A new Petunia-Calibrachoa hybrid plant particularly distinguished by having pink flower color with darker pink veins and a yellow throat and a spreading plant habit, is disclosed.

Hybrid tomato variety designated ‘E15T41376’ is disclosed. The invention relates to the seeds of hybrid tomato ‘E15T41376’, to the plants of hybrid tomato ‘E15T41376’, and to methods for producing other tomato lines, cultivars, or hybrids derived from the hybrid tomato ‘E15T41376’.

The invention provides seeds and plants of tomato hybrid SVTM9021. The invention thus relates to the plants, seeds, plant parts, and tissue cultures of tomato hybrid SVTM9021 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 SVTM9021 comprising introduced beneficial or desirable traits.

A new Petunia plant particularly distinguished by being a medium-vigorous plant with a semi-upright habit and having apricot-colored flowers, is disclosed.

The present invention relates to a plant of the species Solanum lycopersicum comprising in its genome at least one copy of a mutant allele of the wild type ACO4 gene, wherein said mutant allele when present in homozygous form causes the fruits having an increased fruit firmness after the fruits entered the full red stage. The present invention further relates to a seed from which a plant according to present invention can be grown, a plant grown from the seed according to the present invention, a fruit produced by a plant according to the present invention and a part of a plant according to the present invention. The present invention further relates to a method for producing tomato fruit having an increased shelf life comprising growing a plant according to the present invention. The present invention further relates to a method of identifying and/or selecting a plant or plant part according to the present invention. The present invention further relates to a method of producing a plant of the species Solanum lycopersicum comprising in its genome at least one copy of a mutant allele of the ACO4 gene according to the present invention. The present invention further relates to the use of a plant of the species Solanum lycopersicum of the present invention for consumption or as a source of propagation material.

The invention relates to a Solanum lycopersicum plant resistant to Tomato Brown Rugose Fruit virus comprising in its genome the combination of the Tm-1 resistance gene on chromosome 2, and at least one quantitative trait locus (QTL) chosen from QTL3 on chromosome 11, QTL1 on chromosome 6 and QTL2 on chromosome 9, that independently confer to the plant foliar and/or fruit tolerance to TBRFV, wherein said QTLs are present in the genome of a plant of the seeds HAZTBRFVRES1 NCIMB accession number 42758. The combination of at least one of these QTLs with the Tm-1 gene delays, reduces or inhibits the replication or multiplication of the virus in the plants of the invention. The invention is also directed to parts of these plants with TBRFV resistance phenotype, 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 tomato plants or seeds with increased resistance to Tomato Brown Rugose Fruit virus.

Disclosed are a decoy peptide which is a partial peptide of ASYMMETRIC LEAVES1 (AS1), the decoy peptide being capable of interacting with βC1 encoded by a betasatellite of a virus belonging to the family Geminiviridae, a nucleic acid encoding the decoy peptide, an expression vector comprising the nucleic acid, a geminivirus disease control agent comprising the decoy peptide or the nucleic acid, a method for controlling a geminivirus disease using the geminivirus disease control agent, a transgenic plant into which the nucleic acid is introduced, and a method for reducing a disease symptom caused by a virus that comprises βC1 and belongs to the family Geminiviridae, using the nucleic acid. Also disclosed is a method for evaluating the degree of reduction in a disease symptom caused by a virus that comprises βC1 and belongs to the family Geminiviridae.

Disclosed are a decoy peptide which is a partial peptide of ASYMMETRIC LEAVES1 (AS1), the decoy peptide being capable of interacting with βC1 encoded by a betasatellite of a virus belonging to the family Geminiviridae, a nucleic acid encoding the decoy peptide, an expression vector comprising the nucleic acid, a geminivirus disease control agent comprising the decoy peptide or the nucleic acid, a method for controlling a geminivirus disease using the geminivirus disease control agent, a transgenic plant into which the nucleic acid is introduced, and a method for reducing a disease symptom caused by a virus that comprises βC1 and belongs to the family Geminiviridae, using the nucleic acid. Also disclosed is a method for evaluating the degree of reduction in a disease symptom caused by a virus that comprises βC1 and belongs to the family Geminiviridae.

The invention provides seeds and plants of tomato hybrid SVTH3445, tomato line FIR-A818-0400, and tomato line FDR-A815-3552V. The invention thus relates to the plants, seeds, plant parts, and tissue cultures of tomato hybrid SVTH3445, tomato line FIR-A818-0400, and tomato line FDR-A815-3552V 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 SVTH3445, tomato line FIR-A818-0400, and tomato line FDR-A815-3552V comprising introduced beneficial or desirable traits.

A petunia-calibrachoa plant designated SAKPXC030 is disclosed. Embodiments include the seeds of petunia-calibrachoa SAKPXC030, the plants of petunia-calibrachoa SAKPXC030, to plant parts of petunia-calibrachoa SAKPXC030, and methods for producing a plant produced by crossing petunia-calibrachoa SAKPXC030 with itself or with another variety. Embodiments include methods for producing a plant containing in its genetic material one or more genes or transgenes and the transgenic plants and plant parts produced by those methods. Embodiments also relate to varieties, breeding varieties, plant parts, and cells derived from petunia-calibrachoa SAKPXC030, methods for producing other lines or plant parts derived from petunia-calibrachoa SAKPXC030, and the plants, varieties, and their parts derived from use of those methods. Embodiments further include hybrid seeds, plants, and plant parts produced by crossing petunia-calibrachoa SAKPXC030 with another variety.