Hybrid tomato varieties designated ‘E15A43014’, ‘E15B42750’ and ‘E15M43066’ are disclosed. The disclosure relates to, e.g., seeds or plants thereof, as well as to methods for producing other tomato lines, cultivars, or hybrids derived from the hybrid tomato varieties selected from ‘E15A43014’, ‘E15B42750’, and ‘E15M43066’.
Hybrid tomato varieties designated ‘E15T43109’ and ‘E15T43110’ are disclosed. The disclosure relates to the seeds, plants, and to methods for producing other tomato lines, cultivars, or hybrids derived from the hybrid tomato varieties selected from ‘E15T43109’ and ‘E15T43110’.
The present invention relates to a lettuce plant that is resistant to downy mildew, more specifically to a lettuce plant that comprises a resistance gene that confers broad spectrum resistance to oomycetes in lettuce, more specifically B. lactucae. Furthermore, the present invention relates to a resistance gene and a method for obtaining a lettuce plant that is resistant to downy mildew, wherein the method comprises the step of introducing said resistance gene into a lettuce plant.
CucurbitaceaeCucurbitaceae plant that comprises a CABYV resistance locus providing resistance to Cucurbit aphid-borne yellows disease and/or the Cucurbitaceae plant wherein said plant comprises a stay green (SGR) gene providing improved fruit shelf life and reduced leaf yellowing. The present invention further relates to a CABYV resistance gene and/or an SGR gene, the use of said gene(s) for providing a Cucurbitaceae plant resistant to Cucurbit aphid-borne yellows disease and methods for identifying or selecting a Cucurbitaceae plant resistant to Cucurbit aphid-borne yellows disease and/or leaf yellowing.
Cucumis sativusCucumis sativus) which provides fruits having an improved shelf life, wherein said plant comprises a mutated stay green gene providing the improved fruit shelf life, wherein the expression of said stay green gene is reduced as compared to the expression of said stay green gene in a cucumber plant not providing fruits having an improved shelf life or the enzymatic activity of said protein is reduced as compared to the enzymatic activity of said protein in a cucumber plant not providing fruits having an improved shelf life.
Bremia lactucaeBremia lactucae. Furthermore, the present invention relates to a MRC4 resistance gene and a method for obtaining a lettuce plant that is resistant to downy mildew, wherein the method comprises the step of introducing said MRC4 resistance gene into a lettuce plant.
New lettuce varieties designated ‘E01C11866’, ‘E01L30616’ and ‘E01B11959’ are described. ‘E01C11866’, ‘E01L30616’ and ‘E01B11959’ are lettuce varieties exhibiting stability and uniformity.
The present invention relates to a plant of the S. lycopersicum species that is resistant to Tobamovirus at temperatures of at least 28℃, wherein the plant comprises a TBRFV resistance gene and further comprises at least one temperature sensitivity reducing (TSR) gene. The present invention further relates to a combination of the TBRFV resistance gene in combination with at least one temperature sensitivity reducing (TSR) gene for providing resistance to a Tobamovirus in a S. lycopersicum plant at a temperature of at least 28 ℃ and methods for providing a tomato plant that is TBRFV resistant at temperatures of at least 28 ℃.
A01H 6/82 - Solanaceae, e.g. pepper, tobacco, potato, tomato or eggplant
C12Q 1/6895 - Nucleic acid products used in the analysis of nucleic acids, e.g. primers or probes for detection or identification of organisms for plants, fungi or algae
The present invention relates to a lettuce plant that is resistant to downy mildew, more specifically to a lettuce plant that comprises a mutated gene that confers broad spectrum resistance to oomycetes in lettuce. Furthermore the present invention relates a resistance gene and a method for obtaining a lettuce plant that is resistant to downy mildew, wherein the method comprises the step of mutating a gene.
The present invention relates to a tomato, Solanum lycopersicum, plant that is resistant to Tobamovirus, wherein the plant comprises one or more genomic sequences conferring Tobamovirus resistance. More specifically the invention relates to a tomato plant that is resistant to Tomato Brown Rugose Fruit Virus (TBRFV). The present invention further relates to a genomic sequence or locus providing resistance to Tobamovirus. In addition, the present invention relates to methods for proving a tomato plant that is resistant to Tobamovirus.
