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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)
DNA fragments derived from the Clostridium botulinum type A neurotoxin (
BoNT/A
) gene (botA) were used in DNA-DNA hybridization reactions to derive a restriction map of the region of the C. botulinum type B strain Danish chromosome encoding botB. As the one probe encoded part of the
BoNT/A
heavy (H) chain and the other encoded part of the light (L) chain, the position and orientation of botB relative to this map were established. The temperature at which hybridization occurred indicated that a higher degree of DNA homology occurred between the two genes in the H-chain-encoding region. By using the derived restriction map data, a 2.1-kb BglII-XbaI fragment encoding the entire
BoNT
/B L chain and 108 amino acids of the H chain was cloned and characterized by nucleotide sequencing. A contiguous 1.8-kb XbaI fragment encoding a further 623 amino acids of the H chain was also cloned. The 3' end of the gene was obtained by cloning a 1.6-kb fragment amplified from genomic DNA by inverse polymerase chain reaction. Translation of the nucleotide sequence derived from all three clones demonstrated that
BoNT
/B was composed of 1,291 amino acids. Comparative alignment of its sequence with all currently characterized BoNTs (A, C, D, and E) and tetanus toxin (TeTx) showed that a wide variation in percent homology occurred dependent on which component of the dichain was compared. Thus, the L chain of
BoNT
/B exhibits the greatest degree of homology (50% identity) with the TeTx L chain, whereas its H chain is most homologous (48% identity) with the
BoNT/A
H chain. Overall, the six neurotoxins were shown to be composed of highly conserved amino acid domains interceded with amino acid tracts exhibiting little overall similarity. In total, 68 amino acids of an average of 442 are absolutely conserved between L chains and 110 of 845 amino acids are conserved between H chains. Conservation of Trp residues (one in the L chain and nine in the H chain) was particularly striking. The most divergent region corresponds to the extreme carboxy terminus of each toxin, which may reflect differences in specificity of binding to neurone acceptor sites.
...
PMID:Molecular cloning of the Clostridium botulinum structural gene encoding the type B neurotoxin and determination of its entire nucleotide sequence. 151 83
The entire structural gene of the Clostridium botulinum NCTC 11219 type-E neurotoxin (
BoNT
/E) has been cloned as five overlapping DNA fragments, generated by polymerase chain reaction (PCR). Analysis of triplicate clones of each fragment, derived from three independent PCR, has allowed the derivation of the entire nucleotide sequence of the
BoNT
/E gene. Translation of the sequence has shown
BoNT
/E to consist of 1252 amino acids and, as such, represents the smallest
BoNT
characterised to date. The light chain of the toxin exhibits the highest level of sequence similarity to tetanus toxin (TeTx, 40%). The light chains of
BoNT/A
and
BoNT
/D share 33% similarity with
BoNT
/E, while
BoNT
/C exhibits 32% similarity. In contrast, the TeTx heavy chain exhibits the lowest degree of similarity (35%) with
BoNT
/E, with the
BoNT
heavy chains sharing 46%, 36% and 37%, for neurotoxin types A, C and D, respectively. Comparisons with partial amino acid sequences of the light chain of
BoNT
/E from C. botulinum strain Beluga and that from the strains Mashike, Iwanai and Otaru, indicate single amino acid differences in each case. Alignment of all characterised neurotoxin sequences (
BoNT/A
,
BoNT
/C,
BoNT
/D,
BoNT
/E and TeTx) shows them to be composed of highly conserved amino acid domains interspersed with amino acid tracts exhibiting little overall similarity. The most divergent region corresponds to the extreme COOH-terminus of each toxin, which may reflect differences in specificity of binding to neurone acceptor sites.
...
