Abstract: The present invention relates to nucleic acid molecules useful for conferring broad and durable resistance to grapevine fanleaf virus in plants. The invention also relates to methods of enhancing resistance to plant pathogens and plants or plant components (such as grape plants) expressing such nucleic acid molecules. In addition, the invention relates to products (e.g., foodstuffs including beverages such as wine or juice) derived from grape plants transformed with such nucleic acids.

Abstract: The present invention relates to nucleic acid molecules useful for conferring broad and durable resistance to grapevine fanleaf virus in plants. The invention also relates to methods of enhancing resistance to plant pathogens and plants or plant components (such as grape plants) expressing such nucleic acid molecules. In addition, the invention relates to products (e.g., foodstuffs including beverages such as wine or juice) derived from grape plants transformed with such nucleic acids.

Abstract: In general, the invention features a method for selecting a transgenic grapevine or grapevine component having increased resistance to a grapevine fanleaf disease. The method involves (a) transforming a grape plant cell with a grapevine fanleaf virus coat protein nucleic acid molecule or fragment thereof which is expressed in the plant cell; (b) regenerating a transgenic grapevine or grapevine component from the plant cell; and (c) selecting a transgenic grapevine or grapevine component expressing a grapevine fanleaf virus coat protein or coat protein fragment thereof, where the coat protein or the coat protein fragment thereof is expressed at a level equal to or less than an optical density of about 0.2 at 405 nm as detected by an enzyme-linked immunoassay as compared to a control plant, the selected transgenic grapevine or grapevine component having resistance to the grapevine fanleaf disease.

Abstract: The invention relates to a method for producing die-cast parts, in particular wheel rims or wheels for vehicles, in addition to a diecasting device therefor. To produce high quality wheel rims or wheels, the starting materials are heated in stages in a casting cell and are transferred in a semi-solid form to a die casting machine, where they are formed into die-cast parts.

Abstract: In general, the invention features a method for selecting a transgenic grapevine or grapevine component having increased resistance to a fanleaf disease, the method including the steps of: (a) transforming a grape plant cell with a grape nepovirus coat protein nucleic acid molecule or fragment thereof which is capable of being expressed in the plant cell; (b) regenerating a transgenic grapevine or grapevine component from the plant cell; and (c) selecting a transgenic grapevine or grapevine component which expresses, at a low level, the nucleic acid molecule or fragment thereof, wherein the low level expression increases the resistance of the transgenic grapevine or grapevine component to fanleaf disease. The invention also relates to an isolated nucleic acid molecule encoding a coat protein or fragment thereof of a ‘Geneva’ isolate of a grapevine nepovirus virus.

Abstract: In general, the invention features a method for selecting a transgenic grapevine or grapevine component having increased resistance to a grapevine fanleaf disease. The method involves (a) transforming a grape plant cell with a grapevine fanleaf virus coat protein nucleic acid molecule or fragment thereof which is expressed in the plant cell; (b) regenerating a transgenic grapevine or grapevine component from the plant cell; and (c) selecting a transgenic grapevine or grapevine component expressing a grapevine fanleaf virus coat protein or coat protein fragment thereof, where the coat protein or the coat protein fragment thereof is expressed at a level equal to or less than an optical density of about 0.2 at 405 nm as detected by an enzyme-linked immunoassay as compared to a control plant, the selected transgenic grapevine or grapevine component having resistance to the grapevine fanleaf disease.