Inbred spinaches ‘OS0692’, ‘OS0694’, and ‘OS0699’ are described. The disclosure relates to, e.g., seeds or plants thereof, as well as to methods for producing other spinach lines, cultivars, or hybrids derived from the spinaches ‘OS0692’, ‘OS0694’, and ‘OS0699’.
Hybrid tomato varieties designated ‘E15M43069’, ‘E15T43094’, and ‘E15T43096’ are disclosed. The present disclosure provides seeds, plants, and to methods for producing other tomato lines, cultivars, or hybrids derived from the hybrid tomato varieties selected from ‘E15M43069’, ‘E15T43094’, and ‘E15T43096’.
Seeds of hybrid cucumbers designated as ‘E23B.16213’ and ‘E23B.2447’ are disclosed. The disclosure relates to the seeds of hybrid cucumbers ‘E23B.16213’ and ‘E23B.2447’, to the plants of hybrid cucumbers ‘E23B.16213’ and ‘E23B.2447’, to methods for producing a hybrid plant, and to methods for producing other cucumber lines, cultivars or hybrids derived from the hybrid cucumbers ‘E23B.16213’ and ‘E23B.2447’.
New lettuce varieties designated ‘Paonia’ and ‘Newcastle’ are described. ‘Paonia’ and ‘Newcastle’ are lettuce varieties exhibiting stability and uniformity.
The present invention relates to a lettuce plant that is resistant to downy mildew, more specifically to a lettuce plant that comprises one or more resistance genes that confers broad spectrum resistance to oomycetes in lettuce, more specifically B. lactucae. Furthermore the present invention relates to said one or more resistance genes and a method for obtaining a lettuce plant that is resistant to downy mildew, wherein the method comprises the step of identifying said one or more genes.
The present invention relates to a Cucurbitaceae plant which provides fruits having an improved shelf life. Further, the present invention relates to seeds, plant tissue, fruits or plants parts of a Cucurbitaceae plant. Further aspect of the present invention relates to a method for providing a Cucurbitaceae plant which provides fruits with an improved shelf life. According to yet another aspect the present invention relates to nucleic acids and amino acids related to the present improved shelf life trait.
Peronospora farinosaPeronospora farinosa. The present invention further relates to a resistance gene that confers resistance to downy mildew in spinach plants and methods for obtaining a spinach plant that is resistant to downy mildew.
Peronospora farinosaPeronospora farinosa. The present invention further relates to a resistance gene that confers resistance to downy mildew in spinach plants and methods for obtaining a spinach plant that is resistant to downy mildew.
Peronospora farinosaPeronospora farinosa. The present invention further relates to a resistance gene that confers resistance to downy mildew in spinach plants and methods for obtaining a spinach plant that is resistant to downy mildew.
A seed of hybrid bitter gourd designated as ‘E97B.00040’ is disclosed. The present disclosure includes seeds and/or plants of hybrid bitter gourd ‘E97B.00040’, methods for producing a hybrid plant, and methods for producing other bitter gourd lines, cultivars or hybrids derived from the hybrid bitter gourd ‘E97B.00040’.
Hybrid peppers designated ‘E20S0463’, ‘E20S0465’, and ‘E20S0492’ are disclosed. The disclosure includes seeds of hybrid peppers ‘E20S0463’, ‘E20S0465’, and ‘E20S0492’; plants of hybrid peppers ‘E20S0463’, ‘E20S0465’, and ‘E20S0492’; methods for producing hybrid plants, and methods for producing other pepper lines, cultivars or hybrids derived from hybrid peppers ‘E20S0463’, ‘E20S0465’, and ‘E20S0492’.
The present invention relates to methods for selecting a S. lycopersicum plant that is tolerant to high temperature conditions and has an agronomical phenotype, wherein the plant is absent of an AP locus. The methods furthermore comprise the selecting a plant that is resistant to Tomato Brown Rugose Fruit Virus (TBRFV) comprising a TBRFV resistance gene. Furthermore, the invention relates to high temperature tolerant tomato plants (S. lycopersicum) that show an agronomical phenotype and in addition are preferably resistant to TBRFV.
The present disclosure relates to a composition for coating of organically grown plant seeds and its use for improving the germination of plant seeds. The present disclosure further relates to a seed coating for a plant seed comprising a composition and a method for coating of plant seeds and for improved seed germination of organically grown plant seeds.