PMID:The complete amino acid sequence of the Clostridium botulinum type-E neurotoxin, derived by nucleotide-sequence analysis of the encoding gene. 154 Dec 80
To define conserved domains within the light (L) chains of clostridial neurotoxins, we determined the sequence of
botulinum neurotoxin
type B (
BoNT
/B) and aligned it with those of tetanus toxin (TeTx) and
BoNT/A
,
BoNT
/C1,
BoNT
/D, and
BoNT
/E. The L chains of
BoNT
/B and TeTx share 51.6% identical amino acid residues whereas the degree of identity to other clostridial neurotoxins does not exceed 36.5%. Each of the L chains contains a conserved motif, HExxHxxH, characteristic for metalloproteases. We then generated specific 5'- and 3'-deletion mutants of the L chain genes of TeTx and
BoNT/A
and tested the biological properties of the gene products by microinjection of the corresponding mRNAs into identified presynaptic cholinergic neurons of the buccal ganglia of Aplysia californica. Toxicity was determined by measurement of neurotransmitter release, as detected by depression of postsynaptic responses to presynaptic stimuli (Mochida, S., Poulain, B., Eisel, U., Binz, T., Kurazono, H., Niemann, H., and Tauc, L. (1990) Proc. Natl. Acad. Sci. U. S. A. 87, 7844-7848). Our studies allow the following conclusions. 1) Residues Cys439 of TeTx and Cys430 of
BoNT/A
, both of which participate in the interchain disulfide bond, play no role in the toxification reaction. 2) Derivatives of TeTx that lacked either 8 amino- or 65 carboxyl-terminal residues are still toxic, whereas those lacking 10 amino- or 68 carboxyl-terminal residues are nontoxic. 3) For
BoNT/A
, toxicity could be demonstrated only in the presence of added nontoxic heavy (H) chain. A deletion of 8 amino-terminal or 32 carboxyl-terminal residues from the L chain had no effect on toxicity, whereas a removal of 10 amino-terminal or 57 carboxyl-terminal amino acids abolished toxicity. 4) The synergistic effect mediated by the H chain is linked to the carboxyl-terminal portion of the H chain, as demonstrated by injection of HC-specific mRNA into neurons containing the L chain. This finding suggests that the HC domain of the H chain becomes exposed to the cytosol during or after the putative translocation step of the L chain.
...
PMID:Minimal essential domains specifying toxicity of the light chains of tetanus toxin and botulinum neurotoxin type A. 163 16
The seven serologically different botulinum neurotoxins are highly potent protein toxins that inhibit neurotransmitter release from peripheral cholinergic synapses. The activated toxins consist of the toxifying A-subunits (Mr approximately 50,000) linked by a disulfide bond to the receptor-binding BC-subunits (Mr approximately 100,000). We have established the complete sequence of
botulinum neurotoxin
type A (
BoNT/A
; 1,296 amino acid residues, Mr = 149,425) and a partial sequence of
botulinum neurotoxin
type E (273 amino acid residues) as deduced from the corresponding nucleotide sequences of the chromosomally located structural genes. The promoter of the
BoNT/A
gene is inactive in Escherichia coli. Primer extension experiments indicated that initiation of transcription of the
BoNT/A
gene occurred 118 nucleotides upstream from the ATG codon. A comparison of the protein sequence revealed an overall identity of 33.8% to that of tetanus toxin. No significant similarity to other known proteins including ADP-ribosylating toxins could be detected. Three of the six histidine residues of the A-subunit of
BoNT/A
were found in the peptide sequence H223ELIHXXH230 within a domain of predicted alpha-helical secondary structure. This motif is also found in similar positions of the A-subunits of tetanus toxin and
BoNT
/E.
...
PMID:The complete sequence of botulinum neurotoxin type A and comparison with other clostridial neurotoxins. 216 Sep 60
Botulinum neurotoxin type A blocks acetylcholine release from the peripheral nervous system. We have previously described a putative
botulinum neurotoxin
type A receptor of presynaptic plasma membranes from Torpedo. The electric organ of Torpedo, which is largely enriched in cholinergic nerve endings, is homologous to the neuromuscular junction, allowing us to isolate large scale of presynaptic components. In order to characterize this protein we have raised a polyclonal antibody (a-P140) against this receptor. The antiserum a-P140 recognizes a 140,000 mol. wt band in non-reducing conditions and an 80,000 band in reducing conditions. The immunohistochemistry assay reveals the P140 protein on the ventral face of the electrocytes where the nerve terminals are localized. Moreover, a-P140 antiserum recognizes the P140-
BoNT/A
complex after binding and cross-linking experiments. In addition, we have immunoprecipitated an in vitro translated product which is closely coincident in mol. wt to the 80,000 band of the receptor.
