The inventors provide a composition comprising an antimicrobial polypeptide comprising Blad or an active variant thereof for use in a method of treatment of the human or animal body by therapy or prophylaxis, such as for use in a method of treating or preventing an infection in or on a subject by a microorganism. Also provided is the use of a composition comprising an antimicrobial polypeptide comprising Blad or an active variant thereof to kill, or inhibit the growth of, a microorganism that is pathogenic to a human or an animal at a site that is not on or in the human or animal body.

Antimicrobial compositions derived from edible plant sources such as essential oils, their active components, spices and plant extracts have shown antimicrobial effects against a number of foodborne pathogens. The foodborne pathogens of concern in meat and poultry products include Salmonella enterica, Escherichia coli O157:H7 and Listeria monocytogenes. The antimicrobial compositions were applied to a meat surface using liquid or powder electrostatic spray systems to effectively reduce the amount of pathogens on various meat and poultry products.

A novel antimicrobial peptide derived from LL37 peptide has not only an excellent antimicrobial activity for Gram-positive bacteria, Gram-negative bacteria, and antibiotic tolerant bacteria but also low cytotoxicity for cells derived from mouse or human. It can be advantageously used as an effective component of antimicrobial antibiotics, cosmetic composition, food additive, animal feed additive, biopesticides, and quasi-drug.

This disclosure provides generally for antimicrobial compositions and methods of use comprising an anthocyanin, an anthocyanidin or metabolites thereof. Methods for promoting healing of a wound using these compositions are also disclosed. These compositions have broad spectrum antimicrobial activity and are safe for human and animal uses. Further, these compositions are safe for medical uses and industrial uses as antiseptic preparations to reduce or prevent microbial growth, including killing bacterial biofilms.

Biologically pure cultures of Bacillus subtilis Maseca-1 strain were isolated from the pericarp of nixtamalized corn. The Bacillus Maseca-1 strain was characterized and found to produce peptides and/or other compounds that have antimicrobial activity. An extract prepared from the Bacillus Maseca-1 strain is active against microorganisms such as bacteria and mold and may be used as an agent to inhibit the growth of undesirable microorganisms and thereby prevent spoilage and extend the shelf life in foods.

Disclosed herein is a particle delivery system comprising electrospun nanofiber comprised of coaxial fiber with a microfluidic core. Iron-doped apatite nanoparticles (IDANPs) have demonstrated a unique influence over phage killing of bacteria, whereby, IDANP-exposed bacterial cultures experience 2× the bacterial death as controls. IDANPs consist of hydroxyapatite (HA) doped with iron. HA is a mineral known to be biocompatible and analogous to the inorganic constituent of mammalian bone and teeth and has been approved by the Food and Drug Administration (FDA) for many applications in medicine and dentistry. Previous work has shown that for IDANPs to enhance antibacterial activity of phage to the greatest extent, bacterial cultures should be exposed to IDANPs for 1 hr prior to phage introduction. Biocompatible polymer materials which encase IDANPs and/or phage can be used to disseminate IDANPs and/or phage in a controlled manner into a physiological system for treatment of bacterial infection. When components of said materials contain micro- or nano-scale components, high surface-to-volume ratio for treatment delivery is garnered.

The invention relates to an antimicrobial mixture containing 4-(3-ethoxy-4-hydroxyphenyl)butan-2-one and an alcohol compound chosen from hydroxyacetophenone, 5-chloro-2-(2,4-dichlorophenoxy)phenol, sorbitan caprylate, the combination of 80% to 90% by weight, relative to the total weight of said combination, of xylityl sesquicaprylate and from 10% to 20% by weight of anhydroxylitol, 4-chloro-3,5-dimethylphenol, and glyceryl caprylate, and also to a cosmetic, pharmaceutical or nutritional composition containing such a mixture.

Application to caring for, making up and cleansing keratin materials; to preserving foods and to water treatment.

An antimicrobial peptide according to an embodiment of the present disclosure has the amino acid sequence of SEQ ID NO: 1, wherein i) the 1st and the 20th to the 24th amino acids are deleted, ii) the 1st and the 20th to the 24th amino acids are deleted and the 11th or the 18th amino acid is substituted with lysine (K), or iii) the 1st and the 20th to the 24th amino acids are deleted and the 11th and the 18th amino acids are substituted with lysine (K).

Embodiments of the present disclosure provide an auger dip apparatus for the application of antimicrobial solution to raw food. Embodiments of the present disclosure may use an auger as a single moving part to move the food work pieces through the application area for antimicrobial solution. Embodiments of the present disclosure are simple with only one moving auger part to move the food pieces, and the bearing for the moving part, supporting the shaft of the auger, may be configured to be outside of the cabinet with the reservoir of the antimicrobial solution, so that the bearing is not in contact with the antimicrobial solution. This provides for less maintenance and downtime, particularly unscheduled downtime, than a system using more complicated exposed parts. The present disclosure also permits a more compact and lighter configuration for an assembled application unit.

The present invention relates generally to methods for forming peroxyformic acid, comprising contacting formic acid with hydrogen peroxide. The methods for forming peroxyformic acid can include adding formic acid with a relatively lower concentration of hydrogen peroxide, or adding formic acid to a peroxycarboxylic acid composition or forming composition to react with hydrogen peroxide in the compositions. The present invention also relates to peroxyformic acid formed by the above methods. The present invention further relates to the uses of peroxyformic acid for treating a variety of targets, e.g., target water, including target water used in connection with oil- and gas-field operations. The present invention further relates to methods for reducing or removing H.sub.2S or iron sulfide in the treated water source, improving clarity of the treated water source, or reducing the total dissolved oxygen or corrosion in the treated water source, using peroxyformic acid, including peroxyformic acid generated in situ.