The present invention relates to a hybrid between a leek and a garlic plant. More specifically, the invention relates to an interspecific hybrid plants resulting from a cross between an Allium ampeloprasum plant and an Allium sativum plant. Specifically, the present invention relates to Interspecific hybrid plants derived from a cross between an Allium ampeloprasum plant and an Allium sativum plant, wherein the hybrid plants are capable of producing seed and contains nuclear genomic material derived from both said Allium ampeloprasum plant and said Allium sativum plant, and further wherein the interspecific hybrid plants contain at least 250 mg/kg of allicin when determined in the white part of the leaf sheet of the plants and furthermore wherein the interspecific hybrid plants are obtainable, obtained or derived, from an interspecific hybrid plant as deposited under accession number NCIMB 42564.

The present invention relates to a hybrid between a leek and a garlic plant. More specifically, the invention relates to an interspecific hybrid plants resulting from a cross between an Allium ampeloprasum plant and an Allium sativum plant. Specifically, the present invention relates to Interspecific hybrid plants derived from a cross between an Allium ampeloprasum plant and an Allium sativum plant, wherein the hybrid plants are capable of producing seed and contains nuclear genomic material derived from both said Allium ampeloprasum plant and said Allium sativum plant, and further wherein the interspecific hybrid plants contain at least 250 mg/kg of allicin when determined in the white part of the leaf sheet of the plants and furthermore wherein the interspecific hybrid plants are obtainable, obtained or derived, from an interspecific hybrid plant as deposited under accession number NCIMB 42564.

The present invention relates to Apium graveolens plants being resistant to one or more genomically encoded resistances to the plant pathogen Septoria apiicola. Specifically the present invention relates to Apium graveolens plants wherein at least one genomically encoded resistance to the plant pathogen Septoria apiicola is the genomically encoded resistance to the plant pathogen Septoria apiicola as present in deposit NCIMB 42711. The present invention further relates to hybrids containing the present Septoria apiicola resistance and agents, as molecular markers, suitable for detecting the present invention.

The present invention relates to Apium graveolens plants being resistant to one or more genomically encoded resistances to the plant pathogen Septoria apiicola. Specifically the present invention relates to Apium graveolens plants wherein at least one genomically encoded resistance to the plant pathogen Septoria apiicola is the genomically encoded resistance to the plant pathogen Septoria apiicola as present in deposit NCIMB 42711. The present invention further relates to hybrids containing the present Septoria apiicola resistance and agents, as molecular markers, suitable for detecting the present invention.

The present application relates to the technical field of genetic breeding, and provides a method for identifying whether a diploid potato is self-compatible. The method relates to identifying whether a StSCI gene in the diploid potato is transcribed and expressed. Also disclosed is a method for identifying whether a StSCI gene is expressed by using molecular marker, and a method of screening for the molecular marker, which includes: obtaining the genome sequence information of parental materials, screening for difference sites of the parental materials, screening for the molecular marker, and identifying whether the screened molecular marker are usable. As for the identification of the self-compatibility of a diploid potato by using the screened molecular marker, the identification workload is small, a lot of time is saved, and the identification result is not affected by the environment, and it is accurate and reliable.

Provided is a StSCI protein for changing the self-incompatibility of diploid potato materials, wherein the amino acid sequence of the StSCI protein includes or consists of the following sequence: 1) the amino acid sequence represented by SEQ ID NO: 1; or 2) a functional homologous sequence having at least 95% sequence identity with the amino acid sequence represented by SEQ ID NO: 1; or 3) a protein in which one or more (e.g., 1-10) amino acids are added, deleted, or replaced in the amino acid sequence represented by SEQ ID NO: 1 and has the activity of inhibiting self-incompatibility. The advantage of the application is that the StSCI protein may inhibit the cytotoxicity of multiple types of S-RNase, which is hereditary and fundamentally overcomes the defect of self-incompatibility of diploid potatoes, thereby facilitating to realize the cultivation of a high-generation homozygous inbred line of diploid potatoes.

The present disclosure provides a new and distinct hemp cultivar designated ‘05.09.24.S1’. The present disclosure relates to seeds of the hemp plant ‘05.09.24.S1,’ to plants and parts of the hemp plant ‘05.09.24.S1,’ and to methods for producing a hemp plant by crossing the hemp plant ‘05.09.24.S1’ with itself or other cannabis plants. The disclosure further relates to the morphological and physiological characteristics of the new and distinct hemp cultivar and its uses.

The present disclosure provides a new and distinct hemp cultivar designated ‘05.09.24.S1’. The present disclosure relates to seeds of the hemp plant ‘05.09.24.S1,’ to plants and parts of the hemp plant ‘05.09.24.S1,’ and to methods for producing a hemp plant by crossing the hemp plant ‘05.09.24.S1’ with itself or other cannabis plants. The disclosure further relates to the morphological and physiological characteristics of the new and distinct hemp cultivar and its uses.

A new variety of Platanus occidentalis named ‘DRABROT’ which is characterized by a contorted, semi-weeping branch habit and dark green, disease-free leaves. In combination, these characteristics distinguish ‘DRABROT’ from all other cultivars known to the inventors.

A new variety of Platanus occidentalis named ‘DRABROT’ which is characterized by a contorted, semi-weeping branch habit and dark green, disease-free leaves. In combination, these characteristics distinguish ‘DRABROT’ from all other cultivars known to the inventors.