Abstract: Descried in certain example embodiments herein are engineered fish, particularly engineered catfish, that are engineered to contain modified myostatin, melanocortin-4 receptor, and/or one or more n-3 fatty acid biosynthesis pathway genes and/or gene products.

Abstract: Disclosed are fish with impaired reproductive capacity and methods and compositions for producing the same. The reproductively impaired fish may include catfish, such as Ictalurus punctatus. The disclosed methods may be generally useful for mitigating environmental impact of escaped genetically engineered fish.

Abstract: Disclosed are fish with impaired reproductive capacity and methods and compositions for producing the same. The reproductively impaired fish may include catfish, such as Ictalurus punctatus. The disclosed methods may be generally useful for mitigating environmental impact of escaped genetically engineered fish.

Abstract: Disclosed are fish with impaired reproductive capacity and methods and compositions for producing the same. The reproductively impaired fish may include catfish, such as Ictalurus punctatus. The disclosed methods may be generally useful for mitigating environmental impact of escaped genetically engineered fish.

Abstract: An improved cellulose acetate implant is able to more cost effectively provide ovulation of female fish. The time required for a production run of implants in CA is about 2-3 hours rather than days of the previous procedure. The method of generating the improved implant includes dissolving a hormone in water, adding acetone to the solution, adding cellulose acetate to the solution, mixing the solution, generating the CA/LHRH from the solution such as by extrusion and processing the CA/LHRH such as drying and cutting the CA/LHRH into strips of improved implants. Other polymers, substances and additives are also able to be used. The improved implants are then able to be inserted into fish at the proper time to increase ovulation which ultimately results in an increased number of fish.

Abstract: Compositions and methods for conferring enhanced disease resistance in a fish are provided. Compositions include novel recombinant constructs that induce transgenic expression of anti-pathogenic polypeptides, including cecropin proteins or biologically active variants thereof, in a fish. Expression of the anti-pathogenic polypeptide is under the control of novel synthetic promoters, naturally occurring fish promoters, or biologically active variants thereof. Compositions of the invention also include transgenic fish cells, fish eggs, and fish, particularly catfish, having the recombinant constructs of the invention stably integrated within their genome. Methods for expressing a polypeptide of interest within a host cell are also provided, wherein expression is under control of the synthetic promoters of the invention.

Abstract: Compositions and methods for conferring enhanced disease resistance in a fish are provided. Compositions include novel recombinant constructs that induce transgenic expression of anti-pathogenic polypeptides, including cecropin proteins or biologically active variants thereof, in a fish. Expression of the anti-pathogenic polypeptide is under the control of novel synthetic promoters, naturally occurring fish promoters, or biologically active variants thereof. Compositions of the invention also include transgenic fish cells, fish eggs, and fish, particularly catfish, having the recombinant constructs of the invention stably integrated within their genome. Methods for expressing a polypeptide of interest within a host cell are also provided, wherein expression is under control of the synthetic promoters of the invention.