Abstract: Provided herein are methods to inhibit or disrupt a bio film comprising contacting the bio film with an agent that cleaves the Holliday junction (HJ) structure in the bio film.

Abstract: Binding agents able to disrupt bacterial biofilms of diverse origin are described, including monoclonal antibodies secreted by human B lymphocytes. Methods to prevent formation of or to dissolve biofilms with these binding agents are also described. Immunogens for eliciting antibodies to disrupt biofilms are also described.

Abstract: Methods of breaking down a biofilm or inhibiting, preventing or treating a microbial infection that produces a biofilm are disclosed, which involves administration of a polypeptide that has one or more modified HMG-box 1 domains to a subject suffering from the infection or having the biofilm. By competing with microbial proteins that bind to DNA scaffold in the biofilm, these polypeptides destabilize the biofilm leading to destruction and removal of the biofilm by the immune system.

Abstract: Provided herein are methods for preventing or treating antibiotic induced dysbiosis in a patient by administering to the subject a composition comprising a micro sphere, a bio film-generating probiotic bacterium and a prebiotic, wherein the prebiotic comprises a nutritional supplementation for the probiotic bacterium.

Abstract: Provided herein are microspheres containing an antimicrobial agent encapsulated within a glycosidic polymer and use thereof, especially to inhibit the growth of carie-causing organism.

Abstract: Binding agents able to disrupt bacterial biofilms of diverse origin are described, including monoclonal antibodies secreted by human B lymphocytes. Methods to prevent formation of or to dissolve biofilms with these binding agents are also described. Immunogens for eliciting antibodies to disrupt biofilms are also described.

Abstract: Binding agents able to disrupt bacterial biofilms of diverse origin are described, including monoclonal antibodies secreted by human B lymphocytes. Methods to prevent formation of or to dissolve biofilms with these binding agents are also described. Immunogens for eliciting antibodies to disrupt biofilms are also described.

Abstract: Provided herein are methods to inhibit or disrupt a bio film comprising contacting the bio film with an agent that cleaves the Holliday junction (HJ) structure in the bio film.

Abstract: Provided herein are derivatives of HMGB1 that have been engineered to possess the same efficacious anti-bio film activity but are smaller and do not induce inflammation.

Abstract: The disclosure relates to methods for inhibiting the stability of a biofilm comprising contacting the biofilm with an effective amount of an agent that interferes with the binding of a polyamine to DNA in the biofilm. Also provided herein are methods for treating a biofilm in a subject comprising administering to the subject infected with a biofilm an effective amount of an agent that interferes with the binding of a polyamine to the DNA in the biofilm. Further described herein are methods for treating a biofilm in a patient suffering from systemic lupus erythematosus (SLE) and/or cystic fibrosis (CF) comprising administering an effective amount of an agent that interferes with the conversion of B-DNA to Z-DNA in the biofilm or its local environment.

Abstract: Methods of breaking down a biofilm or inhibiting, preventing or treating a microbial infection that produces a biofilm are disclosed, which involves administration of a polypeptide that has one or more modified HMG-box 1 domains to a subject suffering from the infection or having the biofilm. By competing with microbial proteins that bind to DNA scaffold in the biofilm, these polypeptides destabilize the biofilm leading to destruction and removal of the biofilm by the immune system.

Abstract: Binding agents able to disrupt bacterial biofilms of diverse origin are described, including monoclonal antibodies secreted by human B lymphocytes. Methods to prevent formation of or to dissolve biofilms with these binding agents are also described. Immunogens for eliciting antibodies to disrupt biofilms are also described.

Abstract: Binding agents able to disrupt bacterial biofilms of diverse origin are described, including monoclonal antibodies suitable for administration to a selected species, and antibody mimics including aptamer nucleic acids. Methods to prevent formation of or to dissolve biofilms with these binding agents are also described. Immunogens for eliciting antibodies to disrupt biofilms are also described.

Abstract: Provided herein are microspheres containing an antimicrobial agent encapsulated within a glycosidic polymer and use thereof, especially to inhibit the growth of carie-causing organism.

Abstract: Binding agents able to disrupt bacterial biofilms of diverse origin are described, including monoclonal antibodies suitable for administration to a selected species, and antibody mimics including aptamer nucleic acids. Methods to prevent formation of or to dissolve biofilms with these binding agents are also described. Immunogens for eliciting antibodies to disrupt biofilms are also described.

Abstract: Binding agents able to disrupt bacterial biofilms of diverse origin are described, including monoclonal antibodies suitable for administration to a selected species, and antibody mimics including aptamer nucleic acids. Methods to prevent formation of or to dissolve biofilms with these binding agents are also described. Immunogens for eliciting antibodies to disrupt biofilms are also described.

Abstract: Provided herein are microspheres containing an antimicrobial agent encapsulated within a glycosidic polymer and use thereof, especially to inhibit the growth of carie-causing organisms.