Abstract: The present invention relates to a lettuce plant, with a modified LsKO2 and/or Ls20ox1-B gene, wherein the homozygous presence of said genes leads to a shade tolerant phenotype, the wild-type LsKO2 gene and the wild-type Ls20ox1-B gene can have a coding sequence having at least 70% sequence identity to SEQ ID NO.: 9 and SEQ ID NO.: 11, respectively. The modification involves replacement and/or deletion and/or insertion of nucleotides resulting in an absence of functional KO2 and/or GA20ox1-B protein or the modification results in the absence of the wild-type LsKO2 and/or Ls20ox1-B gene. The homozygous presence of one or both of the modified LsKO2 and Ls20ox1-B genes or the homozygous absence of one or both of the wild-type LsKO2 and/or Ls20ox1-B genes in the plant confers shade tolerance as compared to a plant with the wild-type LsKO2 and Ls20ox1-B gene and not showing shade tolerance.

Abstract: The present invention relates a plant which may comprise a modified F5H gene homolog, wherein said gene homolog may comprise a modification as compared to its corresponding wild type F5H gene homolog, wherein the presence of the modified F5H gene homolog in the plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not comprising the modified F5H gene homolog. The invention also relates to a modified F5H gene homolog that leads to the reduced wound-induced surface discoloration. The invention further relates to use of the gene in breeding and producing plants that show reduced wound-induced surface discoloration.

Abstract: This disclosure relates to plants having a modified F5H gene which confers the trait of reduced wound-induced surface discoloration. The disclosure further relates to all progeny, seed, and plant parts of said plant. Furthermore, the disclosure relates to a propagation material suitable for producing said plants, and to methods for selecting and producing said plants.

Abstract: The invention relates to a modified PIN4 gene, the wild type of which is as identified in SEQ ID No. 1, encoding the protein of SEQ ID No. 5, or the wild type of which encodes a protein that has a sequence similarity of at least 80% to SEQ ID No. 5, which modified PIN4 gene encodes a protein that comprises an amino acid change as a result of the modification, and which modified protein is capable of inducing parthenocarpic fruit set when present in a plant. The invention also relates to plants and fruits that carry the gene. Such plants are capable of parthenocarpic fruit set and the fruits do not contain seeds. The invention further relates to use of the gene in breeding and producing plants capable of parthenocarpic fruit set.

Abstract: The present invention relates a plant which may comprise a modified F5H gene homolog, wherein said gene homolog may comprise a modification as compared to its corresponding wild type F5H gene homolog, wherein the presence of the modified F5H gene homolog in the plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not comprising the modified F5H gene homolog. The invention also relates to a modified F5H gene homolog that leads to the reduced wound-induced surface discoloration. The invention further relates to use of the gene in breeding and producing plants that show reduced wound-induced surface discoloration.

Abstract: The present invention relates to plants of the Compositae family exhibiting a reversible genic male sterility trait, characterised in that the genic male sterility may be caused by a reduction or complete absence of endogenous jasmonic acid production, resulting from interference with one or more target genes involved in endogenous jasmonic acid production, selected from the group consisting of lipoxygenase, allene oxide synthase, allene oxide cyclase and 12-oxo-phytodienoic acid-10,11-reductase, or their functional homologues.

Abstract: The present invention relates a plant which may comprise a modified F5H gene homolog, wherein said gene homolog may comprise a modification as compared to its corresponding wild type F5H gene homolog, wherein the presence of the modified F5H gene homolog in the plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not comprising the modified F5H gene homolog. The invention also relates to a modified F5H gene homolog that leads to the reduced wound-induced surface discoloration. The invention further relates to use of the gene in breeding and producing plants that show reduced wound-induced surface discoloration.

Abstract: The present invention relates to modified RDR1 gene capable of conferring virus resistance to a plant and/or increasing virus resistance in a plant, which modification results in enhanced expression of the RDR1 gene, and wherein the modification is selected from a modification that increases the mRNA level of the RDR1 gene; a modification that increases the level of the RDR1 protein; and/or a modification that increases the activity of the RDR1 protein, as compared to a non-modified wild-type RDR1 gene. The modification may comprise a modification upstream of the coding sequence of the RDR1 gene, such as a modification of a regulatory element, preferably of a cis-acting regulatory element.

Abstract: The present invention relates a plant which may comprise a modified F5H gene homolog, wherein said gene homolog may comprise a modification as compared to its corresponding wild type F5H gene homolog, wherein the presence of the modified F5H gene homolog in the plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not comprising the modified F5H gene homolog. The invention also relates to a modified F5H gene homolog that leads to the reduced wound-induced surface discoloration. The invention further relates to use of the gene in breeding and producing plants that show reduced wound-induced surface discoloration.

Abstract: The present invention relates to a non-destructive method for analyzing maternal DNA of a seed. In this method the DNA may be dislodged from the seed coat surface and may be used to collect information on the genome of the maternal parent of the seed. Also, the present invention provides a high throughput DNA analysis system for large plant populations.

