In today's world, Birtoxin is a topic that has become increasingly relevant. From its repercussions on society to its impact on the economy and the environment, Birtoxin has become a focal point for experts and citizens alike. In order to better understand this phenomenon and its implications, it is crucial to examine it from multiple perspectives and discover its true scope. In this article, we will explore different aspects related to Birtoxin, providing a comprehensive overview ranging from its history to its possible solutions. With this, we hope to shed light on Birtoxin and promote an informed discussion about its importance today.
Birtoxin | |
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Category | Ion channel toxin, Neurotoxin |
Species | Parabuthus transvaalicus |
Target | voltage-gated sodium channel |
Symptoms | tachypnea, convulsions, tremors, death |
Taxonomic ID | 170972 |
Sequence length | 58 AA |
Birtoxin is a neurotoxin from the venom of the South African Spitting scorpion (Parabuthus transvaalicus). By changing sodium channel activation, the toxin promotes spontaneous and repetitive firing much like pyrethroid insecticides do
Birtoxin was isolated from the venom of the South African Spitting scorpion. It is a peptide that is moderately toxic but very abundant in the venom. Other peptide toxins found in the venom include: dortoxin, a lethal peptide; bestoxin, which causes writhing in mice; and altitoxin, a highly depressant peptide.
Generally, peptide neurotoxins can be divided into two major families, the ‘long chain neurotoxins’ (LCN) with 60- to 70-residue range and known to contain eight cysteine residues; and the ‘short chain neurotoxins’ (SCN) with 30 to 40 peptides with six or eight cysteine residues. Birtoxin, together with other birtoxin-like peptides including bestoxin, is 58 amino-acid residues long, close to the ‘long chain’ family but with six cysteine residues. Birtoxin is reticulated by three disulfide bridges, instead of four, compared to other LCNs . Therefore, it is considered to be the evolutionary link between ‘long chain’- and ‘short chain’- families.
Birtoxin affects the gating mechanism of sodium channels by binding to neurotoxin receptor site 4 of the channel, resulting in the lowering of the voltage threshold of the channel and a reduction in the current amplitude. Due to the change in the activation the sodium channel will open at smaller depolarisations. This causes increased excitability, which leads to symptoms such as convulsions, continuous urination, tremors and tachypnea (faster breathing).
Birtoxin only affects mammals. No effect is found on reptiles, insects or fish. In experiments performed on mice, symptoms such as convulsions, continuous urination, tremors and tachypnea occurred 10 minutes after injection and increased during 30 minutes. An injection of 1 μg of birtoxin resulted in severe neurotoxic effects for 24 hours, but this dose is not lethal to mice. LD99 in mice is achieved at 2 μg.
An antibody against the N-terminus of the birtoxin protein structure has been shown to neutralize the venom of the South African spitting scorpion, and such antibodies may be useful clinically to treat envenomation.