The present invention relates to a genetic determinant which may comprise at least two copies of a combination of two closely linked RDR1 genes, which two closely linked RDR1 genes are inversely oriented, and which genetic determinant leads to virus resistance when present in a plant. In one embodiment, of the RDR1 genes in the combination is represented by SEQ ID No. 1 or has at least 70% sequence identity, and one of the RDR1 genes in the combination is represented by SEQ ID No. 3 or has at least 70% sequence identity; or one of the RDR1 genes in the combination encodes a protein represented by SEQ ID No. 2 or a protein that has at least 70% sequence identity, and one of the RDR1 genes encodes a protein represented by SEQ ID No. 4 or a protein that has at least 70% sequence identity.

The invention relates to a Solanum lycopersicum plant that is resistant to TBRFV, which plant comprises a QTL on chromosome 11 between SEQ ID NO: 1 and 53. The presence of the QTL on chromosome 11 is identified by use of at least one of the markers selected from the group comprising SEQ ID NOS: 4 to 52. The QTL is as comprised in the genome of a Solanum lycopersicum plant representative seed of which was deposited with the NCIMB under deposit number NCIMB 42882, NCIMB 42885, NCIMB 42887, or NCIMB 42890.

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 disclosure provides Capsicum annuum plants exhibiting increased resistance to resistance-breaking cucumber mosaic virus (rbCMV) strains. Such plants comprise novel introgressed genomic regions associated with disease resistance on chromosome 8. In certain aspects, compositions and methods for producing, breeding, identifying, and selecting plants or germplasm with an increased disease resistance phenotype are provided.

The present invention relates to a genetic determinant which may comprise at least two copies of a combination of two closely linked RDR1 genes, which two closely linked RDR1 genes are inversely oriented, and which genetic determinant leads to virus resistance when present in a plant. In one embodiment, of the RDR1 genes in the combination is represented by SEQ ID NO: 1 or has at least 70% sequence identity, and one of the RDR1 genes in the combination is represented by SEQ ID NO: 3 or has at least 70% sequence identity; or one of the RDR1 genes in the combination encodes a protein represented by SEQ ID NO: 2 or a protein that has at least 70% sequence identity, and one of the RDR1 genes encodes a protein represented by SEQ ID NO: 4 or a protein that has at least 70% sequence identity.

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.

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 invention is directed to tomato lines having resistance to Peanut Bud Necrosis Virus (PBNV). The invention relates to the seeds, plants, and plant parts of these tomato lines. The invention further relates to methods for producing a tomato plant which produces seeds having a resistance to PBNV containing in its genetic material one or more transgenes and to the transgenic plants produced by those methods. This invention also relates to tomato cultivars or breeding cultivars and plant parts derived from tomato plants which produce seeds having resistance to PBNV and to methods for producing other tomato cultivars, lines or plant parts derived from tomato plants which produce seeds having resistance to PBNV.

The invention provides a Tomato Leaf Curl New Dehli Virus (ToLCNDV) tolerance or resistant QTL in cucurbit plants and plants comprising the QTL. The invention also provides molecular markers linked to QTL. The invention further provides methods of breeding to produce plants that are resistant to ToLCNDV, and the resistant plants produced by such methods.

The present invention relates to management of plant defenses and tolerance to insect and fungal vectored pathogens such as viruses and disease resistance management by applying laminarin or compositions comprising laminarin to a plant. Application of laminarin modulates the expression of plant defence genes in the target plant.