Nucleotide sequence of the gene coding for Clostridium barati type F neurotoxin: Comparison with other clostridial neurotoxins

Thompson

1993

FEMS Microbiology Letters

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The neurotoxin gene from Clostridium barati ATCC43756 was cloned as a series of overlapping polymerase chain reaction (PCR) generated fragments using primers designed to conserve toxin sequences previously published. The toxin gene has an open reading frame (ORF) of 1268 amino acids giving a calculated molecular mass of 141,049 Da. The sequence identity between the C. barati ATCC43756 and non-proteolytic C. botulinum 202F neurotoxins is 64.2% for the light chain and 73.6% for the heavy chain. This is much lower than reported identities for the type E neurotoxins from C. botulinum and C. butyricum (96% identity between light chains and 98.8% between the heavy chains). Previously identified conserved regions in other botulinal neurotoxins were also conserved in that of C. barati. An ORF upstream of the toxin coding region was revealed. This shows strong homology to the 3' end of the gene coding for the nontoxic-nonhemagglutinin (NTNH) component of the progenitor toxin from C. botulinum type C neurotoxin.

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Characterization of an organism that produces type E botulinal toxin but which resembles Clostridium butyricum from the feces of an infant with type E botulism

Cited by 175 publications

References 6 publications

Development of real-time PCR tests for detecting botulinum neurotoxins A, B, E, F producingClostridium botulinum,Clostridium baratiiandClostridium butyricum

Development of real-time PCR tests for detecting botulinum neurotoxins A, B, E, F producingClostridium botulinum,Clostridium baratiiandClostridium butyricum

Genetic interrelationships of saccharolytic Clostridium botulinum types B, E and F and related clostridia as revealed by small-subunit rRNA gene sequences

Nucleotide sequence of the gene coding for Clostridium barati type F neurotoxin: Comparison with other clostridial neurotoxins

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