Abstract: The invention relates to a novel chemically inducible plant viral amplicon (CMViva) expression system that permits controllable, high level expression of foreign genes in plant hosts. This system employs agro-infiltration of plants to provide a transient production of a protein of interest, such as a human blood protein. This system provides a major advantage over existing plant expression systems because it allows for consistent expression of foreign or heterologous proteins in plant hosts.

Abstract: The invention relates to a novel chemically inducible plant viral amplicon (CMViva) expression system that permits controllable, high level expression of foreign genes in plant hosts. This system employs agro-infiltration of plants to provide a transient production of a protein of interest, such as a human blood protein. This system provides a major advantage over existing plant expression systems because it allows for consistent expression of foreign or heterologous proteins in plant hosts.

Abstract: The invention relates to a novel chemically inducible plant viral amplicon (CMViva) expression system that permits controllable, high level expression of foreign genes in plant hosts. This system employs agro-infiltration of plants to provide a transient production of a protein of interest, such as a human blood protein. This system provides a major advantage over existing plant expression systems because it allows for consistent expression of foreign or heterologous proteins in plant hosts.

Abstract: Described herein are viral amplicon-based protein expression systems and methods useful for producing heterologous proteins, such as enzymes, by agroinfiltration. The methods involve producing an Agrobacterium with a Ti plasmid encoding a heterologous protein, infecting plant cells with the Agrobacterium, allowing expression of the heterologous protein, and recovering the heterologous protein from the plant cells. In one embodiment, the protein produced is an endoglucanase.

Abstract: Described herein are methods useful for producing proteins, such as enzymes, by agrofiltration. The methods involve producing an Agrobacterium with a Ti plasmid encoding a cellulase, infecting plant cells with the Agrobacterium, allowing expression of the cellulase, and recovering the cellulase from the plant cells. In one embodiment, the protein produced is an endoglucanase.

Abstract: Described herein are viral amplicon-based protein expression systems and methods useful for producing heterologous proteins, such as enzymes, by agroinfiltration. The methods involve producing an Agrobacterium with a Ti plasmid encoding a heterologous protein, infecting plant cells with the Agrobacterium, allowing expression of the heterologous protein, and recovering the heterologous protein from the plant cells. In one embodiment, the protein produced is an endoglucanase.

Abstract: The invention relates to a novel chemically inducible plant viral amplicon (CMViva) expression system that permits controllable, high level expression of foreign genes in plant hosts. This system employs agro-infiltration of plants to provide a transient production of a protein of interest, such as a human blood protein. This system provides a major advantage over existing plant expression systems because it allows for consistent expression of foreign or heterologous proteins in plant hosts.

Abstract: Described herein are methods useful for producing proteins, such as enzymes, by agrofiltration. The methods involve producing an Agrobacterium with a Ti plasmid encoding a cellulase, infecting plant cells with the Agrobacterium, allowing expression of the cellulase, and recovering the cellulase from the plant cells. In one embodiment, the protein produced is an endoglucanase.

Abstract: The present invention provides an isolated nucleic acid which contains a nucleotide sequence which encodes at least one of five LIYV proteins: the coat protein, the heat shock protein-70, RNA polymerase, the protein encoded by the gene positioned at ORF 3 of LIYV RNA1, and the protein encoded by the gene positioned at ORF 6 of LIYV RNA2 where at least a portion of the nucleotide sequence for at least one of these proteins, either in the sense or the antisense orientation, is operably linked to genetic regulatory sequences necessary for gene expression to form plant transformation vectors. These vectors are then used to prepare transgenic seeds and plants.