Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
Records 1-20 (of 20 Records) |
Query Trace: Maslanka SE[original query] |
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Purification and Characterization of Botulinum Neurotoxin FA from a Genetically Modified Clostridium botulinum Strain.
Pellett S , Tepp WH , Bradshaw M , Kalb SR , Dykes JK , Lin G , Nawrocki EM , Pier CL , Barr JR , Maslanka SE , Johnson EA . mSphere 2016 1 (1) Botulinum neurotoxins (BoNTs), produced by neurotoxigenic clostridial species, are the cause of the severe disease botulism in humans and animals. Early research on BoNTs has led to their classification into seven serotypes (serotypes A to G) based upon the selective neutralization of their toxicity in mice by homologous antibodies. Recently, a report of a potential eighth serotype of BoNT, designated "type H," has been controversial. This novel BoNT was produced together with BoNT/B2 in a dual-toxin-producing Clostridium botulinum strain. The data used to designate this novel toxin as a new serotype were derived from culture supernatant containing both BoNT/B2 and novel toxin and from sequence information, although data from two independent laboratories indicated neutralization by antibodies raised against BoNT/A1, and classification as BoNT/FA was proposed. The sequence data indicate a chimeric structure consisting of a BoNT/A1 receptor binding domain, a BoNT/F5 light-chain domain, and a novel translocation domain most closely related to BoNT/F1. Here, we describe characterization of this toxin purified from the native strain in which expression of the second BoNT (BoNT/B) has been eliminated. Mass spectrometry analysis indicated that the toxin preparation contained only BoNT/FA and confirmed catalytic activity analogous to that of BoNT/F5. The in vivo mouse bioassay indicated a specific activity of this toxin of 3.8 x 10(7) mouse 50% lethal dose (mLD50) units/mg, whereas activity in cultured human neurons was very high (50% effective concentration [EC50] = 0.02 mLD50/well). Neutralization assays in cells and mice both indicated full neutralization by various antibodies raised against BoNT/A1, although at 16- to 20-fold-lower efficiency than for BoNT/A1. IMPORTANCE Botulinum neurotoxins (BoNTs), produced by anaerobic bacteria, are the cause of the potentially deadly, neuroparalytic disease botulism. BoNTs have been classified into seven serotypes, serotypes A to G, based upon their selective neutralization by homologous antiserum, which is relevant for clinical and diagnostic purposes. Even though supportive care dramatically reduces the death rate of botulism, the only pharmaceutical intervention to reduce symptom severity and recovery time is early administration of antitoxin (antiserum raised against BoNTs). A recent report of a novel BoNT serotype, serotype H, raised concern of a "treatment-resistant" and highly potent toxin. However, the toxin's chimeric structure and characteristics indicate a chimeric BoNT/FA. Here we describe the first characterization of this novel toxin in purified form. BoNT/FA was neutralized by available antitoxins, supporting classification as BoNT/FA. BoNT/FA required proteolytic activation to achieve full toxicity and had relatively low potency in mice compared to BoNT/A1 but surprisingly high activity in cultured neurons. |
Characterizing the fecal microbiota of infants with botulism.
