A formulation is provided for application to a host plant to reduce, inhibit or impair one or more of growth and development of the host plant. A method of inhibiting growth plant growth and development is also provided as a means of controlling weedy species. The method comprises: selecting a suitable gene for growth suppression in a target plant; identifying an at least one target site accessible to base pairing in the suitable gene; identifying an at least one divergent site in the at least one target site; designing a construct complementary to the at least one divergent site; adding an at least one RNAi inducer to the construct; and delivering the construct to the target plant.

The present invention relates to methods for enhancing at least one growth parameter of a leguminous plant via co-inoculation of a leguminous plant with at least one rhizobial microorganism together with at least one actinobacterial microorganism. In further aspects, the present invention also relates to leguminous plants co-inoculated with at least one rhizobial microorganism together with at least one actinobacterial microorganism, as well as specific actinobacterial strains and inoculant compositions which are useful in accordance with the present invention.

Compositions having pesticidal activity and methods for their use are provided. Compositions include isolated and recombinant polypeptides having pesticidal activity, recombinant and synthetic nucleic acid molecules encoding the polypeptides, DNA constructs and vectors comprising the nucleic acid molecules, host cells comprising the vectors, and antibodies to the polypeptides. Nucleotide sequences encoding the polypeptides can be used in DNA constructs or expression cassettes for transformation and expression in organisms of interest. The compositions and methods provided are useful for producing organisms with enhanced pest resistance or tolerance. Transgenic plants and seeds comprising a nucleotide sequence that encodes a pesticidal protein of the invention are also provided. Such plants are resistant to insects and other pests. Methods are provided for producing the various polypeptides disclosed herein, and for using those polypeptides for controlling or killing a pest. Methods and kits for detecting polypeptides of the invention in a sample are also included.

Provided are isolated polypeptides which are at least 80% homologous to SEQ ID NOs: 182-184, 186-202, 204-216, 219-223, 225, 227-232, 235-236, 238, 240-260, 262-268, 270-275, 277-287, 289-297, 3651-3671, 3686, 3720-3721, 3724, 3727, 3735, 3754, 3774, 3795-4304, 4316, 4374, 4425, 4464, 4481-4813, 4824, 4833, 4843-4844, 4867-4869, 4888, 4890-4891, 5005-5050, 5053-5070, 5093, 5217, 5231, 5233, 5239, 5246, 5255, 5257-5296, 5412, 5415-5429, 5447-5456, 5465-5673, 5675-5686, 5688-5695, 5697-5698, 5700, 5702-5707, 5709-5715, 5717-5785, 5831, 5869, 5980, 6010-6043, 6045-6053, 6055-6093, 6132, 6383, 6405, 6493, 6523, 6533-6537, and 6563-6589, isolated polynucleotides encoding same, 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.

The invention relates to a method for obtaining plants presenting a higher yield by inhibition of the GDH2 activity in the plants.

The present invention belongs to the field of plant genetic engineering. Specifically, the invention relates to a method for base editing in plants. More particularly, the invention relates to a method for performing efficient base editing to a target sequence in the genome of a plant (such as a crop plant) by a Cas9-cytidine deaminase fusion protein, as well as plants produced through said method and progenies thereof.

Methods of making haploid plants.

A method of transforming a mitochondrion of a plant cell to express a nitrogenase enzyme includes exposing the plant cell to a mitochondrial-targeting nanocarrier polypeptide and one or more nucleic acids encoding the nitrogenase enzyme. The one or more genes encoding the nitrogenase enzyme can be one or more Klebsiella nif genes. The method can be used to generate plants which have the capability of fixing atmospheric elemental nitrogen.

The present disclosure provides modified, transgenic, or genome edited/mutated corn plants that are semi-dwarf and have one or more improved ear traits relative to a control plant, such as increase in ear diameter, single kernel weight, ear fresh weight, ear area, ear volume, ear length, number of kernels per ear, and yield. The modified, transgenic, or genome edited/mutated corn plants comprise a transgene encoding one or more MADS-box polypeptides and have a reduced expression of one or more GA20 or GA3 oxidase genes. Also provided are methods for producing the modified, transgenic, or genome edited/mutated corn plants.

Provided are a ZmHsf21 gene, a protein encoded thereby and use thereof in plant breeding. Also provided are uses of the ZmHsf21 gene in increasing plant yield and/or improving plant disease-resistance, especially stalk rot.