The present invention provides novel tomato line SENG9234 and plant parts, seed, and tissue culture therefrom. The invention also provides methods for producing a tomato plant by crossing the tomato plants of the invention with themselves or another tomato plant. The invention also provides tomato plants produced from such a crossing as well as plant parts, seed, and tissue culture therefrom.

The invention provides seeds and plants of tomato hybrid SVTH3047. The invention thus relates to the plants, seeds, plant parts, and tissue cultures of tomato hybrid SVTH3047 and to methods for producing a tomato plant produced by crossing such plants with themselves or with another plant, such as a tomato plant of another genotype. The invention further relates to seeds and plants produced by such crossing. The invention further relates to plants, seeds, plant parts, and tissue cultures of tomato hybrid SVTH3047 comprising introduced beneficial or desirable traits.

The invention provides seeds and plants of tomato hybrid DRTC8006. The invention thus relates to the plants, seeds, plant parts, and tissue cultures of tomato hybrid DRTC8006 and to methods for producing a tomato plant produced by crossing such plants with themselves or with another plant, such as a tomato plant of another genotype. The invention further relates to seeds and plants produced by such crossing. The invention further relates to plants, seeds, plant parts, and tissue cultures of tomato hybrid DRTC8006 comprising introduced beneficial or desirable traits.

The invention provides seeds and plants of tomato hybrid DRTH1008. The invention thus relates to the plants, seeds, plant parts, and tissue cultures of tomato hybrid DRTH1008 and to methods for producing a tomato plant produced by crossing such plants with themselves or with another plant, such as a tomato plant of another genotype. The invention further relates to seeds and plants produced by such crossing. The invention further relates to plants, seeds, plant parts, and tissue cultures of tomato hybrid DRTH1008 comprising introduced beneficial or desirable traits.

The present invention relates to a modified FBXL13 gene which leads to a plant showing resistance to a virus belonging to the Torradovirus genus. The invention also relates to a plant belonging to the Solanaceae family comprising the modified FBXL13 gene. The modified FBXL13 gene of the invention provides a plant showing resistance to a virus belonging to the Torradovirus genus when compared to plants not comprising the modified FBXL13 gene. The invention further relates to the use of the modified FBXL13 gene for the identification and development of a plant belonging to the Solanaceae family showing resistance to a virus belonging to the Torradovirus genus.

The present invention relates to a modified FBXL13 gene which leads to a plant showing resistance to a virus belonging to the Torradovirus genus. The invention also relates to a plant belonging to the Solanaceae family comprising the modified FBXL13 gene. The modified FBXL13 gene of the invention provides a plant showing resistance to a virus belonging to the Torradovirus genus when compared to plants not comprising the modified FBXL13 gene. The invention further relates to the use of the modified FBXL13 gene for the identification and development of a plant belonging to the Solanaceae family showing resistance to a virus belonging to the Torradovirus genus.

The present invention relates to a tomato plant (Solanum lycopersicum L.) which may comprise a genetic determinant that confers resistance to Pepino Mosaic Virus (PepMV), wherein the resistance is characterised by the presence of at least QTL1 and/or QTL2. The invention also relates to sources for obtaining said genetic determinant, representative seed of which were deposited with the NCIMB under accession numbers NCIMB 41927, NCIMB 41928, NCIMB 42068, and NCIMB 42069. The invention further relates to seeds and progeny of the plant and to its fruits and processed fruits. In addition the invention relates to molecular markers linked to PepMV resistance conferring QTLs and the use thereof.

Capsicum plants produce fruits which are and remain green at maturity and/or over-maturity, and not olive green like existing evergreen varieties. The plants homozygously include in their genome a mutant allele of the cl gene encoding the Capsicum stay-green (CaSGR) protein and a mutant allele of the wt gene encoding the phytoene synthase (PSY) protein. Further, parts and cells of the plants, in particular pepper fruits are and remain green at maturity and/or over-maturity. Moreover, methods for producing the Capsicum plants and methods identify, detect and/or select the plants.

Hybrid tomato varieties designated ‘VT19077208’ and ‘VT19108230’ are disclosed. ‘VT19077208’ and ‘VT19108230’ are hybrid tomato varieties exhibiting stability and uniformity.

The present invention relates to a tomato plant which carries at least one QTL in its genome that leads to its fruits comprising higher levels of anthocyanins when compared to fruits produced by a tomato plant not carrying said QTL in its genome, wherein said fruits are not purple at the red-ripe harvest stage. A tomato plant of the invention may also comprise all QTLs, each either in homozygous or heterozygous form. The invention further relates to progeny of the plant, propagation material for the plant and to markers for identifying the QTLs and their use.