Shirey TB , Dykes JK , Luquez C , Maslanka SE , Raphael BH . Microbiome 2015 3 (1) 54 BACKGROUND: Infant botulism is the most prevalent form of botulism in the USA, representing 68.5 % of cases reported from 2001-2012. Infant botulism results when botulinum toxin-producing clostridia (BTPC) colonize the infant gut with concomitant in vivo production of the highly potent botulinum neurotoxin (BoNT). The gut microbiota of infants with botulism is largely uncharacterized; therefore, it remains unclear whether the microbiota profile of these patients are distinct in composition, abundance, or diversity. To address this uncertainty, we employed 16S rRNA gene profiling to characterize the fecal microbiota in 14 stool samples among laboratory-confirmed and non-confirmed infant botulism cases. RESULTS: Seven bacterial phyla were identified among all 14 infant stool samples examined. Compared to samples from non-confirmed cases, the fecal microbiota of infant botulism patients displayed significantly higher Proteobacteria abundance. Of the 20 bacterial families identified, Enterobacteriaceae was significantly more abundant in samples from infants with botulism. Firmicutes abundance and the abundance ratio of Firmicutes/Proteobacteria was significantly lower in samples from infants with botulism. Lactobacillus spp. abundance was notably reduced in 12 of the 14 samples. Clostridium botulinum and Clostridium baratii were identified in low relative abundances in confirmed and non-confirmed samples based on their 16S rRNA gene profiles, although their toxigenicity remained undetermined. No significant differences were observed in the number of operational taxonomic units (OTUs) observed or in fecal microbiota diversity between laboratory-confirmed and non-confirmed samples. Correlations between individual phylum abundances and infant age were variable, and no significant differences were shown in number of OTUs observed or in fecal microbiota diversity between samples delineated by overall mean age. CONCLUSIONS: Significant differences in Proteobacteria, Firmicutes, and Enterobacteriaceae abundances were identified in the fecal microbiota of infants with botulism when compared to samples from non-confirmed cases. Fecal microbiota diversity was not significantly altered in infants with botulism, and a limited presence of BTPC was shown. It could not be determined whether the fecal microbiota profiles shown here were comparable prior to patient illness, or whether they were the direct result of infant botulism. The results of this study do, however, provide a detailed and descriptive observation into the infant gut microbiota after intestinal colonization by BTPC. |
Laboratory Investigation of the First Case of Botulism Caused by Clostridium butyricum Type E Toxin in the United States
Dykes JK , Luquez C , Raphael BH , McCroskey L , Maslanka SE . J Clin Microbiol 2015 53 (10) 3363-5 We report here the laboratory investigation of the first known case of botulism in the United States caused by C. butyricum type E. This investigation demonstrates the importance of extensive microbiological examination of specimens which resulted in the isolation of this organism. |
A Novel Botulinum Toxin, Previously Reported as Serotype H, has a Hybrid Structure of Known Serotypes A and F that is Neutralized with Serotype A Antitoxin.
Maslanka SE , Luquez C , Dykes JK , Tepp WH , Pier CL , Pellett S , Raphael BH , Kalb SR , Barr JR , Rao A , Johnson EA . J Infect Dis 2015 213 (3) 379-85 Botulism is a potentially fatal paralytic disease caused by the action of botulinum neurotoxin (BoNT) on nerve cells. There are 7 known serotypes (A through G) of BoNT and up to 40 genetic variants. Clostridium botulinum strain IBCA10-7060 was recently reported to produce BoNT serotype B (BoNT/B) and a novel BoNT, designated by the authors as BoNT/H. The botulinum neurotoxin gene (bont) sequence of BoNT/H was analyzed against known related bont sequences. Genetic analysis suggested that BoNT/H has a hybrid-like structure containing regions of similarity to BoNT/A1 and /F5. This novel BoNT was serologically characterized by the mouse neutralization assay and a neuronal cell-based assay. The toxic effects of this hybrid-like BoNT were completely eliminated by existing serotype A antitoxin including those contained in multivalent therapeutic antitoxin products that are the mainstay for human botulism treatment. |
