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AntibodySystem
Recombinant Proteins
Recombinant Clostridium tetani tetX/Tetanus toxin/TeNT Protein is a highly potent and immunogenic protein that is produced by the bacterium Clostridium tetani. This protein is a major virulence factor of the bacterium and is responsible for the development of tetanus, a potentially fatal disease characterized by muscular stiffness and spasms. The recombinant form of this protein has been extensively studied and has shown great potential as a vaccine candidate and in various other applications.
The recombinant form of Clostridium tetani tetX/Tetanus toxin/TeNT Protein is a 150 kDa protein consisting of a single chain of 1315 amino acids. It is composed of three distinct domains: the N-terminal translocation domain, the central receptor-binding domain, and the C-terminal catalytic domain. The translocation domain is responsible for the entry of the protein into the host cell, while the receptor-binding domain is responsible for binding to specific receptors on the surface of nerve cells. The catalytic domain is responsible for the enzymatic activity of the protein, which is crucial for its pathogenicity.
The primary activity of Recombinant Clostridium tetani tetX/Tetanus toxin/TeNT Protein is to cause tetanus by inhibiting the release of neurotransmitters from nerve cells. This is achieved through the cleavage of specific proteins involved in the release of neurotransmitters, leading to the disruption of nerve impulses and the characteristic symptoms of tetanus. The protein also has immunomodulatory properties, which contribute to its ability to evade the host immune response and cause persistent infection.
The recombinant form of Clostridium tetani tetX/Tetanus toxin/TeNT Protein has been extensively studied and has shown great potential for various applications, including:
One of the most promising applications of Recombinant Clostridium tetani tetX/Tetanus toxin/TeNT Protein is in the development of a tetanus vaccine. The protein has been shown to be highly immunogenic and can elicit a strong and long-lasting immune response in animal models. This makes it a potential candidate for inclusion in a multivalent vaccine against tetanus and other related diseases.
The recombinant protein can also be used as a diagnostic tool for the detection of tetanus infection. Antibodies against the protein can be used in various immunoassays to detect the presence of the protein in clinical samples, providing a rapid and accurate diagnosis of tetanus.
Recombinant Clostridium tetani tetX/Tetanus toxin/TeNT Protein is also a valuable tool for research purposes. Its high potency and immunogenicity make it an ideal model for studying the mechanisms of pathogenicity and immune response in tetanus. It can also be used in the development of new therapies and treatments for tetanus and other related diseases.
The recombinant protein has also shown potential as a therapeutic agent for the treatment of tetanus. It has been used in experimental studies to neutralize the effects of the toxin in animal models, providing a potential treatment option for severe cases of tetanus in humans.
The protein has also been explored for its potential industrial applications, such as in the production of biodegradable plastics and biofuels. Its ability to bind to specific receptors on nerve cells also makes it a potential candidate for targeted drug delivery systems.
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