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Query: EC:3.4.24.69 (
botulinum neurotoxin
)
1,901
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The cluster of genes encoding the botulinum progenitor toxin and the upstream region including p21 and
p47
were divided into three different gene arrangements (class I-III). To determine the gene similarity of the type E neurotoxin (
BoNT
/E) complex to other types, the gene organization in the upstream region of the nontoxic-nonhemagglutinin gene (ntnh) was investigated in chromosomal DNA from Clostridium botulinum type E strain Iwanai and C. butyricum strain BL6340. The gene cluster of type E progenitor toxin (Iwanai and BL6340) was similar to those of type F and type A (from infant botulism in Japan), but not to those of types A, B, and C. Though genes for the hemagglutinin component and P21 were not discovered, genes encoding P47, NTNH, and
BoNT
were found in type E strain Iwanai and C. butyricum strain BL6340. However, the genes of ORF-X1 (435 bp) and ORF-X2 (partially sequenced) were present just upstream of that of P47. The orientation of these genes was in inverted direction to that of
p47
. The gene cluster of type E progenitor toxin (Iwanai and BL6340) is, therefore, a specific arrangement (class IV) among the genes encoding components of the
BoNT
complex.
...
PMID:Gene arrangement in the upstream region of Clostridium botulinum type E and Clostridium butyricum BL6340 progenitor toxin genes is different from that of other types. 946 94
The nucleotide sequences of the upstream regions of the
botulinum neurotoxin
type A1 (
BoNT
/A1) cluster of Clostridium botulinum strain NCTC 2916 and the
BoNT
/A2 cluster of strain Kyoto-F were determined. A novel gene, designated orfx3, was identified following the orfx2 gene in both clusters. ORF-X2 and ORF-X3 exhibit similarity to the
BoNT
cluster associated P-47 protein. The
BoNT
/A1 and
BoNT
/A2 clusters share a similar gene arrangement, but exhibit differences in the spacing between certain genes. Sequences with similarity to transposases were identified in these intergenic regions, suggesting that these differences arose from an ancestral insertion event. Transcriptional analysis of the
BoNT
/A2 cluster revealed that the genes of the cluster are primarily synthesized as three polycistronic transcripts. Two divergent polycistronic transcripts, one encoding the orfx1, orfx2, and orfx3 genes, the second encoding the
p47
, ntnh, and bont/a2 genes, are transcribed from conserved
BoNT
cluster promoters. The third polycistronic transcript, expressed at low levels, encodes the positive regulatory botR gene and the orfx genes. This is the first complete analysis of a botulinum toxin A2 cluster.
...
PMID:Nucleotide sequence and transcriptional analysis of the type A2 neurotoxin gene cluster in Clostridium botulinum. 1515 56
Production of
botulinum neurotoxin
A (BoNT/A) and associated non-toxic proteins (ANTPs), which include a non-toxic non-haemagglutinin (NTNH/A) as well as haemagglutinins (HAs), was found previously to be dependent upon an RNA polymerase alternative sigma factor (BotR/A). Expression of the botR/A, bont/A and antp genes, monitored by reverse transcription and real-time PCR analysis, occurred concomitantly at the transition between the exponential and stationary growth phases of Clostridium botulinum A. The botR/A expression level was about 100-fold less than those of the bont/A and antp genes. Therefore, BotR/A is an alternative sigma factor controlling the botulinum A locus genes during the transition phase. The highest toxin concentration was released into the culture supernatant 12 h after maximum expression of the botR/A, bont/A and antp genes, without any apparent bacterial lysis. Toxin levels were then stable over 5 days in cultures at 37 degrees C, whereas a dramatic decrease in lethal activity was observed between 24 and 48 h in cultures at 44 degrees C. High temperature did inhibit transcription, since expression levels of the botR/A, bont/A and antp genes were similar in cultures at 37 and 44 degrees C. However, incubation at 44 degrees C triggered a calcium-dependent protease that degraded BoNT/A and NTNH/A, but not HAs. In C. botulinum E, which contains no gene related to botR, the bont/E and
p47
genes were also expressed during the transition phase, and no protease activation at 44 degrees C was evident.
...