Functional characterization of botulinum neurotoxin serotype H as a hybrid of known serotypes F and A (BoNT F/A)
Kalb SR , Baudys J , Raphael BH , Dykes JK , Luquez C , Maslanka SE , Barr JR . Anal Chem 2015 87 (7) 3911-7 A unique strain of Clostridium botulinum (IBCA10-7060) was recently discovered which produces two toxins: botulinum neurotoxin (BoNT) serotype B and a novel BoNT reported as serotype H. Previous molecular assessment showed that the light chain (LC) of the novel BoNT most resembled the bont of the light chain of known subtype F5, while the C-terminus of the heavy chain (HC) most resembled the binding domain of serotype A. We evaluated the functionality of both toxins produced in culture by first incorporating an immunoaffinity step using monoclonal antibodies to purify BoNT from culture supernatants and tested each immune-captured neurotoxin with full-length substrates vesicle-associated membrane protein 2 (VAMP-2), synaptosomal-associated protein 25 (SNAP-25), syntaxin, and shortened peptides representing the substrates. The BoNT/B produced by this strain behaved as a typical BoNT/B, having immunoaffinity for anti-B monoclonal antibodies and cleaving both full length VAMP-2 and a peptide based on the sequence of VAMP-2 in the expected location. As expected, there was no activity toward SNAP-25 or syntaxin. The novel BoNT demonstrated immunoaffinity for anti-A monoclonal antibodies but did not cleave SNAP-25 as expected for BoNT/A. Instead, the novel BoNT cleaved VAMP-2 and VAMP-2-based peptides in the same location as BoNT/F5. This is the first discovery of a single botulinum neurotoxin with BoNT/A antigenicity and BoNT/F light chain function. This work suggests that the newly reported serotype H may actually be a hybrid of previously known BoNT serotype A and serotype F, specifically subtype F5. |
Molecular subtyping of Clostridium botulinum by pulsed-field gel electrophoresis.
Luquez C , Joseph LA , Maslanka SE . Methods Mol Biol 2015 1301 103-13 Pulsed-field gel electrophoresis (PFGE) has been extensively used to estimate the genetic diversity of Clostridium botulinum. In addition, PFGE is the standard method for investigating foodborne outbreaks associated with various enteric pathogens, including C. botulinum. PFGE can be used to exclude a suspected but not confirmed food source when the patterns of the food and clinical isolates are different. Indistinguishable PFGE patterns may also be useful for linking isolates between patients or to a food source, but results must be interpreted within an epidemiological context to ensure isolates are truly related. Here, we describe a standardized laboratory protocol for molecular subtyping of C. botulinum by PFGE. |
Detection of botulinum toxins A, B, E, and F in foods by Endopep-MS
Kalb SR , Krilich JC , Dykes JK , Luquez C , Maslanka SE , Barr JR . J Agric Food Chem 2015 63 (4) 1133-1141 Botulism is caused by exposure to botulinum neurotoxins (BoNTs). BoNTs are proteins secreted by some species of clostridia; these neurotoxins are known to interfere with nerve impulse transmission, thus causing paralysis. Botulism may be contracted through consumption of food either naturally or intentionally contaminated with BoNT. The human lethal dose of BoNT is not known but is estimated to be between 0.1 and 70 mug; thus, it is important to be able to detect small amounts of this toxin in foods to ensure food safety and to identify the source of an outbreak. Our laboratory previously reported on the development of Endopep-MS, a mass-spectrometric-based endopeptidase method for the detection and differentiation of BoNT. This method can detect BoNT at levels below the historic standard mouse bioassay in clinical samples such as serum, stool, and culture supernatants. We have now expanded this assay to detect BoNT in over 50 foods including representative products that were involved in actual botulism investigations. The foods tested by the Endopep-MS included those with various acidities, viscosities, and fat levels. Dairy and culturally diverse products were also included. This work demonstrates that the Endopep-MS method can be used to detect BoNT/A, /B, /E, and /F in foods at levels spiked below that of the limit of detection of the mouse bioassay. Furthermore, we successfully applied this method to investigate several foods associated with botulism outbreaks. |
