The present invention relates to a Diplotaxis tenuifolia seed designated 89-004 RZ, which exhibits a combination of traits including downy mildew resistance, medium green leaves, medium leaf division and a very short plant height at flowering stage. The present invention also relates to a Diplotaxis tenuifolia plant produced by growing the 89-004 RZ seed. The invention further relates to methods for producing the wild rocket cultivar, represented by wild rocket variety 89-004 RZ.

The present invention relates to a Diplotaxis tenuifolia seed designated 89-004 RZ, which exhibits a combination of traits including downy mildew resistance, medium green leaves, medium leaf division and a very short plant height at flowering stage. The present invention also relates to a Diplotaxis tenuifolia plant produced by growing the 89-004 RZ seed. The invention further relates to methods for producing the wild rocket cultivar, represented by wild rocket variety 89-004 RZ.

This document relates to materials and methods for generating early flowering oilseed (e.g., pennycress) plants. For example, oilseed plants (e.g., modified oilseed plants) having one or more modifications in a polypeptide involved in early flowering (e.g., early flowering six (ELF6)), as well as materials and methods for making and using early flowering oilseed plants are provided.

This document relates to materials and methods for generating early flowering oilseed (e.g., pennycress) plants. For example, oilseed plants (e.g., modified oilseed plants) having one or more modifications in a polypeptide involved in early flowering (e.g., early flowering six (ELF6)), as well as materials and methods for making and using early flowering oilseed plants are provided.

This document relates to materials and methods for domesticating oilseed (e.g., pennycress) plants. For example, oilseed plants having reduced seedpod shatter, as well as materials and methods for making and using oilseed plants having reduced seedpod shatter are provided.

This document relates to materials and methods for domesticating oilseed (e.g., pennycress) plants. For example, oilseed plants having reduced seedpod shatter, as well as materials and methods for making and using oilseed plants having reduced seedpod shatter are provided.

The invention is in the field of Brassica carinata breeding (i.e. Ethiopian mustard breeding), specifically relating to the inbred Brassica carinata cultivars designated Brassica carinata AGR044-312D and Brassica carinata AGR044-3A22. The present invention relates to seeds, plants or parts thereof, cells, methods of making, and uses of these cultivars and their progeny. AGR044-312D and AGR044-3A22 may exhibit improved yields relative to existing Brassica carinata commercial varieties. Other properties of these cultivars may include reduced levels of seed glucosinolate, improved disease resistance, and reduced tendency to lodging and pod shatter relative to existing commercial Brassica carinata varieties.

The invention is in the field of Brassica carinata breeding (i.e. Ethiopian mustard breeding), specifically relating to the inbred Brassica carinata cultivars designated Brassica carinata AGR044-312D and Brassica carinata AGR044-3A22. The present invention relates to seeds, plants or parts thereof, cells, methods of making, and uses of these cultivars and their progeny. AGR044-312D and AGR044-3A22 may exhibit improved yields relative to existing Brassica carinata commercial varieties. Other properties of these cultivars may include reduced levels of seed glucosinolate, improved disease resistance, and reduced tendency to lodging and pod shatter relative to existing commercial Brassica carinata varieties.

This application relates to canola oils comprising triacylglycerols (TAGs), wherein 11-16% of the total TAGs in the oil comprise one saturated fatty acid and two unsaturated fatty acids and wherein 82-88% of total TAGs comprise three unsaturated fatty acids, and wherein 81-91% of the total TAGs comprise at least one oleic acid and wherein 7-12% of the total TAGs comprise at least one linolenic acid. In some embodiments, the oils have a low saturated fatty acid content of 3.5-5.5%, such as 3.5-4.5%, or 3.5-4.0%.

The present invention relates to a new and distinctive canola, designated G30853A. Also included are seeds of canola G30853A, to the plants, or plant parts, of canola G30853A and to methods for producing a canola plant produced by crossing the canola G30853A with itself or another canola genotype, and the creation of variants by mutagenesis or transformation of canola G30853A.