Hybrid tomato varieties designated ‘E15M42961’, ‘E15M42962’, and ‘E15M42963’ are disclosed. The present disclosure includes seeds, plants, and plant parts of tomato varieties ‘E15M42961’, ‘E15M42962’, and ‘E15M42963’, as well as methods for producing other tomato lines, cultivars, or hybrids derived from, the hybrid tomato varieties ‘E15M42961’, ‘E15M42962’, and ‘E15M42963’.
Hybrid tomato varieties designated ‘E15B51286’ and ‘E15B51289’ are disclosed. The disclosure relates to, among other things, seeds, plants, and methods for producing other tomato lines, cultivars, or hybrids, derived from hybrid tomato varieties ‘E15B51286’ and ‘E15B51289’.
The present invention relates to a lettuce plant that is resistant to downy mildew, more specifically to a lettuce plant that comprises a mutated gene that confers broad spectrum resistance to oomycetes in lettuce, more specifically B. lactucae. Furthermore, the present invention relates to a resistance gene and a method for obtaining a lettuce plant that is resistant to downy mildew, wherein the method comprises the step of mutating a gene.
The present invention relates to a chlorosis resistant cytoplasmic male sterile (CMS) Brassica rapa plant and methods of producing the chlorosis resistant CMS Brassica rapa plant. The present invention further relates to progeny, a descendent plant, and/or seed and/or plant part of the chlorosis resistant CMS Brassica rapa plant.
Hybrid tomato varieties designated ‘E15A51293’ and ‘E15A51296’ are disclosed. The disclosure relates to the seeds, plants, and to methods for producing other tomato lines, cultivars, or hybrids derived from the hybrid tomato varieties selected from ‘E15A51293’ and ‘E15A51296’.
lactucae.lactucae. Furthermore, the present invention relates to a resistance gene and a method for obtaining a lettuce plant that is resistant to downy mildew, wherein the method comprises the step of introducing said resistance gene into a lettuce plant.
Foxysporumoxysporum in lettuce. Furthermore the present invention relates a resistance gene and a method for obtaining a lettuce plant that is resistant to Fusarium wilt, wherein the method comprises the step of mutating a gene.
Hybrid tomato varieties designated ‘E15C42784’, ‘E15C42790’, and ‘E15C42808’ are disclosed. The present disclosure relates to the seeds, plants, and to methods for producing other tomato lines, cultivars, or hybrids derived from the hybrid tomato varieties selected from ‘E15C42784’, ‘E15C42790’, and ‘E15C42808’.
New lettuce varieties designated ‘Ezflor’, ‘Bauer’, and ‘Adicamp’ are described. ‘Ezflor’, ‘Bauer’, and ‘Adicamp’ are lettuce varieties exhibiting stability and uniformity.
B. lactucaeB. lactucae. Furthermore, the present invention relates to a resistance gene and a method for obtaining a lettuce plant that is resistant to downy mildew, wherein the method comprises the step of introducing said resistance gene into a lettuce plant.
Hybrid tomato varieties designated ‘E15C42785’ and ‘E15C42788’ are disclosed. The disclosure relates to, among other things, seeds of, plants of, and/or methods for producing other tomato lines, cultivars, or hybrids derived from, hybrid tomato varieties selected from ‘E15C42785’ and ‘E15C42788’.
The present invention relates to Phytophthora capsici (Pc) resistant Capsicum annuum (pepper) plants wherein said resistance is conferred by a combination of resistance genes and a resistance locus. The invention further relates to the combination of resistance genes and locus providing resistance to Pc and furthermore provides resistance to Xanthomonas campestris pv. vesicatoria (Xcv). The present invention further relates to methods for providing the plant of the C. annuum species being resistant to Pc and/or Xcv.
Hybrid pepper designated ‘E20S.10382’ is disclosed. The disclosure relates to the seeds of hybrid pepper ‘E20S.10382’, to the plants of hybrid pepper ‘E20S.10382’, to methods for producing hybrid plants, and to methods for producing other pepper lines, cultivars or hybrids derived from the hybrid pepper ‘E20S.10382’.
The present invention relates to a spinach plant that is resistant to downy mildew caused by Peronospora farinosa. The present invention further relates to a resistance gene that confers resistance to downy mildew in spinach plants, and methods for obtaining a spinach plant that is resistant to downy mildew, and use of one or more markers for providing a spinach plant that is resistant to downy mildew.