Distinguishing highly-related outbreak-associated Clostridium botulinum type A(B) strains
Raphael BH , Shirey TB , Luquez C , Maslanka SE . BMC Microbiol 2014 14 192 BACKGROUND: In the United States, most Clostridium botulinum type A strains isolated during laboratory investigations of human botulism demonstrate the presence of an expressed type A botulinum neurotoxin (BoNT/A) gene and an unexpressed BoNT/B gene. These strains are designated type A(B). The most common pulsed-field gel electrophoresis (PFGE) pattern in the C. botulinum PulseNet database is composed of A(B) strains. The purpose of this study was to evaluate the ability of genome sequencing and multi-loci variable number of tandem repeat analysis (MLVA) to differentiate such strains. RESULTS: The genome sequences of type A(B) strains evaluated in this study are closely related and cluster together compared to other available C. botulinum Group I genomes. In silico multilocus sequence typing (MLST) analysis (7-loci) was unable to differentiate any of the type A(B) strains isolated from seven different outbreak investigations evaluated in this study. A 15-locus MLVA scheme demonstrated an improved ability to differentiate these strains, however, repeat unit variation among the strains was restricted to only two loci. Reference-free single nucleotide polymorphism (SNP) analysis demonstrated the ability to differentiate strains from all of the outbreaks examined and a non-outbreak associated strain. CONCLUSIONS: This study confirms that type A(B) strains that share the same PFGE pattern also share closely-related genome sequences. The lack of a complete type A(B) strain representative genome sequence hinders the ability to assemble genomes by reference mapping and analysis of SNPs at pre-identified sites. However, compared to other methods evaluated in this study, a reference-free SNP analysis demonstrated optimal subtyping utility for type A(B) strains using de novo assembled genome sequences. |
Clostridium botulinum strains producing BoNT/F4 or BoNT/F5.
Raphael BH , Bradshaw M , Kalb SR , Joseph LA , Luquez C , Barr JR , Johnson EA , Maslanka SE . Appl Environ Microbiol 2014 80 (10) 3250-7 Botulinum neurotoxin type F (BoNT/F) may be produced by Clostridium botulinum alone or in combination with another toxin type such as types A or B. Type F neurotoxin gene sequences have been further classified into 7 toxin subtypes. Recently, the genome sequence of one strain of C. botulinum (Af84) was shown to contain three neurotoxin genes (bont/F4, bont/F5, and bont/A2). In this study, a total of 8 strains containing bont/F4 and 7 strains containing bont/F5 were examined. Culture supernatants produced by these strains were incubated with BoNT/F-specific peptide substrates. Cleavage products of these peptides were subjected to mass spectral analysis allowing detection of the BoNT/F subtypes present in the culture supernatants. PCR analysis demonstrated that a plasmid-specific marker (PL-6) was observed only among strains containing bont/F5. Among these strains, Southern hybridization revealed the presence of an approximately 242-kb plasmid harboring bont/F5-. Genome sequencing of four of these strains revealed that the genomic backgrounds of strains harboring either bont/F4 or bont/F5 are diverse. None of the strains analyzed in this study were shown to produce BoNT/F4 and BoNT/F5 simultaneously suggesting that strain Af84 is unusual. Finally, these data support a role for the mobility of a bont/F5-encoding plasmid among strains of diverse genomic backgrounds. |
Recovery and detection of botulinum neurotoxins from a nonporous surface
Lautenschlager M , Maslanka SE , Paul PA , Kalb SR , Barr JR , Raphael BH . J Microbiol Methods 2012 92 (3) 278-80 We describe the adaptation of a sample recovery method for botulinum neurotoxins from stainless steel. Botulinum toxin was recovered from surfaces left to dry for up to 16 hrs and detected by either ELISA or EndoPep mass spectrometry methods. In addition, we demonstrate that this method can be used to evaluate the efficacy of surface decontamination procedures. |
Genetic diversity among Clostridium botulinum strains harboring bont/A2 and bont/A3 genes.