...
PMID:Characterization of a rabbit serum raised against a botulinum toxin type A binding protein from presynaptic plasma membranes from Torpedo electric organ. 757 Jun 36
The effects of the potassium channel inhibitor and putative botulinum toxin antagonist 3,4-diaminopyridine (3,4-DAP) were investigated in vitro on the contractile properties of rat diaphragm muscle. In the presence of 100 pM
botulinum neurotoxin
A (
BoNT/A
), twitches elicited by supramaximal nerve stimulation (0.1 Hz) were reduced to approximately 10% of control in 3 hr at 37 degrees C. Addition of 3,4-DAP led to a rapid reversal of the
BoNT/A
-induced depression of twitch tension. In the presence of 100 microM 3,4-DAP, antagonism of the
BoNT/A
-induced blockade began within 30-40 sec and reached 82% of control with a half-time of 6.7 min. The beneficial effect of 3,4-DAP was well maintained and underwent little or no decrement relative to control for at least 8 hr after addition. Application of 1 microM neostigmine 1 hr after 3,4-DAP led to a further potentiation of twitch tension, but this action lasted for < 20 min. Moreover, neostigmine caused tetanic fade during repetitive stimulation. In contrast to the efficacy of the parent compound, the quaternary derivative of 3,4-DAP, 3,4-diamino-1-methyl pyridinium produced little or no twitch potentiation up to a concentration of 1 mM. The potassium channel blocker, tetraethylammonium, generated a transient potentiation followed by a sustained depression of twitch tensions. It is concluded that 3,4-DAP is of benefit in antagonizing the muscle paralysis following exposure to
BoNT/A
. Co-application of neostigmine or tetraethylammonium with 3,4-DAP, however, appears to confer no additional benefit.
...
PMID:Antagonism of botulinum toxin-induced muscle weakness by 3,4-diaminopyridine in rat phrenic nerve-hemidiaphragm preparations. 757 Jun 38
Rat brain synaptosomes were used to study the effect of several clostridial neurotoxins on the neurotransmitter release. In this system the blockade of transmitter release correlated with the proteolytic activity of the toxins. Blockade of glutamate release was linked to selective proteolysis of one of the following synaptic proteins: synaptobrevin (
BoNT
/D,
BoNT
/F); SNAP-25 (
BoNT/A
,
BoNT
/E), or HPC-1/syntaxin (
BoNT
/C1). All the toxins used had an inhibitory effect on synaptosomes with the exception of
BoNT
/F.
BoNT
/F cleaved synaptobrevin in permeabilized synaptosomes but failed to produce the same effect on intact synaptosomes.
...
PMID:Inhibition of neurotransmitter release by clostridial neurotoxins correlates with specific proteolysis of synaptosomal proteins. 787 84
A 12.3 kb DNA fragment encompassing the
botulinum neurotoxin
C1 (
BoNT
/C1) gene and an upstream flanking region was sequenced from Clostridium botulinum C 468 phage 1C. The resulting bont/C1 locus includes six genes which are organized into three transcriptional units. Cluster 1 encompasses the bont/C1 gene and an upstream gene encoding a non-toxic protein associated with the toxin (Antp139/C1). Transcriptional analysis revealed that these two genes form an operon; the bont/C1 gene can be transcribed alone or co-transcribed with antp139/C1. Cluster 2 encompasses three genes (antp33/C1, antp17/C1 and antp70/C1), which also form an operon. The corresponding proteins are similar to components of the hemagglutinin complex associated with
BoNT/A
and
BoNT
/B of C. botulinum A and B. In addition, Antp33/C1 is identical to HA-33, an hemagglutinin encoded by C. botulinum C-Stockholm phage C-St; Antp70/C1 displays some relatedness to C. perfringens enterotoxin. The third transcriptional unit consists of orf-22, which encodes a basic protein showing 29% identity with the gene product of uviA, a plasmid-encoded protein of 22 kDa which has been identified as a positive regulator of the bacteriocin production in C. perfringens. Orf-22 could be an effector controlling the expression of the bont/C1 and its antp genes in C. botulinum C 468.
