The present invention is transgenic chickens obtained from long-term cultures of avian PGCs and techniques to produce and transgenic birds derived from prolonged PGC cultures. In some embodiments, these PGCs can be transfected with genetic constructs to modify the DNA of the PGC, specifically to introduce a transgene encoding an exogenous protein. When combined with a host avian embryo by known procedures, those modified PGCs are transmitted through the germline to yield transgenic offspring. This invention includes compositions comprising long-term cultures of PGCs and offspring derived from them that are genetically modified. The genetic modifications introduced into PGCs to achieve the gene inactivation may also include, but are not restricted to, random integrations of transgenes into the genome, transgenes inserted into the promoter region of genes, transgenes inserted into repetitive elements in the genome, site specific changes to the genome that are introduced using integrase, site specific changes to the genome introduced by homologous recombination, and conditional mutations introduced into the genome by excising DNA that is flanked by lox sites or other sequences that are substrates for site specific recombination.

A composition for eliciting a T-cell mediated immune response in a subject includes transfer factor from at least two different types of source animals. For example, the composition may include mammalian transfer factor and nonmammalian transfer factor. An example of the composition includes a combination of a colostrum-derived product, which includes the mammalian transfer factor, and an egg-derived product, which includes the nonmammalian transfer factor. Additionally, the egg-derived product may be substantially free of fat. Methods for forming the composition and eliciting T-cell mediated immune responses in subjects that have been treated with the composition are also disclosed.

A composition for eliciting a T-cell mediated immune response in a subject includes transfer factor from at least two different types of source animals. For example, the composition may include mammalian transfer factor and nonmammalian transfer factor. An example of the composition includes a combination of a colostrum-derived product, which includes the mammalian transfer factor, and an egg-derived product, which includes the nonmammalian transfer factor. Additionally, the egg-derived product may be substantially free of fat. Methods for forming the composition and eliciting T-cell mediated immune responses in subjects that have been treated with the composition are also disclosed.

The inventive subject matter includes an antimicrobial peptide vectored composition made of a bacterial protein expression vehicle expressing one or more recombinant antimicrobial peptide effector molecules. More specifically these novel recombinant antimicrobial peptide effector molecules exhibit preferential anti¬microbial activity. The utility of the current inventive subject matter has demonstrated a reduced viability of Eimeira acervulina sporozoites in vitro using a sporozoite killing assay. More specifically, the antimicrobial peptide vectored composition is a bacterial protein expression vehicle expressing one or more recombinant antimicrobial peptide effector molecules, wherein the one or more recombinant antimicrobial peptide effector molecules are engineered from a NK-lysin gene and the one or more recombinant antimicrobial peptide effector molecules are engineered to express functionally active NK-2.

The inventive subject matter includes an antimicrobial peptide vectored composition made of a bacterial protein expression vehicle expressing one or more recombinant antimicrobial peptide effector molecules. More specifically these novel recombinant antimicrobial peptide effector molecules exhibit preferential anti¬microbial activity. The utility of the current inventive subject matter has demonstrated a reduced viability of Eimeira acervulina sporozoites in vitro using a sporozoite killing assay. More specifically, the antimicrobial peptide vectored composition is a bacterial protein expression vehicle expressing one or more recombinant antimicrobial peptide effector molecules, wherein the one or more recombinant antimicrobial peptide effector molecules are engineered from a NK-lysin gene and the one or more recombinant antimicrobial peptide effector molecules are engineered to express functionally active NK-2.

Described herein is an egg yolk extract comprising freed/lysed yolk granules and/or yolk spheres. Also described is an egg yolk extract comprising the liquid contents of a shelled egg, wherein the liquid contents comprise yolk granules. Also described are an egg yolk extract comprising the liquid contents of yolk spheres; an egg yolk extract comprising the liquid contents of yolk granules; an egg yolk extract comprising ovalbumin and other anti-bactericidal proteins in egg white; and an egg yolk extract that supports cell proliferation at least equivalent to FBS when used at the same concentration in a cell culture medium. Related supplements, media, and methods are also described.

Provided are delivery immunostimulatory bacteria that have enhanced colonization of tumors, the tumor microenvironment and/or tumor-resident immune cells, and enhanced anti-tumor activity. The immunostimulatory bacteria are modified by deletion of genes encoding the flagella or by modification of the genes so that functional flagella are not produced, and/or are modified by deletion of pagP or modification of pagP to produce inactive PagP product. As a result, the immunostimulatory bacteria are flagellin.sup.− and/or pagP.sup.−. The immunostimulatory bacteria optionally have additional genomic modifications so that the bacteria are adenosine and/or purine auxotrophs. The bacteria optionally are one or more of asd.sup.−, purI.sup.− and msbB.sup.−. The immunostimulatory bacteria, such as Salmonella species, are modified to encode proteins that induce type I interferon (IFN) expression, or that are variants thereof that have increased activity to induce type I IFN expression, or that are variants thereof that result in constitutive expression of type I IFN. The bacteria can encode a modified Stimulator of Interferon Genes (STING) protein from a non-human species, that has lower NF-κB signaling activity, and, optionally, higher type I IFN pathway signaling activity, compared to human STING. The bacteria preferentially infect immune cells in the tumor microenvironment, or tumor-resident immune cells, and/or induce less cell death in immune cells than in other cells. Also provided are methods of inhibiting the growth or reducing the volume of a solid tumor by administering the immunostimulatory bacteria.

The present invention relates to a method of preparing an extract from edible bird's nest, a bird's nest extract and uses of the bird's nest extract. The method comprises preparing an edible bird's nest (EBN) mixture; and contacting the mixture with an extraction solution to bind a molecule in the mixture, wherein the extraction solution comprises at least one binding moiety selected from the group comprising an opsonin binding moiety, a complement protein binding moiety, a lectin binding moiety, a ficolin binding moiety, a collectin binding moiety, and a pentraxin binding moiety.

A highly-sensitive-allergen-measurement method is provided. A method for detecting an allergen in a sample comprises treating the sample with a protease, and detecting the presence or absence of an allergen-derived polypeptide in the enzymatically treated sample by a chromatographic separation analysis, wherein the allergen is one or more members selected from the group consisting of buckwheat, crustacean, milk, egg and peanut.

The invention concerns derivatives of CMAP27, which have a good antimicrobial activity and a low haemolytic activity as compared to the wild-type CMAP27 peptide. These derivatives can be used for antibiotic therapy or in a bacteriocidal composition. Further comprised in the invention is the use of CMAP27 and/or its derivatives as adjuvant.