Cucumber plants (Cucumis sativus) exhibiting increased resistance to Cumber Green Mottle Mosaic Virus (CGMMV) are provided, together with methods of producing, identifying, or selecting plants or germplasm with a CGMMV resistance phenotype. Such plants include cucumber plants comprising recombinant chromosomal segments conferring CGMMV resistance. Compositions, including novel polymorphic markers for detecting plants comprising introgressed virus resistance alleles, are further provided.

The present invention provides tomato plants exhibiting resistance to the TOSPO (GBNV) Virus exhibiting the traits of healthy and evenly ripened fruits without brown spots, reduced wilting of the top portion of the tomato plants and reduced dark spots on the leaves and stems of the tomato plant, and materials useful for improving tomato yield. In particular, the present invention provides a path to the development of hybrid tomato plants exhibiting resistance to TOSPO (GBNV) virus infection, seed of hybrid tomato plants exhibiting TOSPO (GBNV) virus resistance, and methods of producing the same. Methods described herein involve the use of marker-assisted selection and marker-assisted backcrossing utilizing molecular markers associated with a tomato TOSPO Resistance phenotype.

The application concerns melon plants (Cucumis melo) resistant to infection with tomato leaf curl New Dehli virus (ToLCNDV). The resistant melon plants have a genomic introgression fragment on chromosome 5 which confers tolerance to ToLCNDV in a dominant manner. Also disclosed are markers for identifying those fragments, methods for identifying or producing resistant melon plants.

The present invention relates to Solanum lycopersicum (S. lycopersicum) plants with resistance to Tomato Yellow Leaf Curl Virus (TYLCV), powdery mildew (PM) and nematodes. According to the invention, the resistances are provided by coupling in cis on the same chromosome the OL4 gene conferring resistance to PM and nematodes and TY1 gene conferring resistance to TYLCV, without coupling the Mi-1 gene conferring resistance to nematodes in cis with said OL4 gene conferring resistance to PM and nematodes and TY1 gene conferring resistance to TYLCV. The genes can be present homozygously or heterozygously in the genome of the S. lycopersicum plants, and they confer resistance to TYLCV, PM and nematodes. The present invention also provides methods for making such plants, and to methods of detecting and/or selecting such plants.

A TMV resistant tobacco plant containing a short N introgressed segment and a method for breeding the same. A homozygous tobacco plant containing an N introgressed segment is hybridized with a tobacco plant of genotype nn to obtain an F1 progeny tobacco plant of genotype Nn. The F1 progeny tobacco plant is hybridized with the tobacco plant of genotype nn, to obtain population materials for screening to obtain the short N introgressed segment. TMV is inoculated at a seedling stage, and Nn genotype plants showing necrotic lesion are obtained by screening the population materials. The Nn genotype plants are genotyped using a molecular marker TN5.51 primer pair and an N gene-specific molecular marker N1N2 at the right end of the N introgressed segment. A plant found to be negative when tested by the TN5.51 primer pair and to be positive when tested by the N1N2 molecular marker is a plant comprising the short N introgressed segment. The size of non-target genomic components deleted from plants containing the short N introgressed segment is estimated using TN5.34 and TN5.20 and TN4.99 primer pairs. The obtained short N introgressed segment is applicable to germplasma innovation and breeding of TMV resistant tobacco. The invention is helps to reduce linkage drag with the N gene.

An object of the present invention is to provide a cucumber mosaic virus (CMV)-resistant solanaceous plant. The present invention provides a CMV-resistant solanaceous plant having a mutated eIF4E gene encoding an eIF4E protein nonfunctional for CMV. In addition, the present invention provides a method for producing a CMV-resistant plant, the method comprising mutating an eIF4E gene of a solanaceous plant into a mutated eIF4E gene encoding an eIF4E protein nonfunctional for CMV.

Cucumber plants exhibiting resistance to Cucumber Mosaic Virus (CMV) are provided, together with methods of producing, identifying, or selecting plants or germplasm with a Cucumber Mosaic Virus resistance phenotype. Such methods include producing a cucumber plant exhibiting resistance to CMV, comprising introgressing genomic regions conferring disease resistance; or selecting a cucumber plant exhibiting resistance to CMV. Compositions, including polymorphic markers for detecting plants comprising introgressed disease resistance alleles, are further provided.

The present invention is directed to melon plant and seed, namely of C. melo subsp. melo, which are resistant to ToLCNDV, comprising in their genome introgressed sequences from C. melo subsp. agrestis var. acidulous conferring resistance to said virus, when present homozygously. The introgressed sequences are preferably characterized by defined alleles of SNPs on chromosome 11, inter alia allele A of SNP Melon_sbg_14207_58 (SEQ ID No:9). The introgressed sequences can be chosen from those present in the genome of a plant of ToLR1 accession number NCIMB 42506. The invention is also directed to parts of these resistant plants, as well as progeny, to the use of these plants for introgressing the resistance in another genetic background, as well as to different methods for obtaining resistant melon plants or seeds.

The present application relates to papaya plants having increased resistance to the papaya ringspot virus as compared to a wild type plant due to a mutation in the eukaryotic translation initiation factor 4e and/or eukaryotic translation initiation factor iso4e gene leading to non-functional eukaryotic translation initiation factor 4e and/or eukaryotic translation initiation factor iso4e proteins. Methods of producing such papaya plants having increased resistance to the papaya ringspot virus are described.

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The disclosure relates to melon variety NUN 67138 MEM as well as seeds and plants and fruits thereof. NUN 67138 MEM is a Galia tropical melon variety with long shelf life, excellent shipping quality, firm rind texture, mild flesh flavor, and no flesh aroma, comprising resistance to Fusarium oxysporum f. sp. melonis Race 1 and Muskmelon Necrotic Spot Virus (MNSV).