The present invention provides novel kinocidin peptides comprising a C-terminal portion of a kinocidin, wherein the C-terminal portion encompasses an α-helical secondary structure and further displays antimicrobial activity. The kinocidin peptides of the invention are derived from and correspond to a C-terminal portion of a kinocidin that includes γκo core and that can be a CXC, CC, or C class chemokine. Structural, physicochemical and functional properties of this novel class of antimicrobial peptides and amino acid sequences of particular kinocidin peptides are also disclosed. The invention also provides related antimicrobial methods.

Provided in this disclosure are chimeric peptides that include a spacer domain, the spacer domain itself, substrates (e.g., implants) coated with the chimeric peptides, and methods for making and using the coated substrates.

The present invention generally relates to the field of antimicrobial peptides (AMPs), and more specifically to cationic intrinsically disordered antimicrobial peptides (CIDAMPs) and their use as disinfectants and therapeutic agents for the treatment of infections, especially as a therapeutic alternative for the treatment of infectious diseases caused by antibiotic resistant microorganisms.

Provided in this disclosure are methods of treating a bacterial infection comprising administering a formulation comprising an antimicrobial peptide described herein when administered to a subject. Further provided herein are methods of treating a bacterial infection wherein the bacterial infection comprises a bacterium with a mutation in a gene resulting in antibiotic resistance.

Described herein is a bifunctional peptide, compositions comprising the same, and methods useful for treatment of peri-implant disease.

The present invention relates to peptides for inhibiting the production of mycotoxins by fungi of the genus Fusarium and also to compositions comprising them and methods implementing them.

Disclosed herein are PEG-maximin H5 peptide conjugates and methods for using the same in the treatment or prevention of biofilms and biofouling.

The present invention provides novel kinocidin peptides comprising a C-terminal portion of a kinocidin, wherein the C-terminal portion encompasses an α-helical secondary structure and further displays antimicrobial activity. The kinocidin peptides of the invention are derived from and correspond to a C-terminal portion of a kinocidin that includes a yxo core and that can be a CXC, CC, or C class chemokine. Structural, physicochemical and functional properties of this novel class of antimicrobial peptides and amino acid sequences of particular kinocidin peptides are also disclosed. The invention also provides related antimicrobial methods.

Treatment of an inflammatory bowel disease in a subject in need thereof by simultaneous or successive parenteral and oral administration of a mammalian beta defensin is described. Oral administration of mammalian beta defensin to a subject during remission to keep said subject suffering from IBD in remission, prolong remission in said subject suffering from IBD, to reduce the occurrence of relapse in said subject suffering from IBD, or any combination thereof, is also described.

Broad spectrum antiviral peptides and composition including therapeutically effective amounts of the antiviral peptides along with a pharmaceutically acceptable carrier are provided. The antiviral compositions show a strong broad spectrum antiviral effect, without resulting to viral resistance. The antiviral compositions are useful for treatment of diseases caused by viral infections, particularly respiratory viruses such as enveloped coronaviruses (SARS-CoV-2, SARS-CoV and MERS-CoV), the pandemic A(H1N1)pdm09 virus, avian influenza A(H7N9) virus, and the non-enveloped rhinovirus.