Abstract: The present invention relates to a mutant plant of the Cucurbitaceae family comprising a modified CENH3 gene, which mutant plant, when crossed to a wild-type plant having 2n chromosomes produces progeny, at least 0.1% of which have n chromosomes. Preferably, the modified CENH3 gene comprises at least one mutation compared to an otherwise identical naturally occurring CENH3 gene, which at least one mutation gives rise to at least one non-conservative amino acid change in the Histone Fold Domain of the encoded modified CENH3 protein or to the occurrence of a premature stop codon in the encoded modified CENH3 protein. The invention further relates to a method for the production of haploid or doubled haploid plants and to the plants thus obtained.

Abstract: The present invention relates to a mutant plant of the Cucurbitaceae family comprising a modified CENP-C gene, which mutant plant when crossed to a wild-type plant having 2n chromosomes produces progeny, at least 0.1% of which have n chromosomes. The modification comprises for example a mutation in the CENP-C gene that leads to the occurrence of a premature stop codon or to a non-conservative amino acid change in the C-terminal region of the encoded protein. The plant is for example a Cucumis sativus plant and the modified CENP-C gene encodes a modified CENP-C protein that comprises at least one not-tolerated amino acid change or a premature stop codon in the C-terminal region, when compared to the CENP-C protein of SEQ ID No:1, in particular a mutation selected from E674K and S650N.

Abstract: The present invention relates to plants of the Compositae family exhibiting a reversible genic male sterility trait, characterized in that the genic male sterility is caused by a reduction or complete absence of endogenous jasmonic acid production, resulting from interference with one or more target genes involved in endogenous jasmonic acid production, selected from the group consisting of lipoxygenase, allene oxide synthase, allene oxide cyclase and 12-oxo-phytodienoic acid-10, 11-reductase, or their functional homologues.

Abstract: The invention relates to a method for the production of a set of seeds which are genetically identical to the male gametes from which they arise, which may comprise placing a limited number of paternal gametes that have the form of tetrads or dyads on the stigma of a flower to fertilize maternal egg cells to obtain a number of zygotes; and inducing the loss of maternal chromosomes from the zygotes to obtain a seed set containing a limited number of seeds in which the maternal chromosomes are absent. In a preferred embodiment the father plant exhibits suppression of chromosome recombination or second division restitution (SDR) during meiosis.

Abstract: The invention relates to a modified PIN4 gene, the wild type of which is as identified in SEQ ID No. 1, encoding the protein of SEQ ID No. 5, or the wild type of which encodes a protein that has a sequence similarity of at least 80% to SEQ ID No. 5, which modified PIN4 gene encodes a protein that comprises an amino acid change as a result of the modification, and which modified protein is capable of inducing parthenocarpic fruit set when present in a plant. The invention also relates to plants and fruits that carry the gene. Such plants are capable of parthenocarpic fruit set and the fruits do not contain seeds. The invention further relates to use of the gene in breeding and producing plants capable of parthenocarpic fruit set.

Abstract: The invention relates to a method for the production of a set of seeds which are genetically identical to the male gametes from which they arise, which may comprise placing a limited number of paternal gametes that have the form of tetrads or dyads on the stigma of a flower to fertilize maternal egg cells to obtain a number of zygotes; and inducing the loss of maternal chromosomes from the zygotes to obtain a seed set containing a limited number of seeds in which the maternal chromosomes are absent. In a preferred embodiment the father plant exhibits suppression of chromosome recombination or second division restitution (SDR) during meiosis.

Abstract: The invention relates to a tomato plant, wherein the fruits of which have an improved shelf-life as compared to the fruits of a wild type tomato plant, wherein the genetic determinant causative of the improved shelf life trait is a mutation in the hp2 gene. The increased shelf-life may comprise a fruit that shows normal ripening having a fruit firmness at red ripe harvest that is increased by at least 31%, preferably by at least 42%, more preferably by at least 52%, even more preferably by at least 60%, most preferably by at least 70% as compared to a fruit having similar genetic background that lacks the trait of the invention.

Abstract: The present invention relates to modified RDR1 gene capable of conferring virus resistance to a plant and/or increasing virus resistance in a plant, which modification results in enhanced expression of the RDR1 gene, and wherein the modification is selected from a modification that increases the mRNA level of the RDR1 gene; a modification that increases the level of the RDR1 protein; and/or a modification that increases the activity of the RDR1 protein, as compared to a non-modified wild-type RDR1 gene. The modification may comprise a modification upstream of the coding sequence of the RDR1 gene, such as a modification of a regulatory element, preferably of a cis-acting regulatory element.

Abstract: The present invention relates to plants of the Compositae family exhibiting a reversible genic male sterility trait, characterised in that the genic male sterility may be caused by a reduction or complete absence of endogenous jasmonic acid production, resulting from interference with one or more target genes involved in endogenous jasmonic acid production, selected from the group consisting of lipoxygenase, allene oxide synthase, allene oxide cyclase and 12-oxo-phytodienoic acid-10,11-reductase, or their functional homologues.

Abstract: The invention relates to a tomato plant the fruits of which have an improved shelf-life as compared to the fruits of a wild type tomato plant, obtainable by introgressing the increased shelf life trait from the mutant LePQ58 (deposit accession number NCIMB 41531) into a tomato plant with a normal shelf-life. The increased shelf-life may comprise a fruit that shows normal ripening having a fruit firmness at red ripe harvest that is increased by at least 31%, preferably by at least 42%, more preferably by at least 52%, even more preferably by at least 60%, most preferably by at least 70% as compared to a fruit having similar genetic background that lacks the trait of the invention.