The present disclosure relates to squash plants that are resistant to the plant disease downy mildew caused by the pathogen Pseudoperonospora cubensis and/or powdery mildew caused by the pathogen Erysiphe cichoracearum. Specifically, the present disclosure relates to squash plants that are resistant to mildew disease including a mutated homoserine kinase gene encoding a mutated homoserine kinase protein. The present disclosure further relates to seeds, tissues, cells, or plant parts of the present squash plants, and to methods for identifying mildew resistant squash plants.
44 - Medical, veterinary, hygienic and cosmetic services; agriculture, horticulture and forestry services
Goods & Services
Agricultural, horticultural and forestry products and
grains; fresh fruits and vegetables; seeds, natural plants
and flowers. Agricultural, horticultural and forestry services, including
the cultivation and improvement of agricultural,
horticultural and forestry products and seeds, fresh
vegetables, plant seeds, natural plants and flowers.
51.
Spinach Plant Resistant to Downy Mildew and Novel Resistance Gene
The present invention relates to a spinach plant that is resistant to downy mildew caused by Peronospora farinosa. The present invention further relates to a resistance gene that confers resistance to downy mildew in spinach plants, and methods for obtaining a spinach plant that is resistant to downy mildew, and use of one or more markers for providing a spinach plant that is resistant to downy mildew.
44 - Medical, veterinary, hygienic and cosmetic services; agriculture, horticulture and forestry services
Goods & Services
(1) Agricultural, horticultural and forestry products and grains; fresh fruits and vegetables; seeds, natural plants and flowers. (1) Agricultural, horticultural and forestry services, including the cultivation and improvement of agricultural, horticultural and forestry products and seeds, fresh vegetables, plant seeds, natural plants and flowers.
Agricultural, horticultural and forestry products, namely, seeds for planting; agricultural grains for planting; fresh fruits and vegetables; seeds for flowers; seeds for natural plants, namely, plant seeds
54.
LETTUCE PLANT RESISTANT TO DOWNY MILDEW AND RESISTANCE GENE
B. lactucaeB. lactucae. Furthermore, the present invention relates to a resistance gene and a method for obtaining a lettuce plant that is resistant to downy mildew, wherein the method comprises the step of introducing said resistance gene into a lettuce plant.
A seed of hybrid cucumber designated as ‘E23S.16382’ is disclosed. The invention relates to the seeds of hybrid cucumber ‘E23S.16382’, to the plants of hybrid cucumber ‘E23S.16382’, to methods for producing a hybrid plant, and to methods for producing other cucumber lines, cultivars or hybrids derived from the hybrid cucumber ‘E23S.16382’.
A seed of hybrid squash designated as ‘Renegade’ is disclosed. The invention relates to the seeds of hybrid squash ‘Renegade’, to the plants of hybrid squash ‘Renegade’, to methods for producing a hybrid plant, and to methods for producing other squash lines, cultivars or hybrids derived from the hybrid squash ‘Renegade’.
The present invention relates to methods of breeding with spotted watermelon, Citrullus lanatus, lines and varieties. More specifically, methods of making homozygous-spotted diploid watermelon lines (HSDL) for use in breeding and methods of making homozygous-spotted tetraploid watermelon lines (HSDL) for use in breeding are described. Further, methods of producing 33%, 66%, or 100% spotted triploid hybrid watermelon plants, as well as methods of producing 50% or 100% spotted diploid hybrid watermelon plants, are described. This invention further relates to markers able to determine the percentage of spotted allele present in spotted watermelon lines and varieties. In addition, this invention relates to new and distinctive lines and varieties of watermelon with a spotted phenotype.
Hybrid pepper designated ‘E20B30329’ is disclosed. The invention relates to the seeds of hybrid pepper ‘E20B30329’, to the plants of hybrid pepper ‘E20B30329’, to methods for producing hybrid plants, and to methods for producing other pepper lines, cultivars or hybrids derived from the hybrid pepper ‘E20B30329’.
The present invention relates to a melon plant producing melon fruit having increased sucrose content as the result of a mutated acid invertase gene resulting in an earlier and higher sucrose accumulation in fruit development. The present invention further relates to a method for providing a mutant melon plant having earlier and higher sucrose accumulation in fruit development and to the mutated acid invertase gene and resulting protein.
