The present disclosure provides Cucumis melo inbred line CHA-ZA15-001AN. The present disclosure also provides methods to select, produce, and grow these plants, parts of such plants, and products made from those parts. The disclosure also includes progeny of the provided plants including hybrid and inbred lines.

The present invention relates to polynucleotides and polypeptides associated with increased resistance of plants towards pathogenic fungi of the genus Mycosphaerella, and fungi related thereto, particularly towards fungi inducing Sigatoka disease complex and fungi inducing other diseases in banana and additional Musa plant spices; to use thereof for controlling plant disease associated with the fungal pathogens; and to the production of genetically engineered plants having increased resistance to the pathogenic fungi.

The present invention relates to a spinach plant that is resistant to downy mildew caused by Peronospora farinosa. The present invention further relates to a resistance gene that confers resistance to downy mildew in spinach plants, and methods for obtaining a spinach plant that is resistant to downy mildew, and use of one or more markers for providing a spinach plant that is resistant to downy mildew.

Provided herein are Brassica plants that produce one or more of omega-3 docosapentaenoic acid (DHA), docosapentaenoic acid (DPA), and eicosapentaenoic acid (EPA), and methods of making such plants.

The present invention discloses an “inferior-eliminating and superior-selecting” breeding method for synergistically improving wheat yield and quality. A method for breeding target wheat varieties with improved yield and quality is provided herein, which combines the advantages of pedigree method and hybrid method, and provides a method for selection of all generations using molecular marker in combination with phenotype identification, and for selection of each generation according to different standards. Different from the derivative system method, the method reserves the traceability of line history and genetic relationship and the characteristics of simple operation and abundant genetic diversity of the hybrid method. The parents have clear backgrounds before combination and the selection process is simple and easy to operate, with clear goal, especially for those with no breeding experiences, it is easy to master and provides technical support for the rapid breeding of new varieties of high-quality and high-yield wheat.

The invention relates to a cultivated spinach plant having a new resistance against at least Peronospora farinosa races 8, 9, 11, 13 and 16, seed, cell cultures and progeny of said plant, use of the plant with the resistance, and methods for generating and identifying such a plant.

Provided herein is the identification and markers and genes associated with day-neutral autoflowering in plants and their use in selecting plants, including Cannabis plants, having autoflowering activity. The markers are useful for breeding autoflowering plants by obtaining nucleic acids, detecting one or more markers that indicate autoflowering activity, and establishing plant lines having such characteristics. Also provided are methods of editing plants to establish plant lines having autoflowering allelic variations.

The disclosure relates to Calibrachoa plants comprising a double-flowering characteristic and a dwarf growth characteristic, methods for generating said plants, and molecular markers corresponding to the double-flowering and dwarf growth traits.

High yield sesame plants and parts thereof are provided. Phenotypic and genotypic analysis of many sesame varieties was performed to derive markers for phenotypic traits that contribute to high yield, and a breeding simulation was used to identify the most common and most stable markers. Examples for such phenotypic traits include the number of capsules per leaf axil, the capsule length, the height to first capsule and the number of lateral shoots. Following verification of trait stability over several generations, markers and marker cassettes were defined as being uniquely present in the developed sesame lines. The resulting high yield, shatter-resistant sesame lines can be used to increase sesame yield for its various uses.

A method for identifying a quantitative trait locus associated with desirable nutritional traits in canola includes: analyzing a population of canola plants or germplasm for desirable nutritional traits; determining the genotype of the canola plants or germplasm using at least one marker selected from the group consisting of SEQ ID NO:1 through SEQ ID NO:111; mapping the canola plants or germplasm for the presence of a quantitative trait locus (QTL) associated with the markers; and associating the QTL with the desirable nutritional trait. An isolated and/or recombinant nucleic acid includes a sequence associated with a quantitative trait locus (QTL), wherein the QTL is associated with a desirable nutritional trait in a canola plant or germplasm and wherein the QTL is further associated with at least one marker selected from the group consisting of SEQ ID NO:1 through SEQ ID NO:111.