Provided herein are rose plants such as cut roses, garden roses and pot roses having at least two genes providing resistance to a pathogen causing powdery mildew. Specifically, provided herein are rose plants resistant to the powdery mildew causing pathogen Podosphaera pannosa also known as Sphaerotheca pannosa var. rosae. Also provided herein are methods for selecting the present powdery mildew rose plants. The present rose plants are characterized by including in their nuclear genome at least one nucleotide sequence represented by SEQ ID No. 1 and at least one nucleotide sequence represented by SEQ ID No. 2 wherein the combined presence of SEQ ID No. 1 and SEQ ID No. 2 provides powdery mildew resistance.

Methods for conveying soybean rust (SBR) resistance into non-resistant soybean germplasm are provided. In some embodiments, the methods include introgressing SBR resistance into a non-resistant soybean using one or more nucleic acid markers for marker-assisted breeding among soybean lines to be used in a soybean breeding program, wherein the markers are linked to and/or associated with SBR resistance. Also provided are single nucleotide polymorphisms (SNPs) associated with resistance to SBR; soybean plants, seeds, and tissue cultures produced by any of the disclosed methods; seed produced by the disclosed soybean plants; and compositions including amplification primer pairs capable of initiating DNA polymerization by a DNA polymerase on soybean nucleic acid templates to generate soybean marker amplicons.

The present invention provides methods and compositions for producing elite lines of corn exhibiting anthracnose stalk rot (ASR) resistance. Also provided in the present invention are corn plants exhibiting ASR resistance resulting from such methods, and methods for breeding corn such that the ASR resistance traits may be transferred to a desired genetic background.

This invention relates to a method for obtaining castor-oil plants deprived of the ricin/RCA protein, through the insertion of gene constructs into plant cells, particularly castor-oil plant ones, with the consequent production of ricin/RCA-free castor-oil plant seeds. An aspect of the invention consists in providing castor-oil plants and parts thereof containing said gene construct. The method disclosed herein appeared to be efficient to the generation of castor-oil plants deprived of ricin protein or showing low expression levels of this protein, thus allowing the use of the seed thereof to the production of detoxified cakes, both for animal nutrition and for fertilizers, not to mention its possible production in countries that set restrictions to this substance, due to ricin toxicity. Therefore, this invention also provides a method and a kit to the identification of transformed plants containing the gene constructs disclosed herein.

The present disclosure provides Cucumis melo inbred line CHA-ZA15-0014AN. 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.

A watermelon plant that produces fruit having (i) ultra-firm flesh and/or liquid-retaining flesh and (ii) soluble solids of at least about 6 brix. The invention further provides for unique watermelon plants with an ultra-firm flesh phenotype and their progeny. Such plants may comprise an introgressed QTL associated with an ultra-firm flesh phenotype. In certain aspects, compositions, including distinct polymorphic molecular markers, and methods for producing, breeding, identifying, selecting, and the like of plants or germplasm with an ultra-firm flesh phenotype are provided.

The present invention relates to a method of reducing the content of at least one tobacco specific nitrosamine (TSNA) or a precursor of a TSNA in tobacco comprising expressing a deregulated cation efflux protein in a tobacco plant, or plant part thereof, or plant cell.

Nucleic acid sequences for predicting and controlling shell phenotype in palm.

The present invention provides methods and compositions for producing elite lines of corn exhibiting anthracnose stalk rot (ASR) resistance. Also provided in the present invention are corn plants exhibiting ASR resistance resulting from such methods, and methods for breeding corn such that the ASR resistance traits may be transferred to a desired genetic background.

The disclosure relates to a method for the generation of plants, such as Euphorbia pulcherrima, having a dysfunctional glutathione S-transferase (GST), and the seeds, plant parts or plant cells derived therefrom. The disclosure further relates to a molecular marker capable of identifying a dysfunctional GST gene, to isolated DNA encoding such a dysfunctional GST gene and to the use of such DNA for the preparation of a molecular marker and for use in methods of targeted mutagenesis to inactivate the GST gene to generate plants with a white foliage phenotype.