Abstract: The invention relates to transgenic sugar beet plants having a phenotype of delayed bolting. The invention further relates to polynucleotides that are closely linked to the bolting gene or B gene within the sugar beet genome and can be used for the discrimination between the annual and biennial genotype or between different haplotypes within plant groupings of sugar beet plants exhibiting a biennial genotype.

Abstract: This invention relates to the field of bolting and flowering time control in sugar beet, specifically to methods as well as nucleic acid molecules, chimeric constructs, and vectors for engineering bolting resistance in sugar beet by means of altering the expression of the Beta vulgaris homologues BvFT1 and BvFT2 of the FT gene. In particular, the present invention provides sugar beet plants having a phenotype of bolting resistance.

Abstract: A Brassica plant comprising a unique recombination event resulting from a break at a position along a nucleic acid segment derived from Ogura Raphanus sativus between the restorer locus and the glucosinolate locus and subsequent rejoining to produce a new recombination event, BLR1. The BLR1 recombination event expresses fertility restoring resulting from expression of the restorer gene derived from Raphanus sativus and a GSL content no higher than normal double low open pollinated varieties. The Brassica inbred line BLR-038, Deposit Number NCIMB-41193, is one example of a plant that contains the BLR1 recombination event. The BLR1 recombination event is introgressed into different Brassica genetic backgrounds using breeding techniques known to those skilled in the art. For example, the Brassica inbred line BLR-038 or another Brassica plant containing the BLR1 recombination event may be crossed with male sterile inbreds to produce hybrids expressing low GSL content and superior agronomic traits.

Abstract: This invention relates to the field of sugar beet bolting and flowering control, specifically methods and transgenic sugar beet plants for suppressing the vernalization response. In particular, the present invention includes sugar beet plants and methods for modulating sugar beet vernalization by over expression of an FLC gene or by suppressing AGL20 gene expression.

Abstract: A Brassica plant comprising a unique recombination event resulting from a break at a position along a nucleic acid segment derived from Ogura Raphanus sativus between the restorer locus and the glucosinolate locus and subsequent rejoining to produce a new recombination event, BLR1. The BLR1 recombination event expresses fertility restoring resulting from expression of the restorer gene derived from Raphanus sativus and a GSL content no higher than normal double low open pollinated varieties. The Brassica inbred line BLR-038, Deposit Number NCIMB-41193, is one example of a plant that contains the BLR1 recombination event. The BLR1 recombination event is introgressed into different Brassica genetic backgrounds using breeding techniques known to those skilled in the art. For example, the Brassica inbred line BLR-038 or another Brassica plant containing the BLR1 recombination event may be crossed with male sterile inbreds to produce hybrids expressing low GSL content and superior agronomic traits.

Abstract: A novel transgenic sugar beet event designated GM RZ13 is disclosed. The invention relates to nucleic acids that are unique to event GM RZ13. The invention also relates to assays for detecting the presence of the GM RZ13 event based on DNA sequences of the recombinant constructs inserted into the sugar beet genome that resulted in the GM RZ13 event and of genomic sequences flanking the insertion site. The invention further relates to sugar beet plants comprising the genotype of GM RZ13 and to methods for producing a sugar beet plant by crossing a sugar beet plant comprising the GM RZ13 genotype with itself or another sugar beet variety. Seeds of sugar beet plants comprising the GM RZ13 genotype are also objects of the present invention.

Abstract: A Brassica plant comprising a unique recombination event resulting from a break at a position along a nucleic acid segment derived from ogura Raphanus sativus between the restorer locus and the glucosinolate locus and subsequent rejoining to produce a new recombination event, BLR1. The BLR1 recombination event expresses fertility restoring resulting from expression of the restorer gene derived from Raphanus sativus and a GSL content no higher than normal double low open pollinated varieties. The Brassica inbred line BLR-038, Deposit Number NCIMB-41193, is one example of a plant that contains the BLR1 recombination event. The BLR1 recombination event is introgressed into different Brassica genetic backgrounds using breeding techniques known to those skilled in the art. For example, the Brassica inbred line BLR-038 or another Brassica plant containing the BLR1 recombination event may be crossed with male sterile inbreds to produce hybrids expressing low GSL content and superior agronomic traits.