The present invention relates to a Cucurbitaceae plant which provides fruits having an improved shelf life. Further, the present invention relates to seeds, plant tissue, fruits or plants parts of a Cucurbitaceae plant. Further aspect of the present invention relates to a method for providing a Cucurbitaceae plant which provides fruits with an improved shelf life. According to yet another aspect the present invention relates to nucleic acids and amino acids related to the present improved shelf life trait.
The present invention relates to a tomato plant having improved insect resistance, more specifically whitefly or mite resistance, wherein the plant comprises a SlAT2 gene encoding for an acetyl-CoA–dependent acyltransferase enzyme and an AP2e gene encoding for a APETALA2 ethylene-responsive transcription factor. The present invention further relates to methods for providing a tomato plant having improved insect resistance and the use of a SlAT2 gene in combination with an AP2e gene for providing insect resistant tomato plants.
The present disclosure relates to spinach plants that are resistant to downy mildew caused by Peronospora farinosa (Pfs). The present disclosure further relates to a resistance gene that confers resistance to multiple races of Pfs in spinach plants. In addition, the 5 present disclosure relates to methods for obtaining a spinach plant that is resistant to downy mildew.
New lettuce varieties designated ‘Paonia’ and ‘Newcastle’ are described. ‘Paonia’ and ‘Newcastle’ are lettuce varieties exhibiting stability and uniformity.
The present disclosure relates to melon plants that are resistant to the plant disease downy mildew caused by the pathogen Pseudoperonospora cubensis. Specifically, the present disclosure relates to melon plants that are resistant to downy mildew disease including a mutated homoserine kinase gene encoding a mutated homoserine kinase protein. The present disclosure further relates to seeds, tissues, cells, or plant parts of the present melon plants, and to methods for identifying downy mildew resistant melon plants.
A seed of hybrid cucumber designated as ‘Coatzin’ is disclosed. The invention relates to the seeds of hybrid cucumber ‘Coatzin’ to the plants of hybrid cucumber ‘Coatzin’ and to methods for producing a hybrid plant, and to methods for producing other cucumber lines, cultivars or hybrids derived from the hybrid cucumber ‘Coatzin’.
B. lactucaeB. lactucae. Furthermore, the present invention relates to a resistance gene and a method for obtaining a lettuce plant that is resistant to downy mildew, wherein the method comprises the step of mutating a gene.
The present invention relates to a chlorosis resistant cytoplasmic male sterile (CMS) Brassica rapa plant and methods of producing the chlorosis resistant CMS Brassica rapa plant. The present invention further relates to progeny, a descendent plant, and/ or seed and/ or plant part of the chlorosis resistant CMS Brassica rapa plant.
Bremia lactucae. Furthermore also provided herein are a resistance gene and a method for obtaining a lettuce plant that is resistant to downy mildew, wherein the method includes the step of mutating a gene.
The present invention relates to a lettuce plant that is resistant to downy mildew, more specifically to a lettuce plant that comprises a mutated gene that confers broad spectrum resistance to oomycetes in lettuce, more specifically B. lactucae. Furthermore, the present invention relates to a resistance gene and a method for obtaining a lettuce plant that is resistant to downy mildew, wherein the method comprises the step of mutating a gene.
The present disclosure relates to squash plants that are resistant to the plant disease downy mildew caused by the pathogen Pseudoperonospora cubensis and/or powdery mildew caused by the pathogen Erysiphe cichoracearum. Specifically, the present disclosure relates to squash plants that are resistant to mildew disease including a mutated homoserine kinase gene encoding a mutated homoserine kinase protein. The present disclosure further relates to seeds, tissues, cells, or plant parts of the present squash plants, and to methods for identifying mildew resistant squash plants.
The present invention relates to a spinach plant that is resistant to downy mildew caused by Peronospora farinosa. The present invention further relates to a resistance gene that confers resistance to downy mildew in spinach plants, and methods for obtaining a spinach plant that is resistant to downy mildew, and use of one or more markers for providing a spinach plant that is resistant to downy mildew.
