摘要:
The present invention provides a DNA sequence encoding an oxalate oxidase. The oxalate oxydase may be used for the resistance of plants to diseases caused by Sclerotinia sp. It may be provided by a chimeric gene and a vector containing the coding sequence. It may be used to confer on plants an increased resistance to diseases caused by Sclerotinia sp.
摘要:
The invention concerns a novel method for making herbicide-tolerant plants, in particular to HPPD inhibiting herbicides, the nucleic acid sequences coding for enzymes capable of being used in said method, expression cassettes containing them and transgenic plants comprising at least one of said expression cassettes.
摘要:
Helianthinin is an 11S seed storage protein of sunflower embryos. The present invention is directed to the 5' regulatory regions of helianthinin genes. More particularly, the present invention is directed to specific cis-regulatory elements of this regulatory region which direct tissue-specific gene expression. The present invention provides chimeric genes comprising the cis-regulatory elements linked to a coding sequence from a heterologous gene to control expression of these genes. The chimeric genes provided by the instant invention are useful in conferring herbicide resistance and improved seed lipid quality to transgenic plants
摘要:
Helianthinin is an 11S seed storage protein of sunflower embryos. The present invention is directed to the 5' regulatory regions of helianthinin genes. More particularly, the present invention is directed to specific cis-regulatory elements of this regulatory region which direct abscisic acid-responsive gene expression. The present invention provides chimeric genes comprising the cis-regulatory elements linked to a coding sequence from a heterologous gene to control expression of these genes. The chimeric genes provided by the instant invention are useful in conferring herbicide resistance and improved seed lipid quality to transgenic plants.
摘要:
Helianthinin is an 11S seed storage protein of sunflower embryos. The present invention is directed to the 5' regulatory regions of helianthinin genes. More particularly, the present invention is directed to specific cis-regulatory elements of this regulatory region which direct tissue-specific, temporally-regulated, or abscisic acid-responsive gene expression. The present invention provides chimeric genes comprising the cis-regulatory elements linked to a coding sequence from a heterologous gene to control expression of these genes. The chimeric genes provided by the instant invention are useful in conferring herbicide resistance and improved seed lipid quality to transgenic plants.
摘要:
The present invention relates to a DNA sequence, a 5′ regulatory element allowing the expression of a heterologous gene in a plant cell from a monocotyledonous plant, characterized in that it comprises, in the direction of transcription, a first DNA sequence, which is a functional fragment of the sequence of the maize H3C4 promoter, and a second DNA sequence, which is a functional fragment of the sequence of the first intron of rice actin. The invention also relates to a chimeric gene comprising the said DNA sequence and the plants transformed with the said gene.
摘要:
The present invention relates to an isolated and purified DNA comprising a nucleotide sequence that encodes a polypeptide functionally involved in the DNA mismatch repair system of a plant.
摘要:
The invention concerns a chimeric gene containing a DNA sequence coding for drosomycin, a vector containing the chimeric gene, a method for transforming plants and the resulting transformed plants. The drosomycin produced by the plants provides them with resistance to diseases, in particular of fungal origin.
摘要:
Process for regenerating cultivars from immature embryos.It comprises three stages:formation of embryogenic calluses in a medium containing a hormone of the cytokinin type,culturing the calluses in a medium of the same nature as above,culturing the plantlets.Application to sunflower cultivars.
摘要:
The present invention relates to the field of plant transformation with genes conferring tolerance to glyphosate. The invention particularly relates to a maize (corn) plant transformed with a gene encoding an EPSPS providing the plant tolerance to an application of glyphosate under conditions where this herbicide is effective in killing weeds.The invention particularly concerns an elite transformation event VCO-Ø1981-5 comprising the gene construct and means, kits and methods for detecting the presence of the said elite event.