Luquez C , Raphael BH , Joseph LA , Meno SR , Fernandez RA , Maslanka SE . Appl Environ Microbiol 2012 78 (24) 8712-8 Clostridium botulinum type A strains are known to be genetically diverse and widespread throughout the world. Genetic diversity studies have focused mainly on strains harboring one type A botulinum toxin gene, bont/A1, although all reported bont/A gene variants have been associated with botulism cases. Our study provides insight into the genetic diversity of C. botulinum type A strains which contain bont/A2 (N=42) and bont/A3 (N=4) isolated from diverse samples and geographic origins. Genetic diversity was assessed using bont nucleotide sequencing, content analysis of the bont gene clusters, multi-locus sequence typing (MLST), and pulsed-field gel electrophoresis (PFGE). Sequences of bont genes obtained in this study showed 99.9-100% identity with other bont/A2 or bont/A3 gene sequences available in public databases. The neurotoxin gene clusters of the A2 and A3 strains analyzed in this study were similar in gene content. C. botulinum strains harboring bont/A2 and bont/A3 genes were divided into six and two MLST profiles, respectively. Four groups of strains shared a similarity of at least 95% by PFGE; the largest group included 21 out of 46 strains. The strains analyzed in this study showed relatively limited genetic diversity using either MLST or PFGE. |
Ultrafiltration improves ELISA and Endopep MS analysis of botulinum neurotoxin type A in drinking water
Raphael BH , Lautenschlager M , Kahler A , Pai S , Parks BA , Kalb SR , Maslanka SE , Shah S , Magnuson M , Hill V . J Microbiol Methods 2012 90 (3) 267-72 The objective of this study was to adapt and evaluate two in vitro botulinum neurotoxin (BoNT) detection methods, including the Botulinum Toxin ELISA and the Endopep MS (a mass spectrometric-based endopeptidase method), for use with drinking water samples. The method detection limits (MDL) of the ELISA and Endopep MS were 260pg/mL and 21pg/mL of BoNT/A complex toxin, respectively. Since toxin could be present in water samples at highly dilute concentrations, large volume (100-L) samples of municipal tap water from five US municipalities having distinct water compositions were dechlorinated, spiked with 5mcg BoNT/A, and subjected to tangential-flow ultrafiltration (UF) using hollow fiber dialyzers. The recovery efficiency of BoNT/A using UF and quantified by ELISA ranged from 11% to 36% while efficiencies quantified by MS ranged from 26% to 55%. BoNT/A was shown to be stable in dechlorinated municipal tap water stored at 4 degrees C for up to four weeks. In addition, toxin present in UF-concentrated water samples was also shown to be stable at 4 degrees C for up to four weeks, allowing holding of samples prior to analysis. Finally, UF was used to concentrate a level of toxin (7pg/mL) which is below the MDL for direct analysis by both ELISA and Endopep MS. Following UF, toxin was detectable in these samples using both in vitro analysis methods. These data demonstrate that UF-concentration of toxin from large volume water samples followed by use of existing analytical methods for detection of BoNT/A can be used in support of a monitoring program for contaminants in drinking water. |
Discovery of a novel enzymatic cleavage site for botulinum neurotoxin F5.
Kalb SR , Baudys J , Webb RP , Wright P , Smith TJ , Smith LA , Fernandez R , Raphael BH , Maslanka SE , Pirkle JL , Barr JR . FEBS Lett 2011 586 (2) 109-15 Botulinum neurotoxins (BoNTs) cause botulism by cleaving proteins necessary for nerve transmission. There are seven serotypes of BoNT, A-G, characterized by their response to antisera. Many serotypes are further distinguished into differing subtypes based on amino acid sequence some of which result in functional differences. Our laboratory previously reported that all tested subtypes within each serotype have the same site of enzymatic activity. Recently, three new subtypes of BoNT/F; /F3, /F4, and /F5, were reported. Here, we report that BoNT/F5 cleaves substrate synaptobrevin-2 in a different location than the other BoNT/F subtypes, between (54)L and (55)E. This is the first report of cleavage of synaptobrevin-2 in this location. STRUCTURED SUMMARY OF PROTEIN INTERACTIONS: BoNT/F5cleavesSynaptobrevin-2 by protease assay (View interaction: 1, 2) BoNT/F1cleavesSynaptobrevin-2 by protease assay (View interaction: 1, 2). |