Abstract: This invention relates to the field of bolting and flowering time control in sugar beet, specifically to methods as well as nucleic acid molecules, chimeric constructs, and vectors for engineering bolting resistance in sugar beet by means of altering the expression of the Beta vulgaris homologues BvFT1 and BvFT2 of the FT gene. In particular, the present invention provides sugar beet plants having a phenotype of bolting resistance.

Abstract: The invention relates to transgenic sugar beet plants having a phenotype of delayed bolting. The invention further relates to polynucleotides that are closely linked to the bolting gene or B gene within the sugar beet genome and can be used for the discrimination between the annual and biennial genotype or between different haplotypes within plant groupings of sugar beet plants exhibiting a biennial genotype.

Abstract: The invention relates to polynucleotides that are closely linked to the bolting gene or B gene within the sugar beet genome and can be used for the development of molecular markers. The invention further relates to molecular markers and kits comprising said markers that can be used for mapping, identification and isolation of the bolting gene or S gene in the sugar beet genome and to discriminate between the annual and bienniai genotype or between different haplotypes within plant groupings of sugar beet plants exhibiting a biennial genotype. The invention also relates to assays and methods of breeding sugar beet plants involving said markers.

Abstract: This invention relates to the field of sugar beet bolting and flowering control, specifically methods and transgenic sugar beet plants for suppressing the vernalization response. In particular, the present invention includes sugar beet plants and methods for modulating sugar beet vernalization by over expression of an FLC gene or by suppressing AGL20 gene expression.

Abstract: This invention relates to the field of sugar beet bolting and flowering control, specifically methods and transgenic sugar beet plants for suppressing the vernalization response. In particular, the present invention includes sugar beet plants and methods for modulating sugar beet vernalization by over expression of an FLC gene or by suppressing AGL20 gene expression.

Abstract: The present invention relates to a method to confer resistance or tolerance to more than one virus from the group consisting of furovirus, potyvirus, tospovirus, and cucomovirus, using sense and antisense RNA fragments of a sequence from their genomes. The sense and antisense RNA fragments are capable of pairing and forming a double-stranded RNA molecule, thereby reducing expression of the viral genome.

Abstract: Recombinant DNA constructs comprising a DNA coding for transcription into an RNA sequence of tospoviruses or into RNA sequences related thereto, the use of such DNA constructs to transform plants having reduced susceptibility to tospovirus infection and probes for the isolation of tospovirus or diagnosis of plant tospovirus diseases.

Abstract: Disclosed is a stabilized gene for transforming a host plant cell said gene comprising a gene exogenous to the plant cell and at least one stabilizing DNA segment in a 3'- or 5'-flanking region to said exogenous gene. Additionally, the invention relates to vectors comprising at least one stabilizing DNA segment in a 3'- or 5'-flanking region to the exogenous gene and methods for transforming plant cells. These stabilizing DNA segments include MAR, SAR, LCR, or LAR, HR and other repetitive elements.

Abstract: Recombinant DNA constructs comprising a DNA coding for transcription into an RNA sequence of tospoviruses or into RNA sequences related thereto, the use of such DNA constructs to transform plants having reduced susceptibility to tospovirus infection and probes for the isolation of tospovirus or diagnosis of pant tospovirus diseases.

Abstract: Recombinant Impatiens Necrotic Spot Virus (INSV) DNA constructs comprising an INSV DNA coding for transcription into INSV RNA sequences or into RNA sequences related thereto, the use of such DNA constructs to transform plants having reduced susceptibility to INSV infection and probes for the isolation of INSV or diagnosis of plant INSV related diseases.