A novel maize variety designated X90T899 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 X90T899 with another maize plant are disclosed. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X90T899 through backcrossing or genetic transformation, and to the maize seed, plant and plant part produced thereby are described. Maize variety X90T899, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X90T899 are provided. Methods for producing maize varieties derived from maize variety X90T899 and methods of using maize variety X90T899 are disclosed.

A novel maize variety designated X08P422 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 X08P422 with another maize plant are disclosed. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X08P422 through backcrossing or genetic transformation, and to the maize seed, plant and plant part produced thereby are described. Maize variety X08P422, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X08P422 are provided. Methods for producing maize varieties derived from maize variety X08P422 and methods of using maize variety X08P422 are disclosed.

A novel maize variety designated X13P472 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 X13P472 with another maize plant are disclosed. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X13P472 through backcrossing or genetic transformation, and to the maize seed, plant and plant part produced thereby are described. Maize variety X13P472, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X13P472 are provided. Methods for producing maize varieties derived from maize variety X13P472 and methods of using maize variety X13P472 are disclosed.

Exemplary systems and methods are disclosed for allocating resources in a breeding pipeline to multiple origins. One exemplary method includes accessing a data structure including data representative of multiple origins, in which the data includes, for each of the multiple origins, a trait performance expression or genotypic component information. The exemplary method further includes determining a resource allocation, which allocates n resources among the multiple origins based on a probability associated with the trait performance expressions and/or the genotypic components for the origins, and then allocating the n resources in the breeding pipeline for the multiple origins, based on the determined resource allocation.

The invention provides seed and plants of tomato hybrid SV2794TD and the parent lines thereof. The invention thus relates to the plants, seeds and tissue cultures of tomato hybrid SV2794TD and the parent lines thereof, and to methods for producing a tomato plant produced by crossing such plants with themselves or with another tomato plant, such as a plant of another genotype. The invention further relates to seeds and plants produced by such crossing. The invention further relates to parts of such plants, including the fruit and gametes of such plants.

The present disclosure provides a molecular marker linked to Fusarium wilt resistance gene in tomato, and a method for obtaining the molecular marker linked to Fusarium wilt resistance gene in tomato. The molecular marker according to the present disclosure has a high specificity, and can be used to identify the resistance to Fusarium oxysporum f. sp. Physiological race 3 quickly and improve the breeding efficiency of the seeds resistant to Fusarium oxysporum f. sp. Physiological race 3. The molecular marker linked to Fusarium wilt resistance gene in tomato according to the present disclosure is prepared simply and has a low production cost. The molecular marker according to the present disclosure can be used to identify the resistance to Fusarium oxysporum f. sp. Physiological race 3, screen the tomato single plant which is resistant to Fusarium oxysporum f. sp. Physiological race 3, and/or determine the purity of hybrid seeds derived from hybridization of the tomato which is resistant to Fusarium oxysporum f. sp. Physiological race 3 and the tomato which is susceptible to Fusarium oxysporum f. sp. Physiological race 3. The molecular marker according to the present disclosure can be also used to prepare a kit, which has the same uses as that of the molecular marker according to the present disclosure.

The invention provides seed and plants of tomato hybrid DR0603TC and the parent lines thereof. The invention thus relates to the plants, seeds and tissue cultures of tomato hybrid DR0603TC and the parent lines thereof, and to methods for producing a tomato plant produced by crossing such plants with themselves or with another tomato plant, such as a plant of another genotype. The invention further relates to seeds and plants produced by such crossing. The invention further relates to parts of such plants, including the fruit and gametes of such plants.

The present invention relates to plants of the genus Catharanthus containing a broad spectrum genetic resistance to Phytophthora. In particular, the present invention relates to a Catharanthus roseus plant containing a broad spectrum genetic resistance to P. nicotianae.

Novel lettuce, such as lettuce designated VAQUERO is disclosed. In some embodiments, the invention relates to the seeds of lettuce VAQUERO, to the plants and plant parts of lettuce VAQUERO, and to methods for producing a lettuce plant by crossing the lettuce VAQUERO with itself or another lettuce plant. The invention further relates to methods for producing a lettuce plant containing in its genetic material one or more transgenes and to the transgenic plants produced by that method and to methods for producing other lettuce plants derived from the lettuce VAQUERO.

The invention provides seed and plants of the bean line designated SV3902GA. The invention thus relates to the plants, seeds and tissue cultures of bean line SV3902GA, and to methods for producing a bean plant produced by crossing a plant of bean line SV3902GA with itself or with another bean plant, such as a plant of another line. The invention further relates to seeds and plants produced by such crossing. The invention further relates to parts of a plant of bean line SV3902GA, including the pods and gametes of such plants.