Utility of Botulinum Toxin ELISA A, B, E, F kits for clinical laboratory investigations of human botulism
Maslanka SE , Luquez C , Raphael BH , Dykes JK , Joseph LA . Botulinum J 2011 2 (1) 72-92 The Botulinum Toxin ELISA effectively provided presumptive identification of toxin in 1381 investigation samples including clinical specimens, suspect foods, and cultures. Additionally, the ELISA detected all toxins produced by a panel of stock strains representing known subtypes and was negative for non-botulinum toxin producing Clostridium and enteric pathogens. ELISA results were reproducible both within the same kit (CV < 9%) and among different production lots (CV < 23%). Fifty-five of 57 laboratories correctly identified unknown samples in a multi-laboratory study. The ELISA provides a rapid, robust in vitro screening method which will reduce animal dependence during laboratory investigations of botulism. Copyright 2011 Inderscience Enterprises Ltd. |
An alternative in vivo method to refine the mouse bioassay for botulinum toxin detection
Wilder-Kofie TD , Luquez C , Adler M , Dykes JK , Coleman JD , Maslanka SE . Comp Med 2011 61 (3) 235-42 Botulism is a rare, life-threatening paralytic disease of both humans and animals that is caused by botulinum neurotoxins (BoNT). Botulism is confirmed in the laboratory by the detection of BoNT in clinical specimens, contaminated foods, and cultures. Despite efforts to develop an in vitro method for botulinum toxin detection, the mouse bioassay remains the standard test for laboratory confirmation of this disease. In this study, we evaluated the use of a nonlethal mouse toe-spread reflex model to detect BoNT spiked into buffer, serum, and milk samples. Samples spiked with toxin serotype A and nontoxin control samples were injected into the left and right extensor digitorum longus muscles, respectively. Digital photographs at 0,8, and 24 h were used to obtain objective measurements through effective paralysis scores, which were determined by comparing the width-to-length ratio between right and left feet. Both objective measurements and clinical observation could accurately identify over 80% of animals injected with 1 LD(50) (4.3 pg) BoNT type A within 24 h. Half of animals injected with 0.5 LD(50) BoNT type A and none injected with 0.25 LD(50) demonstrated localized paralysis. Preincubating the toxin with antitoxin prevented the development of positive effective paralysis scores, demonstrating that (1) the effect was specific for BoNT and (2) identification of toxin serotype could be achieved by using this method. These results suggest that the mouse toe-spread reflex model may be a more humane alternative to the current mouse bioassay for laboratory investigations of botulism. |
Sequence diversity of genes encoding botulinum neurotoxin type F
Raphael BH , Choudoir MJ , Luquez C , Fernandez R , Maslanka SE . Appl Environ Microbiol 2010 76 (14) 4805-12 Botulism due to type F botulinum neurotoxin (BoNT/F) is rare (< 1% of cases) and only a limited number of clostridial strains producing this toxin type have been isolated. As a result, analysis of the diversity of genes encoding BoNT/F has been challenging. In this study, the entire bont/F nucleotide sequences were determined from 33 type F botulinum toxin producing clostridia isolated from environmental sources and botulism outbreak investigations. We examined proteolytic and non-proteolytic Clostridium botulinum type F strains, bivalent strains including Bf and Af, and C. baratii type F strains. Phylogenetic analysis revealed that the bont/F genes examined formed 7 subtypes (F1-F7) and the nucleotide sequence identity of these subtypes differed by up to 25%. The genes from proteolytic (Group I) C. botulinum strains formed subtypes F1 through F5 while the genes from non-proteolytic (Group II) C. botulinum strains formed subtype F6. Subtype F7 was composed exclusively of bont/F genes from C. baratii strains. The region of the bont/F5 gene encoding the neurotoxin light chain was found to be highly divergent compared to the other subtypes. Although the bont/F5 nucleotide sequence was found to be identical in strains harboring this gene, the gene located directly upstream (ntnh/F) demonstrated sequence variation among representative strains of this subtype. These results demonstrate that extensive nucleotide diversity exists among genes encoding type F neurotoxins from strains with different phylogenetic backgrounds and from various geographical sources. |
