The present invention is in the field of plant breeding and disease resistance. More specifically, the invention includes a method for breeding soybean plants containing quantitative trait loci that are associated with resistance to Asian Soybean Rust (ASR), a fungal disease associated with Phakopsora spp. The invention further includes germplasm and the use of germplasm containing quantitative trait loci (QTL) conferring disease resistance for introgression into elite germplasm in a breeding program for resistance to ASR.

An object of the present invention is to provide an F1 hybrid or a portion thereof, and use of the F1 hybrid or a portion thereof. The F1 hybrid of the present invention is an F1 hybrid between Nicotiana umbratica and Nicotiana kawakamii.

Provided herein is the identification of markers and genes associated with powdery mildew susceptibility and resistance in Cannabis. The markers are useful for breeding Cannabis plants having resistance to powdery mildew, and methods for selecting plants by obtaining nucleic acids and detecting one or more markers that indicate resistance to powdery mildew to establish plant lines having such resistance are provided.

The present invention relates to new transporter polypeptides, and genes encoding therefor, which can be used to confer upon a plant resistance to one or more biotrophic fungal pathogens.

The present invention relates to a genetically modified plant which has enhanced resistance to one or more fungal pathogen(s).

A new Helianthus plant named SUR67-1 particularly distinguished by the medium to large size yellow decorative inflorescences, vigorous size plant, round mound plant habit, with a natural flowering response of early May until late September.

The present invention relates to white rust resistant plants of the genus Chrysanthemum and to seeds, plant parts, plant cells and progeny thereof. The present invention further relates to means, and particularly molecular markers for identifying white rust resistant plants of the genus Chrysanthemum. Specifically, the present invention relates to plants belonging to the genus Chrysanthemum, the plants are resistant to white rust and the plants comprise in their genome at least one genomic region, or gene or allele, providing white rust resistance, the at least one genomic region, or gene or allele, providing white rust resistance is genetically linked to a nucleic acid sequence comprised in at least one copy in the genome of the resistant plants and is represented by SEQ ID No. 3

The present disclosure concerns triploid hybrid watermelon plants characterized by a tolerance to powdery mildew (PM) and capable of producing seedless fruits with a total soluble solid (TSS) in the range of 10% to 13%, and a red fruit flesh. In some embodiments, the triploid plants are resistant to at least one of PM1 and PM2 races. The present disclosure also concerns seeds of said triploid watermelon plant, and any progeny of such plant. Further provided by the present disclosure is a diploid watermelon line having tolerance to PM and being capable of pollinating a tetraploid watermelon to produce a triploid hybrid, as well as the tetraploid watermelon and methods of producing said triploid plant from said diploid and tetraploid plants.

Up until now, all varieties of Impatiens walleriana are susceptible to impatiens downy mildew cause by the water mold, Plasmopara obducens. The present invention relates to novel Impatiens walleriana seed containing a genetic resistance to Plasmopara obducens. The present invention also relates to methods for creating novel Impatiens walleriana seed containing a genetic resistance to Plasmopara obducens and Impatiens walleriana seed produced by the method.

The present disclosure provides maize plants exhibiting broad spectrum resistance to Northern Leaf Blight (NLB). Maize plants with multiple NLB resistance loci located in cis linkage on chromosome 8 are provided. Compositions, including novel polymorphic markers and methods for producing, breeding, identifying, and selecting plants or germplasm with a disease resistance phenotype are further provided.