The present invention relates to a method for producing Cannabis sativa L. seed, and more particularly, to a method for producing Cannabis sativa L. seed for efficiently cultivating a low-narcotic cannabis variety, and when Cannabis sativa L. seeds produced by the production method are used, it is possible to cultivate cannabis female plants where female flowers are formed, and it is possible to improve the quantity of cannabis female flowers. Further, when a cannabis extract is prepared using the cannabis female flowers, it is possible to prepare a low-narcotic cannabis extract.

Methods for treatment and prevention of Potexvirus disease in plants are provided. Further provided are compositions for treatment or prevention of Potexvirus disease in plants, and methods for reducing expression of a Potexvirus gene and for identifying polynucleotides useful in modulating gene expression in plant viruses.

Use of cucurbituril, a derivative thereof, or a mixture thereof for reducing pod shattering in pod-bearing crops and a pod sealant composition.

Use of cucurbituril, a derivative thereof, or a mixture thereof for reducing pod shattering in pod-bearing crops and a pod sealant composition.

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.

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.

Provided are methods for increasing the yield of a monocot plant through treatment of the plant with a plant growth regulator. In certain embodiments, maize plants produce multiple ears and an increased number of kernels. In certain embodiments, reduced height of the plant allows for more efficient self-pollination.

Provided are methods for increasing the yield of a monocot plant through treatment of the plant with a plant growth regulator. In certain embodiments, maize plants produce multiple ears and an increased number of kernels. In certain embodiments, reduced height of the plant allows for more efficient self-pollination.

Provided are methods for increasing the yield of a monocot plant through treatment of the plant with a plant growth regulator. In certain embodiments, maize plants produce multiple ears and an increased number of kernels. In certain embodiments, reduced height of the plant allows for more efficient self-pollination.

Provided are methods for increasing the yield of a monocot plant through treatment of the plant with a plant growth regulator. In certain embodiments, maize plants produce multiple ears and an increased number of kernels. In certain embodiments, reduced height of the plant allows for more efficient self-pollination.