The invention relates to antimicrobial peptides (AMPs). The invention also relates to uses, methods of treatment, pharmaceutical compositions and combinations with antimicrobial agents.

Novel peptides and their uses are provided. In particular, the peptides are useful for increasing glucose uptake or decreasing hepatic glucose production. The peptides are also useful for regulating glucose levels and/or treating diabetes in a subject.

The present invention refers to a composition comprising a solution which in turn comprises an amino acidic chain gelatin polymer derived from natural sources of cold-adapted marine species, at a concentration from 1% to 20% (w/v), which optionally further comprises a polymerizing initiator such as a photoinitiator, and is chemically functionalized to become reactive to polymerization or crosslinking in presence of free radicals. This composition is especially useful for 3D printing, extrusion systems (additive fabrication), spray systems, casting, micro- and nano fibers fabrication systems (electrospinning, solution blow spinning) or microfluidics.

This invention relates to extracellular protein-protein interactions and their possible therapeutic uses. More particularly, this invention describes the interaction between Draxin, particularly fragments binding to γ-Netrins comprising SEQ ID NO.:1, 2 or 3, and variants thereof, with γ-Netrins, and the use of this interaction to disrupt γ-Netrin/Netrin receptor interactions. The invention also relates to diagnostic and/or therapeutic uses of Draxin or fragments or variants thereof, as well as to an antibody against Draxin inhibiting binding of Draxin to γ-Netrins. Further, the invention relates to fragments of γ-Netrins, in particular Draxin-binding Netrin1-fragments comprising SEQ ID NO.: 51 and variants thereof, as well as to an antibody against γ-Netrins inhibiting binding of γ-Netrins to Netrin receptors.

The present invention relates to an antibacterial peptide derived from Erythroculter ilishaeformis and use thereof. The amino acid sequence of the antibacterial peptide of the present invention includes an amino acid sequence as shown in SEQ ID NO: 1. The present invention further discloses use of the antibacterial peptide in the preparation of an anti-aquatic-bacterium drug for aquaculture animals. The present invention provides a novel antibacterial peptide, discloses a function of the novel antibacterial peptide for resisting aquatic bacteria, and provides candidate molecules for preventing and treating bacterial diseases in the culture process of Erythroculter ilishaeformis.

The present invention falls within the technical field of aquaculture, and specifically, the invention relates to a specific solution for preventing and treating bacterial diseases using a Lactococcus lactis lactic acid bacterium transformed to produce an interferon type II (IFN II) immunostimulating cytokine, particularly interferon gamma (IFNg or IFNγ). Said transformed bacterium has been deposited in the Chilean Microbial Genetic Resources Collection at INIA with accession number RGM 2416 dated 22 Oct. 2017. The invention is also related to an immunostimulating food for aquaculture species comprising the lactic acid bacterium transformed with IFN type II from salmonidae. Moreover, the invention relates to the method for preparing said probiotic food, the method for preparing said lactic acid bacterium expressing IFNg, in other words which produces a cytokine that stimulates the antibacterial immune response.

The present application provides fibers made from recombinant hagfish intermediate filament proteins. Methods of expressing and purifying the proteins, and methods of creating the fibers, are likewise disclosed. The method of purifying protein yields larger quantities of hagfish protein than have been previously achieved, and the fibers have the highest mechanical properties yet recorded for recombinant hagfish protein fibers.

Provided herein, in some embodiments, are engineered phagemids that comprise at least one synthetic genetic circuit, wherein the at least one synthetic genetic circuit comprises gene sequences encoding at least one non-lytic antimicrobial peptides (AMPs) and/or antibacterial toxin proteins, a stable origin of replication, and a bacteriophage-packaging signal, wherein the engineered phagemid does not comprise some or all gene sequences encoding bacteriophage proteins required for assembly of a bacteriophage particle.

The disclosure provides a method of generating a sterile fish, crustacean, or mollusk. The method comprises breeding (i) a fertile hemizygous mutated female fish, crustacean, or mollusk with (ii) a fertile hemizygous mutated male fish, crustacean, or mollusk, selecting a female progenitor that is homozygous by genotypic selection, and breeding the homozygous female progenitor to produce the sterile fish, crustacean, or mollusk. The mutation disrupts the maternal-effect of a primordial germ cell (PGC) development gene and does not impair the viability, sex determination, fertility, or a combination thereof, of a homozygous progenitor. The disclosure also provides methods of making broodstock freshwater and seawater organisms for use in producing sterilized freshwater and seawater organisms, as well as the broodstock itself.

The present invention relates to a plasmid that encodes a fusion protein comprising a signal peptide and the extracellular domain of the B-cell activating factor receptor (BAFF-R), and optionally, a fragment of the constant region (Fc) of an immunoglobulin. The invention also relates to compositions comprising said plasmid, and to the use of same in the treatment and/or prevention of inflammatory diseases in fish, more preferably in salmonids.