The present invention relates to a transgenic plant, preferably of the Brassica spp. genus, comprising in its genome a fungal sequence, preferably belonging to the fungus Trichoderma harzianum, capable of establishing symbiosis with mycorrhizal fungi. Additionally, the transgenic plants of the invention have an increased biomass and higher resistance to abiotic stress. The present invention also provides methods for increasing the resistance to abiotic stress of plants of the Brassica spp. genus, as well as methods for obtaining said transgenic plants with the capacity to establish mycorrhization processes and resistance to abiotic stress and methods for producing foods, feeds or industrial products using the transgenic plant.

This invention relates to compositions and methods for modifying root architecture in a plant through modification of endogenous DEEPER ROOTING 1 (DRO1) nucleic acids. The invention further relates to plants produced using the methods and compositions of the invention.

The present invention is directed to a transgenic maize plant or a part thereof comprising as transgene a nucleic acid capable of expressing a cell wall invertase or a functional part thereof, preferably a Chenopodium rubrum cell wall invertase or a functional part thereof, wherein as a result of the expression of the cell wall invertase or a functional part thereof the transgenic maize plant exhibits an enhanced tolerance to abiotic stress and/or an increased yield, to a method of producing such transgenic maize plant, to method of enhancing the tolerance to abiotic stress of a maize plant and/or of increasing yield potential of a maize plant, to a nucleic acid capable of expressing a cell wall invertase or a functional part thereof, preferably a Chenopodium rubrum cell wall invertase or a functional part thereof, to a vector comprising such nucleic acid, the use of the nucleic acid or vector for enhancing the tolerance to abiotic stress of a maize plant, for increasing yield potential of a maize plant and/or for protecting a maize plant against abiotic stress, and to a method for production of ethanol or methane from transgenic maize plant or a part thereof of the invention.

The present invention relates to methods and compositions for identifying, selecting and/or producing a maize plant or maize plant part having increased yield under non-drought conditions, increased yield stability under drought conditions, and/or increased drought tolerance. A maize plant or maize plant part, including any progeny and/or seeds derived from a maize plant or germplasm identified, selected and/or produced by any of the methods of the present invention is also provided.

Compositions and methods are provided for agronomic trait modification of a target sequence in the genome of a plant or plant cell. The methods and compositions employ a guide RNA/Cas endonuclease system to provide an effective system for modifying or altering target sites within a genomic region of a plant, plant cell or seed to provide improvement in a desirable agronomic trait such as drought, yield, and stress tolerance. Breeding methods for selecting plants utilizing a two component RNA guide and Cas endonuclease system are also disclosed. Compositions and methods are also provided for editing a nucleotide sequence in the genome of a cell.

Provided are isolated polypeptides which are at least 80% homologous to SEQ ID NOs: 710-1153 and 9276-15726, isolated polynucleotides which are at least 80% identical to SEQ ID NOs: 1-709 and 1157-9275, nucleic acid constructs comprising same, transgenic cells expressing same, transgenic plants expressing same and method of using same for increasing yield, abiotic stress tolerance, growth rate, biomass, vigor, oil content, photosynthetic capacity, seed yield, fiber yield, fiber quality, fiber length, and/or nitrogen use efficiency of a plant.

This disclosure provides purified nucleic acids and polypeptides. Also provided are transgenic plants, seeds, and plant cells containing DNA for expression of the proteins that are useful for imparting enhanced agronomic trait(s) to transgenic crop plants, methods of making such plants and methods of making agricultural commodity including seeds and hybrid seeds from such plants.

The present invention relates to a method of improving stress tolerance and/or preventing growth reduction of a plant by introducing a polynucleotide encoding a Repetitive Proline-rich Protein (RePRP) into the plant.

Provided are isolated polypeptides which are at least 80% homologous to SEQ ID NOs: 529, 475-528, 530-770, 6179-9796, 9798-10421, isolated polynucleotides which are at least 80% identical to SEQ ID NOs: 314, 1-313, 315-474, 771-6178, nucleic acid constructs comprising same, transgenic cells expressing same, transgenic plants expressing same and method of using same for increasing abiotic stress tolerance, yield, growth rate, biomass, vigor, oil content, photosynthetic capacity, seed yield, fiber yield, fiber quality, fiber length, and/or nitrogen use efficiency of a plant.

Polynucleotides and isolated polypeptides, nucleic acid constructs comprising the isolated polynucleotides, transgenic plants expressing same and methods of using same for increasing abiotic stress tolerance, yield, biomass, growth rate, vigor, oil content, fiber yield, fiber quality, and/or nitrogen use efficiency of a plant are disclosed.