The present invention relates to a method using a SLIT-ROBO system to treat sarcopenia and, more specifically, to a method comprising administration of a gene selected from among slit1, slit2, slit3, robo1, robo2, and fragments thereof, or a protein expressed from the gene as an effective method for treating a muscle disease or for improving muscular function.

A flavor composition comprising at least one compound that modulates, increases and/or enhances the activity of a GPR120 fatty acid receptor that can be used to enhance the fatty acid taste and/or palatability of pet food products is described herein. Also disclosed herein are methods for identifying said compounds.

A flavor composition comprising at least one compound that modulates, increases and/or enhances the activity of a GPR120 fatty acid receptor that can be used to enhance the fatty acid taste and/or palatability of pet food products is described herein. Also disclosed herein are methods for identifying said compounds.

A flavor composition comprising at least one compound that modulates, increases and/or enhances the activity of a GPR120 fatty acid receptor that can be used to enhance the fatty acid taste and/or palatability of pet food products is described herein. Also disclosed herein are methods for identifying said compounds.

A flavor composition comprising at least one compound that modulates, increases and/or enhances the activity of a GPR120 fatty acid receptor that can be used to enhance the fatty acid taste and/or palatability of pet food products is described herein. Also disclosed herein are methods for identifying said compounds.

The present invention relates to a novel bacteriophage CJ25 (KCCM11463P) and a composition comprising the same as an active ingredient. In addition, the present invention relates to a method for preventing and/or treating infectious diseases caused by avian pathogenic Escherichia coli (APEC) of birds by using the bacteriophage CJ25 (KCCM11463P) or the composition.

The present invention relates to a novel bacteriophage CJ25 (KCCM11463P) and a composition comprising the same as an active ingredient. In addition, the present invention relates to a method for preventing and/or treating infectious diseases caused by avian pathogenic Escherichia coli (APEC) of birds by using the bacteriophage CJ25 (KCCM11463P) or the composition.

The invention provides an animal feed composition comprising microbial -amylase, for example, an animal feed composition comprising transgenic plant material comprising a microbial -amylase (e.g., a thermostable microbial -amylase). The invention further provides methods of increasing animal performance and/or the efficiency of feed utilization by an animal (e.g., for milk or meat production), comprising feeding to the animal an animal feed composition of the present invention.

The invention provides an animal feed composition comprising microbial -amylase, for example, an animal feed composition comprising transgenic plant material comprising a microbial -amylase (e.g., a thermostable microbial -amylase). The invention further provides methods of increasing animal performance and/or the efficiency of feed utilization by an animal (e.g., for milk or meat production), comprising feeding to the animal an animal feed composition of the present invention.

Provided are non-propagating transgenic microalgae expressing at least one heterologous RNAi molecule. The RNAi-expressing non-propagating transgenic microalgae are used for oral delivery of the RNAi molecule to a target organism in its intact and functional form. The heterologous RNAi molecule, present within the microalgae, is characterized by being biologically active, exerting at least one specific effect on the organism consuming the microalgae or on a pathogen of said organism. In particular, the non-propagating transgenic microalgae are used as agents for biological control of animal and plant pests.