...
PMID:Organization of the botulinum neurotoxin C1 gene and its associated non-toxic protein genes in Clostridium botulinum C 468. 802 79
Neurotransmitter release is potently blocked by a group of structurally related toxin proteins produced by Clostridium botulinum. Botulinum neurotoxin type B (
BoNT
/B) and tetanus toxin (TeTx) are zinc-dependent proteases that specifically cleave synaptobrevin (VAMP), a membrane protein of synaptic vesicles. Here we report that inhibition of transmitter release from synaptosomes caused by
botulinum neurotoxin
A (
BoNT/A
) is associated with the selective proteolysis of the synaptic protein SNAP-25. Furthermore, isolated or recombinant L chain of
BoNT/A
cleaves SNAP-25 in vitro. Cleavage occurred near the carboxyterminus and was sensitive to divalent cation chelators. In addition, a glutamate residue in the
BoNT/A
L chain, presumably required to stabilize a water molecule in the zinc-containing catalytic centre, was required for proteolytic activity. These findings demonstrate that
BoNT/A
acts as a zinc-dependent protease that selectively cleaves SNAP-25. Thus, a second component of the putative fusion complex mediating synaptic vesicle exocytosis is targeted by a clostridial neurotoxin.
...
PMID:Botulinum neurotoxin A selectively cleaves the synaptic protein SNAP-25. 810 14
Tetanus toxin (TeTx) and the various forms of botulinal neurotoxins (
BoNT/A
to
BoNT
/G) potently inhibit neurotransmission by means of their L chains which selectively proteolyze synaptic proteins such as synaptobrevin (TeTx,
BoNT
/B,
BoNT
/F), SNAP-25 (
BoNT/A
), and syntaxin (
BoNT
/C1). Here we show that
BoNT
/D cleaves rat synaptobrevin 1 and 2 in toxified synaptosomes and in isolated vesicles. In contrast, synaptobrevin 1, as generated by in vitro translation, is only a poor substrate for
BoNT
/D, whereas this species is cleaved by
BoNT
/F with similar potency. Cleavage by
BoNT
/D occurs at the peptide bond Lys59-Leu60 which is adjacent to the
BoNT
/F cleavage site (Gln58-Lys59) and again differs from the site hydrolyzed by TeTx and
BoNT
/B (Gln76-Phe77). Cellubrevin, a recently discovered isoform expressed outside the nervous system, is efficiently cleaved by all three toxins examined. For further characterization of the substrate requirements of
BoNT
/D, we tested amino- and carboxyl-terminal deletion mutants of synaptobrevin 2 as well as synthetic peptides. Shorter peptides containing up to 15 amino acids on either side of the cleavage site were not cleaved, and a peptide extending from Arg47 to Thr116 was a poor substrate for all three toxins tested. However, cleavability was restored when the peptide is further extended at the NH2 terminus (Thr27-Thr116) demonstrating that NH2 terminally located sequences of synaptobrevin which are distal from the respective cleavage sites are required for proteolysis. To further examine the isoform specificity, several mutants of rat synaptobrevin 2 were generated in which individual amino acids were replaced with those found in rat synaptobrevin 1. We show that a Met46 to Ile46 substitution drastically diminishes cleavability by
BoNT
/D and that the presence of Val76 instead of Gln76 dictates the reduced cleavability of synaptobrevin isoforms by TeTx.
...
PMID:Cleavage of members of the synaptobrevin/VAMP family by types D and F botulinal neurotoxins and tetanus toxin. 817 89
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