The present invention provides medium compositions and methods for the regeneration of the whole plant from explants obtained from plants belonging to the Malvaceae family, particularly the Abelmoschus genus, more preferably Abelmoschus esculentus L, through somatic embryogenesis. The present invention also provides an efficient methodology for genetic transformation of plants belonging to the Malvaceae family through somatic embryogenesis in semisolid culture with the use of the Agrobacterium. The present invention is also related to a method for the development of virus-resistant transgenic plants belonging to the Malvaceae family.

The present embodiments relate to elite event NS-B50027-4, seeds and oils obtained from NS-B50027-4, progeny derived from NS-B50027-4, the genetic and phenotypic characteristics of NS-B50027-4, and compositions and methods for the identification of elite event NS-B50027-4. In particular, NS-B50027-4 is a transgenic canola line capable of producing at least 5% DHA in its seed oil.

The present embodiments relate to inbred transgenic canola line NS-B50027-4; seeds and oils obtained from NS-B50027-4; and progeny derived from NS-B50027-4. In particular, NS-B50027-4 is a true-breeding canola line capable of producing at least 5% DHA in its seed oil.

A method of generating an RNA molecule having a silencing activity in a cell is provided, comprising: (a) identifying nucleic acid sequences encoding RNA molecules exhibiting predetermined sequence homology range, not including complete identity, with respect to nucleic acid sequences encoding RNA molecules engaged with RISC, (b) determining transcription of nucleic acid sequences encoding RNA molecules so as to select transcribable nucleic acid sequences encoding RNA molecules; (c) determining processability into small RNAs of transcripts of transcribable nucleic acid sequences encoding RNA molecules exhibiting predetermined sequence homology range so as to select transcribable nucleic acid sequences encoding aberrantly processed RNA molecules exhibiting predetermined sequence homology range; (d) modifying a nucleic acid sequence of aberrantly processed, transcribable nucleic acid sequences so as to impart processability into small RNAs that are engaged with RISC and are complementary to a first target RNA or to a target RNA of interest.

An attenuated strain of cucumber green mottle mosaic virus (CGMMV) is useful to protect cucumber plants from infection with the wild-type infectious CGMMV strain. The genome of the attenuated virus contains at least one mutation or group of mutations selected from c.4969G>A, c.3334C>T, and a group of at least six of the mutations c.315G>A; c.1498A>G; c.1660C>T; c.3430C>T; c.3528A>G; c.4144C>T; c.4248C>T; and c.6228C>T. These mutated genomes encode one or more mutations selected from R163711 in the 186 kDa readthrough replication protein, A1092V in the 129 kDa replication protein and/or the 186 kDa readthrough replication protein, and at least six mutations selected from G86S, E480G, S534F, A1124V, N1157D, P1362L, P1397S in the 129 kDa replication protein and/or the 186 kDa readthrough replication protein, and the A156V mutation in the coat protein.

Compositions and methods and for enhancing the resistance of plants to plant diseases caused by potyviruses are provided. The compositions comprise nucleic acid molecules encoding resistance (R) gene products and variants thereof and plants, seeds, and plant cells comprising such nucleic acid molecules. The methods for enhancing the resistance of a plant to plant disease caused by a potyvirus comprise introducing a nucleic acid molecule encoding an R gene product into a plant cell. Additionally provided are methods for using the plants in agriculture to limit plant disease.

The present invention relates to methods and compositions for reducing or suppressing target gene expression by genome editing of native miRNAs

Disclosed are hypersensitive-response eliciting peptides and non-hypersensitive response eliciting peptides that induce active plant responses, and that exhibit improved solubility, stability, resistance to chemical degradation, or a combination of these properties. Use of these peptides or fusion polypeptides, or DNA constructs encoding the same, for modulating plant biochemical signaling, imparting disease resistance to plants, enhancing plant growth, imparting tolerance to biotic stress, imparting tolerance and resistance to abiotic stress, imparting desiccation resistance to cuttings removed from ornamental plants, imparting post-harvest disease or post-harvest desiccation resistance to a fruit or vegetable, or enhancing the longevity of fruit or vegetable ripeness are also disclosed.

The present disclosure provides Capsicum annuum plants exhibiting increased resistance to resistance-breaking cucumber mosaic virus (rbCMV) strains. Such plants comprise novel introgressed genomic regions associated with disease resistance on chromosome 8. In certain aspects, compositions and methods for producing, breeding, identifying, and selecting plants or germplasm with an increased disease resistance phenotype are provided.

The present invention relates to a tomato, Solanum lycopersicum, plant that is resistant to Tobamovirus, wherein the plant comprises one or more genomic sequences conferring Tobamovirus resistance. More specifically the invention relates to a tomato plant that is resistant to Tomato Brown Rugose Fruit Virus (TBRFV). The present invention further relates to a genomic sequence or locus providing resistance to Tobamovirus. In addition, the present invention relates to methods for proving a tomato plant that is resistant to Tobamovirus.