Provided is a canola variety designated 16GG0572R and seed, plants and plant parts thereof produced from a cross of inbred varieties. Methods for producing a canola variety comprise crossing canola variety 16GG0572R with another canola plant. Methods for producing a canola plant containing in its genetic material one or more traits introgressed into 16GG0572R through backcross conversion and/or transformation, and to the canola seed, plant and plant part produced thereby are described. Canola variety 16GG0572R, the seed, the plant produced from the seed, plant parts and variants, mutants, and minor modifications of canola variety 16GG0572R are disclosed.

The present invention relates to non-transgenic and transgenic plants, preferably crop plants, comprising a mutation causing an alteration of the amino acid sequence in the CATD domain of the centromere histone H3 (CENH3), preferably within the loop1 or the α2-helix of the CATD domain, which have the biological activity of a haploid inducer. Further, the present invention provides methods of generating the plants of the present invention and haploid and double haploid plants obtainable by crossing the plants of the present invention with wildtype plants as well as methods of facilitating cytoplasm exchange.

The present invention relates to a composition comprising methyl jasmonate and a polysiloxane polyether for increasing the content of glucosinolates in adult plants of the genus Brassica, for example, broccoli. By means of foliar application of the composition on adult plants having a developed cuticle, a significant increase is achieved in the concentrations of glucosinolates (mainly glucoraphanin and neoglucobrassicin), in the floret of the plants, without degrading the organoleptic properties thereof.

The present invention relates to a composition comprising methyl jasmonate and a polysiloxane polyether for increasing the content of glucosinolates in adult plants of the genus Brassica, for example, broccoli. By means of foliar application of the composition on adult plants having a developed cuticle, a significant increase is achieved in the concentrations of glucosinolates (mainly glucoraphanin and neoglucobrassicin), in the floret of the plants, without degrading the organoleptic properties thereof.

This invention provides a Brassica oleracea plant with high S-methylmethionine content. This invention relates to a Brassica oleracea plant with higher S-methylmethionine content than that in a conventional Brassica oleracea plant. Specifically, this invention relates to a Brassica oleracea plant with the S-methylmethionine content of 48 mg/100 g fresh weight or more.

The present invention includes broccoli plants with curds having detached florets and methods for obtaining such broccoli plants. The present invention also provides reagents that can be used in methods for obtaining such broccoli plants.

The invention provides recombinant DNA molecules that are unique to Brassica Event MON94100 and transgenic Brassica plants, Brassica plant parts, Brassica seeds, Brassica cells, and agricultural products containing Brassica Event MON94100 as well as methods of using and detecting Brassica Event MON94100. Transgenic Brassica plants containing Brassica Event MON94100 exhibit tolerance to dicamba.

The invention provides recombinant DNA molecules that are unique to Brassica Event MON94100 and transgenic Brassica plants, Brassica plant parts, Brassica seeds, Brassica cells, and agricultural products containing Brassica Event MON94100 as well as methods of using and detecting Brassica Event MON94100. Transgenic Brassica plants containing Brassica Event MON94100 exhibit tolerance to dicamba.

Provided is a canola variety designated 16GG0344L and seed, plants and plant parts thereof produced from a cross of inbred varieties. Methods for producing a canola variety comprise crossing canola variety 16GG0344L with another canola plant. Methods for producing a canola plant containing in its genetic material one or more traits introgressed into 16GG0344L through backcross conversion and/or transformation, and to the canola seed, plant and plant part produced thereby are described. Canola variety 16GG0344L, the seed, the plant produced from the seed, plant parts and variants, mutants, and minor modifications of canola variety 16GG0344L are disclosed.

Provided is a canola variety designated 16GG0337L and seed, plants and plant parts thereof produced from a cross of inbred varieties. Methods for producing a canola variety comprise crossing canola variety 16GG0337L with another canola plant. Methods for producing a canola plant containing in its genetic material one or more traits introgressed into 16GG0337L through backcross conversion and/or transformation, and to the canola seed, plant and plant part produced thereby are described. Canola variety 16GG0337L, the seed, the plant produced from the seed, plant parts and variants, mutants, and minor modifications of canola variety 16GG0337L are disclosed.