The present invention discloses polynucleotide sequences that can be used to regulate gene expression in plants. Terminator sequences from Sorghum bicolor that are functional in plants are disclosed. Nucleic acid molecules, recombinant expression constructs, plants and seed comprising these terminator sequences are further disclosed.

The present invention discloses polynucleotide sequences that can be used to regulate gene expression in plants. Terminator sequences from Sorghum bicolor that are functional in plants are disclosed. Nucleic acid molecules, recombinant expression constructs, plants and seed comprising these terminator sequences are further disclosed.

The invention provides seed and plants of tomato line PSQ-176-OMNI. The invention thus relates to the plants, seeds and tissue cultures of tomato line PSQ-176-OMNI, and to methods for producing a tomato plant produced by crossing such plants with themselves or with another tomato plant, such as a plant of another genotype. The invention further relates to seeds and plants produced by such crossing. The invention further relates to parts of such plants, including the fruit and gametes of such plants.

The present invention relates to rice grain with thickened aleurone. Also provided is a rice plant comprising at least one genetic variation which reduces the activity of at least one ROS1a gene in the plant. Grain of the invention, or aleurone therefrom, has improved nutritional properties, and hence is particularly useful for human and animal feed products.

Isolated nucleotide sequences mutated by insertion encoding a truncated sunflower oleate desaturase protein, truncated protein, methods, procedures and uses. The isolated nucleotide sequences comprise an insertion that includes a stop codon, and wherein the sequences encode a truncated sunflower oleate desaturase protein. The truncated sunflower oleate desaturase protein may be for example the sequence shown in SEQ ID No: 1 or SEQ ID No: 2.

The present invention relates to methods and compositions for identifying, selecting and/or producing a Disease resistant soybean plant or germplasm using genes derived from Glycine canescens, Glycine clandestina, Glycine tomentella. A soybean plant or germplasm that has been identified, selected and/or produced by any of the methods of the present invention is also provided. Disease resistant soybean seeds, plants and germplasms are also provided.

An interspecific Dianthus plant is provided. The interspecific plant comprises a genomic sequence distinctive of D. japonicus and a genomic sequence distinctive of Dianthus species not being D. japonicus, the plant exhibiting resistance to Fusarium oxysporum f.sp. dianthi, race 2 which is higher than that of the Dianthus species.

The disclosure relates to a cotton variety, designated PX3080-01WRF, the plants and seeds of the cotton variety PX3080-01WRF, methods for producing a cotton plant, either varietal or hybrid, produced by crossing the cotton variety PX3080-01WRF with itself or with another cotton plant, hybrid cotton seeds and plants produced by crossing the variety PX3080-01WRF with another cotton variety or plan, methods for producing a cotton plant containing in its genetic material one or more transgenes, and the transgenic cotton plants produced by that method. This disclosure also relates to cotton varieties derived from cotton variety PX3080-01WRF, to methods for producing other cotton varieties derived from cotton variety PX3080-01WRF, and to the varieties derived by the use of those methods.

The present invention relates to cultivated watermelon plants comprising CGMMV resistance due to introgression of QTLs from a CGMMV resistant donor of the species Citrullus colocynthis.

A new and distinct melon variety NUN 16019 MEM is disclosed as well as seeds and plants and fruits thereof. NUN 16019 MEM is a non-sutured Cantaloupe melon variety with long shelf life comprising resistance to Fusarium oxysporum melonis Race 0, Race 1, and Race 2, Podosphaera xanthii Race 1, Race 2, and Race 5, Golovinomyces cichoracearum Race 1, and Aphis gossypii.