The present application provides stable peptide-based Botulinum neurotoxin (BoNT) serotype A capture agents and methods of use as detection and diagnosis agents and in the treatment of diseases and disorders. The application further provides methods of manufacturing BoNT serotype A capture agents using iterative on-bead in situ click chemistry.

The invention describes fully native human neutralizing monoclonal antibodies against tetanus toxin. The invention developed fully native human neutralizing monoclonal antibodies against tetanus toxin through a systematic high through-put platform that is specialized for identifying and developing human native antibody. The neutralizing monoclonal antibodies described in the invention can be used in the prevention, treatment and detection of Clostridium tetani infection. The fully human neutralizing monoclonal antibodies developed in the invention have a high affinity toward tetanus toxin, as well as possessing high neutralizing activities against the toxin, safe of use with high disease prevention effectiveness, free of exogenous virus contamination, and are widely applicable to various human groups with strong industrial applications.

An immunogenic polypeptide selected from an isolated Clostridium perfringens pilus polypeptide, a variant of the pilus polypeptide; a fragment of the pilus polypeptide; and a fragment of the variant, is useful for the preparation of a vaccine for the treatment or prevention of enteric necrosis in poultry. The isolated Clostridium perfringens pilus polypeptide includes an assembled pilus or the pilus subunits CnaA, FimA and/or FimB.

Compositions and methods are provided that reduce the time required for detection of botulinum neurotoxins in cell-based assays. In one aspect an isoquinolynyl compound can be used for this purpose. In such cell-based assays the cell can include an enzyme that facilitates degradation of the reporter significantly faster after the cleavage than before the cleavage, and presence of the Botulinum toxin correlates with reduction of the signal from a baseline signal. The cell can advantageously express both the construct that includes the reporter, and an enzyme that facilitates the degradation.

Provided are SNP markers of drug reduced susceptibility related evolutionary branches of Clostridium difficile, a method for identifying the category of a Clostridium difficile strain, and use thereof. The SNP markers are specific markers of three categories of the Clostridium difficile clade2 (mainly hypervirulent ribotype 027), allowing for rapid and accurate identification of the evolutionary branches of Clostridium difficile strains that are resistant to a variety of therapeutic drugs and related drugs. Accurate categorization of the drug reduced susceptibility related evolutionary branches not only provides evidence for the evolutionary traceability of drug-resistant pathogens, but also offers effective and actionable guidance on clinical drug usage.

Method of treating or reducing a symptom of traumatic brain injury (TBI) in a subject, comprising administering to the subject a therapeutically-effective amount of botulinum neurotoxin. Composition for use in treating or reducing a symptom of TBI in a subject comprising botulinum neurotoxin. Computer system programmed to receive information related to a subject's response to administration of botulinum neurotoxin, store that response in a database, and transmit the response to a medical practitioner. Non-transitory computer-readable storage medium storing instructions that, when executed by a computer system, causes the computer system to perform the aforementioned steps.

The present disclosure provides antibodies that specifically bind to botulinum neurotoxins (e.g., BoNT/A, BoNT/B, BoNT/C, BoNT/D, BoNT/E, BoNT/F, BoNT/G, etc.) and the epitopes bound by those antibodies. The antibodies and derivatives thereof that specifically bind to the neutralizing epitopes provided herein can be used to neutralize botulinum neurotoxin and are therefore also useful in the treatment of botulism.

A new cell line and an antibody for determining the activity of botulinum toxin are disclosed. Also disclosed is a method of determining the activity of botulinum toxin using the cell line and/or the antibody.

A new cell line and an antibody for determining the activity of botulinum toxin are disclosed. Also disclosed is a method of determining the activity of botulinum toxin using the cell line and/or the antibody.

The present specification discloses SNAP-25 compositions, methods of making α-SNAP-25 antibodies that bind an epitope comprising a carboxyl-terminus at the P.sub.1 residue from the BoNT/A cleavage site scissile bond from a SNAP-25 cleavage product, α-SNAP-25 antibodies that bind an epitope comprising a carboxyl-terminus at the P.sub.1 residue from the BoNT/A cleavage site scissile bond from a SNAP-25 cleavage product, methods of detecting BoNT/A activity, and methods of detecting neutralizing α-BoNT/A antibodies.