PMID:Expression of botulinum neurotoxins A and E, and associated non-toxin genes, during the transition phase and stability at high temperature: analysis by quantitative reverse transcription-PCR. 1651 55
Three Clostridium botulinum type E strains were sequenced for the
botulinum neurotoxin
(
BoNT
) gene cluster, and 11 type E strains, representing a wide biodiversity, were sequenced for the bont/E gene. The total length of the
BoNT
/E gene cluster was 12,908 bp, and a novel gene (partial) designated orfx3, together with the complete orfx2 gene, was identified in the three type E strains for the first time. Apart from orfx3, the structure and organization of the neurotoxin gene cluster of the three strains were identical to those of previously published ones. Only minor differences (</=3%) in the nucleotide sequences of the gene cluster components were observed among the three strains and the published
BoNT
/E-producing clostridia. The orfx3, orfx2, orfx1, and
p47
gene sequences of the three type E strains shared homologies of 81%, 67 to 76%, 78 to 79%, and 79 to 85%, respectively, with published sequences for type A1 and A2 C. botulinum. Analysis of bont/E from the 14 type E strains and 19 previously published
BoNT
/E-producing clostridia revealed six neurotoxin subtypes, with a new distinct subtype consisting of three Finnish isolates alone. The amino acid sequence of the subtype E6 neurotoxin differed 3 to 6% from the other subtypes, suggesting that these subtype E6 neurotoxins may possess specific antigenic or functional properties.
...
PMID:Sequencing the botulinum neurotoxin gene and related genes in Clostridium botulinum type E strains reveals orfx3 and a novel type E neurotoxin subtype. 1790 76
The relative expression levels of six
botulinum neurotoxin
cluster genes in a group II Clostridium botulinum type E strain grown at 10 or 30 degrees C were investigated using quantitative real-time reverse transcription-PCR. An enzyme-linked immunosorbent assay was used to confirm neurotoxin expression. Distinct mRNA and toxin production patterns were observed at the two temperatures. The average relative mRNA levels at 10 degrees C were higher than (ntnh and
p47
), similar to (botE), or lower than (orfx1, orfx2, orfx3) those at 30 degrees C. The maximum botE expression levels and average neurotoxin levels at 10 degrees C were 45 to 65% of those at 30 degrees C. The relative mRNA levels at 10 degrees C declined generally slowly within 8 days, as opposed to the rapid decline observed at 30 degrees C within 24 h. Distinct expression patterns of the six genes at the two temperatures suggest that the type E neurotoxin cluster genes are transcribed as two tricistronic operons at 30 degrees C, whereas at 10 degrees C monocistronic (botE or orfx1 alone) and bicistronic (ntnh-
p47
and orfx2-orfx3) transcription may dominate. Thus, type E
botulinum neurotoxin
production may be involved with various temperature-dependent regulatory events. In light of group II C. botulinum type E being a dangerous food-borne pathogen, these findings may be important in terms of the safety of refrigerated packaged foods of extended durability.
...
PMID:Quantitative real-time reverse transcription-PCR analysis reveals stable and prolonged neurotoxin cluster gene activity in a Clostridium botulinum type E strain at refrigeration temperature. 1870 13
The
botulinum neurotoxin
(
BoNT
) has been extensively researched over the years in regard to its structure, mode of action, and applications. Nevertheless, the biological roles of four proteins encoded from a number of
BoNT
gene clusters, i.e., OrfX1-3 and P47, are unknown. Here, we investigated the diversity of
orfX-
p47
gene clusters using in silico analytical tools. We show that the orfX-
p47
cluster was not only present in the genomes of
BoNT
-producing bacteria but also in a substantially wider range of bacterial species across the bacterial phylogenetic tree. Remarkably, the
orfX-
p47
cluster was consistently located in proximity to genes coding for various toxins, suggesting that OrfX1-3 and P47 may have a conserved function related to toxinogenesis and/or pathogenesis, regardless of the toxin produced by the bacterium. Our work also led to the identification of a putative novel
BoNT
-like toxin gene cluster in a Bacillus isolate. This gene cluster shares striking similarities to the
BoNT
cluster, encoding a
bont/ntnh
-like gene and
orfX-
p47
, but also differs from it markedly, displaying additional genes putatively encoding the components of a polymorphic ABC toxin complex. These findings provide novel insights into the biological roles of OrfX1, OrfX2, OrfX3, and P47 in toxinogenesis and pathogenesis of
BoNT
-producing and non-producing bacteria.
...
PMID:Looking for the X Factor in Bacterial Pathogenesis: Association of
orfX
-
p47
Gene Clusters with Toxin Genes in Clostridial and Non-Clostridial Bacterial Species. 3190 54
