The invention relates to the soybean variety designated 01083675. Provided by the invention are the seeds, plants and derivatives of the soybean variety 01083675. Also provided by the invention are tissue cultures of the soybean variety 01083675 and the plants regenerated therefrom. Still further provided by the invention are methods for producing soybean plants by crossing the soybean variety 01083675 with itself or another soybean variety and plants produced by such methods.

This invention describes a new, high-efficiency method of selecting and advancing pollen donator strains in a breeding or product advancement program, wherein the pollen donator strains are specifically selected to maximize product attributes. Embodiments of this invention relate to the use of a mix of pollen including a cross-pollination source and self-pollen, allowing for single-plant performance comparisons. The comparisons of products from the single plant or less experimental unit allow for the selection of those pollen donator strains that maximize desirable results.

This invention describes a new, high-efficiency method of selecting and advancing pollen donator strains in a breeding or product advancement program, wherein the pollen donator strains are specifically selected to maximize product attributes. Embodiments of this invention relate to the use of a mix of pollen including a cross-pollination source and self-pollen, allowing for single-plant performance comparisons. The comparisons of products from the single plant or less experimental unit allow for the selection of those pollen donator strains that maximize desirable results.

The present invention relates to non-transgenic and transgenic plants, preferably crop plants, comprising at least one mutation of the KINTEOCHORE NULL2 (KNL2) protein, especially a mutation causing a substitution of an amino acid within the KNL2 protein, preferably within the C-terminal region of the KNL2 protein, which preferably have the biological activity of a haploid inducer. Further, the present invention provides methods of generating the plants of the present invention and haploid and double haploid plants obtainable by crossing the plants of the present invention with wildtype plants as well as methods of facilitating cytoplasm exchange.

A novel maize variety designated X05R371 and seed, plants and plant parts thereof are produced by crossing inbred maize varieties. Methods for producing a maize plant by crossing hybrid maize variety X05R371 with another maize plant are disclosed. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X05R371 through backcrossing or genetic transformation, and to the maize seed, plant and plant part produced thereby are described. Maize variety X05R371, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X05R371 are provided. Methods for producing maize varieties derived from maize variety X05R371 and methods of using maize variety X05R371 are disclosed.

Certain aspects of the present disclosure relate to chimeric pepper plants that produce pepper fruit having a yellow and red striped color, and to seeds that produce the chimeric pepper plants. Other aspects of the present disclosure relate to methods of generating and selecting chimeric pepper plants that produce pepper fruit having a yellow and red striped color, as well as methods of limiting propagation of off-type pepper plant progeny that produce pepper fruit of a single color.

The invention provides nucleic acids, polypeptides, transgenic plants, compositions and methods for conferring pesticidal activity (e.g., insecticidal activity) to bacteria, plants, plant cells, tissues and seeds. Nucleic acids encoding the insecticidal proteins can be used to transform prokaryotic and eukaryotic organisms, including plants, to express the insecticidal proteins. The recombinant organisms and compositions containing the recombinant organisms or insecticidal proteins can be used to control a pest (e.g., an insect).

The disclosure provides methods for selecting watermelon plants for genetic elements on chromosome 2 and 6 which genetic elements predict the average seed size produced in the fruits of said plants and watermelon plants and plant parts comprising modifications in the tomato-seed size gene (Ts-gene) on chromosome 2, and methods of producing seeds and plants.

Provided is a canola variety designated 18GG0459R and seed, plants and plant parts thereof produced from a cross of inbred varieties. Methods for producing a canola variety comprise crossing canola variety 18GG0459R with another canola plant. Methods for producing a canola plant containing in its genetic material one or more traits introgressed into 18GG0459R through backcross conversion and/or transformation, and to the canola seed, plant and plant part produced thereby are described. Canola variety, the seed, the plant produced from the seed, plant parts and variants, mutants, and minor modifications of canola variety are disclosed.

Provided is a canola variety designated 18GG0660G and seed, plants and plant parts thereof produced from a cross of inbred varieties. Methods for producing a canola variety comprise crossing canola variety 18GG0660G with another canola plant. Methods for producing a canola plant containing in its genetic material one or more traits introgressed into 18GG0660G through backcross conversion and/or transformation, and to the canola seed, plant and plant part produced thereby are described. Canola variety, the seed, the plant produced from the seed, plant parts and variants, mutants, and minor modifications of canola variety are disclosed.