Compositions and methods for genetically modifying the production levels of nicotine and other alkaloids in plants are provided.

Compositions and methods for modifying the production levels of alkaloids in plants are provided. Alkaloid production can be genetically controlled by modulating the transcriptional activation of PMT genes mediated by members of the ERF family and/or Myc family of transcription factors. Novel nucleotide sequences encoding the Myc family of transciption factors are also provided.

Compositions and methods for modifying the production levels of alkaloids in plants are provided. Alkaloid production can be genetically controlled by modulating the transcriptional activation of PMT genes mediated by members of the ERF family and/or Myc family of transcription factors. Novel nucleotide sequences encoding the Myc family of transcription factors are also provided.

Isolated nucleic acid molecules capable of regulating expression in plants, as well as expression [cassettes, vectors and transgenic plants comprising the same are provided.

Compositions and methods for genetically modifying the production levels of nicotine and other alkaloids in plants are provided.

The present invention provides nucleic acids and methods for conferring resistance to bacterial disease in plants. The present invention also provides promoters and promoter sequences useful for controlling expression in transgenic plants.

Described are synthetic promoters capable of mediating gene expression in plants upon pathogen infection. Furthermore, recombinant genes and vectors comprising said chimeric promoters as well as host cells transformed with such chimeric promoters, recombinant genes, or vectors are provided. Additionally, diagnostic compositions and kits comprising such chimeric promoters, recombinant genes, vectors or cells are described. Provided are further methods for the identification of compounds being capable of activating or inhibiting genes that are specifically expressed in plants upon pathogen infection employing the above described means. Furthermore, transgenic plant cells, plant tissue, and plants containing the above-described chimeric promoters, recombinant genes, and vectors as well as the use of the aforementioned chimeric promoters, recombinant genes, vectors and/or compounds identified by the method of the invention in plant cell and tissue culture, plant breeding, and/or agriculture are described.

The invention relates to a pathogen-inducible synthetic promoter which is suitable for regulating the transcription of a nucleic acid, and includes a minimal promoter, characterized in that the minimal promoter includes a sequence motif a) dbrmwa or b) twcccmt which is disposed downstream from a TATA region and in front of a transcription starting point which is located on the minimal promoter and at which transcription of the nucleic acid to be regulated starts.

Isolated nucleic acid molecules capable of regulating expression in plants, as well as expression [cassettes, vectors and transgenic plants comprising the same are provided.

The present invention relates to plants that have been transformed so as to have both disease resistance and acceptable agronomic traits. More specifically, the present invention relates to transgenic plants that have acquired disease resistance through expression in the plants of a polynucleotide encoding the transcription factor WRKY45 in an infection-responsive manner, and methods for generating the transgenic plants.