First report worldwide of an infant botulism case due to Clostridium botulinum type E erratum
Luquez C , Dykes JK , Yu PA , Raphael BH , Maslanka SE . J Clin Microbiol 2010 48 (3) 1017 Volume 48, no. 1, p. 326-328, 2010. Page 328, column 1, lines 27-28: “psychotropic” should read “psychrotrophic.” |
Detection and differentiation of Clostridium botulinum type A strains using a focused DNA microarray
Raphael BH , Joseph LA , McCroskey LM , Luquez C , Maslanka SE . Mol Cell Probes 2010 24 (3) 146-53 A focused oligonucleotide microarray featuring 62 probes targeting strain variable regions of the Clostridium botulinum strain ATCC 3502 genome sequence was developed to differentiate C. botulinum type A strains. The strain variable regions were selected from deletions identified among a panel of 10 type A strains compared to the strain ATCC 3502 genome sequence using high density comparative genomic hybridization microarrays. The focused microarray also featured specific probes for the detection of the neurotoxin genes of various serotypes (A-G), toxin gene cluster components (ha70 and orfX1), and fldB as a marker for proteolytic clostridia (Group I). Eight pairs of strains selected from separate type A botulism outbreaks were included in the 27 subtype A1-A4 strains examined in this study. Each outbreak related strain pair consisted of strains isolated from different sources (stool and food). Of the eight outbreak related strain pairs, six groups of strains with indistinguishable hybridization patterns were identified. Outbreak related strains were shown to have identical hybridization patterns. Strain pairs from three separate outbreaks involving strains harboring both the type A neurotoxin gene (bont/A) and an unexpressed type B neurotoxin gene (bont/B) shared the same probe hybridization profile. The focused microarray format provides a rapid approach for neurotoxin gene detection and preliminary determination of the relatedness of strains isolated from different sources. |
First infant botulism case due to Clostridium botulinum type E worldwide
Luquez C , Dykes JK , Yu PA , Raphael BH , Maslanka SE . J Clin Microbiol 2009 48 (1) 326-8 Clostridium botulinum type E has been associated with botulism in adults, but never in infants. Infant botulism type E cases have been associated with neurotoxigenic strains of C. butyricum. We report the first infant botulism case due to C. botulinum type E worldwide. |
Neurotoxin gene clusters in Clostridium botulinum type Ab strains
Luquez C , Raphael BH , Maslanka SE . Appl Environ Microbiol 2009 75 (19) 6094-101 There is limited knowledge of the neurotoxin gene diversity among Clostridium botulinum type Ab strains. Only the sequences of the bont/A and bont/B genes in C. botulinum type Ab strain CDC1436, and the sequence of the bont/B gene of C. botulinum type Ab strain CDC588 have been reported. In this study, we sequenced the entire bont/A and bont/B associated neurotoxin gene clusters of C. botulinum type Ab strain CDC41370, and the bont/A gene of strain CDC588. In addition, we analyzed the organization of the neurotoxin gene clusters in strains CDC588 and CDC1436. The bont/A nucleotide sequence of strain CDC41370 differed from the known bont/A subtypes A1 - A4 by 2 to 7%, and the predicted amino acid sequence differed by 4% to 14%. The bont/B nucleotide sequence in strain CDC41370 showed 99.7% identity to the sequence of subtype B1. The bont/A nucleotide sequence of strain CDC588 was 99.9% identical to subtype A1. Although all of the C. botulinum type Ab strains analyzed contained the two sets of neurotoxin clusters similar to what has been found in other bivalent strains, the intergenic spacing of p21-orfX1 and orfX2-orfX3 varied among these strains. The type Ab strains examined in this study had differences in their toxin gene cluster composition and bont/A and /B nucleotide sequences, suggesting that they may have arisen from separate recombination events. |
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