A01H 6/02 - Amaranthaceae or Chenopodiaceae, e.g. beet or spinach
C12N 15/82 - Vectors or expression systems specially adapted for eukaryotic hosts for plant cells
C12Q 1/6895 - Nucleic acid products used in the analysis of nucleic acids, e.g. primers or probes for detection or identification of organisms for plants, fungi or algae
A hybrid pepper designated ‘E20B30236’ is disclosed. The invention relates to the seeds of hybrid pepper ‘E20B30236’, to the plants of hybrid pepper ‘E20B30236’, to methods for producing hybrid plants, and to methods for producing other pepper lines, cultivars or hybrids derived from the hybrid pepper ‘E20B30236’.
Provided herein is a lettuce plant that is resistant to downy mildew, more specifically a lettuce plant that has a mutated gene that confers broad spectrum resistance to oomycetes in lettuce. Also provided herein are a resistance gene and a method for obtaining a lettuce plant that is resistant to downy mildew, wherein the method includes the step of mutating a gene.
Solanum lycopersicum, plant that is resistant to Tobamovirus, wherein the plant comprises one or more genomic sequences conferring Tobamovirus resistance. More specifically the invention relates to a tomato plant that is resistant to Tomato Brown Rugose Fruit Virus (TBRFV). The present invention further relates to a genomic sequence or locus providing resistance to Tobamovirus. In addition, the present invention relates to methods for proving a tomato plant that is resistant to Tobamovirus.
Hybrid spinach ‘E03D.1051’ is described. The invention relates to the seeds of hybrid spinach ‘E03D.1051’, to the plants of hybrid spinach ‘E03D.1051’, to methods for producing hybrid plants, and to methods for producing other spinach lines, cultivars or hybrids derived from the hybrid spinach ‘E03D.1051’.
Described herein are Solanaceae plants for producing fruits rich in anthocyanins concentration, wherein said plant comprises a mutated fading gene. Also described herein is a method of providing a Solanaceae plant for producing fruits rich in anthocyanins concentration.
Certain aspects of the present disclosure relate to upright heading iceberg lettuce plants including a space between the base of the head and the top of the ground, wherein the space includes an increased length of core outside of the processing material of the head (i.e., external stem). The increased external stem lengths of the upright heading iceberg lettuce plants of the present disclosure make them suitable for machine harvesting. Other aspects of the present disclosure relate to methods of generating and selecting upright heading iceberg lettuce plants. New upright heading iceberg lettuce varieties designated ‘E01E.70111’ Lot A, ‘E01E.70111’ Lot B, ‘E01E.70168’ Lot A, and ‘E01E.70168’ Lot B are described.
Van Den Ackerveken, Augustinus Franciscus Johannes Maria
Pel, Mathieu André
Zeilmaker, Tieme
Abstract
Allium cepa) plant, which is resistant to a pathogen of viral, bacterial, fungal or oomycete origin. The mutant onion plant has a reduced level, reduced activity or complete absence of AcDMR6 protein as compared to a wild type onion plant.
Hybrid tomato rootstock variety designated ‘Espartano’ is disclosed. The invention further relates to the seeds of hybrid tomato rootstock ‘Espartano’, to the plants of hybrid tomato rootstock ‘Espartano’, to methods for producing plants using the hybrid tomato rootstock ‘Espartano’, and to methods for producing other rootstock tomato lines, cultivars, or hybrids derived from the hybrid tomato rootstock ‘Espartano’.
A hybrid pepper designated ‘E20S0102’ is disclosed. The invention relates to the seeds of hybrid pepper ‘E20S0102’, to the plants of hybrid pepper ‘E20S0102’, to methods for producing hybrid plants, and to methods for producing other pepper lines, cultivars or hybrids derived from the hybrid pepper ‘E20S0102’.
The present disclosure relates to spinach plants that are resistant to downy mildew caused by Peronospora farinosa (Pfs). The present disclosure further relates to a resistance gene that confers resistance to multiple races of Pfs in spinach plants. In addition, the 5 present disclosure relates to methods for obtaining a spinach plant that is resistant to downy mildew.
Pseudoperonospora cubensisPseudoperonospora cubensis. Specifically, the present disclosure relates to melon plants that are resistant to downy mildew disease including a mutated homoserine kinase gene encoding a mutated homoserine kinase protein. The present disclosure further relates to seeds, tissues, cells, or plant parts of the present melon plants, and to methods for identifying downy mildew resistant melon plants.
