Abstract: Plants, plant cells, and plant seeds are described herein that are resistant to Fusarium head blight (FHB). The plants, plant cells, and plant seeds can be wheat plants, plant cells, and plant seeds.

Abstract: The present invention provides transgenic cover crop plants which after harvest degrade the hemicellulose and cellulose therein to fermentable sugars which can further be fermented to ethanol or other products. In particular, the transgenic plants comprise cellulase, hemicellulase and optionally ligninase genes from microbes operably linked to a DNA encoding a signal peptide which targets the fusion polypeptide produced therefrom to an organelle of the plant, in particular, the chloroplasts. When the transgenic plants are harvested, the plants are ground to release the hemicellulase and cellulase which then degrade the hemicellulose and cellulose of the transgenic plants to produce the fermentable sugars.

Abstract: The present invention provides transgenic plants which after harvest degrade the lignin and cellulose therein to fermentable sugars which can further be fermented to ethanol or other products. In particular, the transgenic plants comprise ligninase and cellulase genes from microbes operably linked to a DNA encoding a signal peptide which targets the fusion polypeptide produced therefrom to an organelle of the plant, in particular the chloroplasts. When the transgenic plants are harvested, the plants are ground to release the ligninase and cellulase which then degrade the lignin and cellulose of the transgenic plants to produce the fermentable sugars.

Abstract: The present invention provides transgenic plants expressing one or more cell wall degrading enzymes that can degrade lignocellulose to fermentable sugars. These fermentable sugars can further be fermented to ethanol or other products. The enzymes are directed to the plastids or the apoplasts or the transgenic plant for storage. When the transgenic plants are harvested, the plants are ground to release the enzymes which then are used to degrade the lignocellulose of plant material to produce the fermentable sugars. The transgenic plants express the flowering locus c gene so that flowering is delayed and the plant biomass is increased.

Abstract: The present invention provides transgenic plants which after harvest degrade the lignin and cellulose therein to fermentable sugars which can further be fermented to ethanol or other products. In particular, the transgenic plants comprise ligninase and cellulase genes from microbes operably linked to a DNA encoding a signal peptide which targets the fusion polypeptide produced therefrom to an organelle of the plant, in particular the chloroplasts. When the transgenic plants are harvested, the plants are ground to release the ligninase and cellulase which then degrade the lignin and cellulose of the transgenic plants to produce the fermentable sugars.

Abstract: The present invention provides transgenic plants which after harvest degrade the lignin and cellulose therein to fermentable sugars which can further be fermented to ethanol or other products. In particular, the transgenic plants comprise ligninase and cellulase genes from microbes operably linked to a DNA encoding a signal peptide which targets the fusion polypeptide produced therefrom to an organelle of the plant, in particular the chloroplasts. When the transgenic plants are harvested, the plants are ground to release the ligninase and cellulase which then degrade the lignin and cellulose of the transgenic plants to produce the fermentable sugars.

Abstract: The present invention provides transgenic plants which after harvest degrade the lignin and cellulose therein to fermentable sugars which can further be fermented to ethanol or other products. In particular, the transgenic plants comprise ligninase and cellulase genes from microbes operably linked to a DNA encoding a signal peptide which targets the fusion polypeptide produced therefrom to an organelle of the plant, in particular the chloroplasts. When the transgenic plants are harvested, the plants are ground to release the ligninase and cellulase which then degrade the lignin and cellulose of the transgenic plants to produce the fermentable sugars.

Abstract: The present invention discloses transgenic monocot plants in which the plastid genome has been genetically engineered. The bioconfined genetically engineered monocot crops have transgene-free pollen grains which eliminate or dramatically reduce transgene flow. The present invention discloses plastid transgenesis technology having the additional advantages of the absence of gene silencing and position effect variation, the ability to express polycistronic messages from a single promoter, integration via a homologous recombination process that facilitates targeted gene replacement and precise transgene control, and sequestration of foreign proteins in the organelle which prevents adverse interaction with the cytoplasmic environment.