A novel maize variety designated X18P234 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 X18P234 with another maize plant are disclosed. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X18P234 through backcrossing or genetic transformation, and to the maize seed, plant and plant part produced thereby are described. Maize variety X18P234, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X18P234 are provided. Methods for producing maize varieties derived from maize variety X18P234 and methods of using maize variety X18P234 are disclosed.

The invention provides seeds and plants of pepper line HAP-FD16-1384. The invention thus relates to the plants, seeds, plant parts, and tissue cultures of pepper line HAP-FD16-1384 and to methods for producing a pepper plant produced by crossing such plants with themselves or with another plant, such as a pepper plant of another genotype. The invention further relates to seeds and plants produced by such crossing. The invention further relates to plants, seeds, plant parts, and tissue cultures of pepper line HAP-FD16-1384 comprising introduced beneficial or desirable traits.

The invention provides seeds and plants of pepper line HAP-FD16-1384. The invention thus relates to the plants, seeds, plant parts, and tissue cultures of pepper line HAP-FD16-1384 and to methods for producing a pepper plant produced by crossing such plants with themselves or with another plant, such as a pepper plant of another genotype. The invention further relates to seeds and plants produced by such crossing. The invention further relates to plants, seeds, plant parts, and tissue cultures of pepper line HAP-FD16-1384 comprising introduced beneficial or desirable traits.

The present invention relates to a novel transgenic maize event expressing the truncated or modified Cry1Da insecticidal protein designated as Event ME240913. The invention relates to nucleic acids that are unique to Event ME240913. Primers, amplicon, methods and kits for detecting the presence of Event ME240913 are also defined. The invention further relates to maize plants containing said event, uses thereof, methods and compositions for controlling lepidopteran insect pests. The invention describes a maize event that has shown a high level of plant protection against feeding damage caused by Lepidoptera, including S. frugirperda, as well as Cry1F resistant insects. The event of the invention was shown to be highly toxic to S. frugirperda.

The present invention relates to a novel transgenic maize event expressing the truncated or modified Cry1Da insecticidal protein designated as Event ME240913. The invention relates to nucleic acids that are unique to Event ME240913. Primers, amplicon, methods and kits for detecting the presence of Event ME240913 are also defined. The invention further relates to maize plants containing said event, uses thereof, methods and compositions for controlling lepidopteran insect pests. The invention describes a maize event that has shown a high level of plant protection against feeding damage caused by Lepidoptera, including S. frugirperda, as well as Cry1F resistant insects. The event of the invention was shown to be highly toxic to S. frugirperda.

Described herein are modified isopropylmalate synthase nucleic acids and proteins, as well as methods, plants, plant cells, and seeds that include the modified isopropylmalate synthase. As shown herein, plants and seeds with such modified isopropylmalate synthase nucleic acids and proteins have increased biomass and/or increased amino acid content.

The invention provides methods for producing seeds in watermelon. In one embodiment methods are provided comprising grafting of a seed parent onto a stress tolerant rootstock, pollinating the seed parent with pollen from a pollen donor, and cultivating the seed parent until seed is formed. In specific embodiments, triploid seeds produced by a method of the invention are rendered conspicuously distinguishable from tetraploid seeds, and thus readily selected manually or by an automated machine. Methods for increasing seed yield and/or quality are also provided.

Provided is a method for producing plants having seeds with an increased protein and/or oil content using mutagenesis and non-destructive chemical analysis. Additionally, provided are methods for identifying causative mutations associated with increased protein and/or oil content and methods of generating plants having the causative mutations associated with increased protein and/or oil content.

The present invention relates to a Solanum lycopersicum seed designated 72-245 RZ. The present invention also relates to a Solanum lycopersicum plant produced by growing the 72-245 RZ seed. The invention further relates to methods for producing the tomato cultivar, represented by tomato variety 72-245 RZ.

Pennycress (Thlaspi arvense) seed, seed lots, seed meal, and compositions with reduced glucosinolate content as well as plants that yield such seed, seed lots, seed meal, and compositions are provided. Methods of making and using the pennycress plants and/or seed that provide such seed, seed lots, seed meal, and compositions are also provided.