A TOBACCO ETHYLENE-INSENSITIVE3 HOMOLOGUE FUNCTIONS AS A SEQUENCE-SPECIFIC DNA BINDING TRANSCRIPTIONAL ACTIVATOR
スポンサーリンク
概要
著者
関連論文
- Transgenic tobacco plants introduced with luciferase gene as model plant for analysis of gene silencing
- Analysis of gene silencing in transgenic tobacco plants introduced with firefly luciferase gene
- POSSIBLE INVOLVEMENT OF PROTEIN PHOSPHORYLATION IN THE WOUND RESPONSIVE EXPRESSION OF ARBIDOPSIS PLASTID ω-3 FATTY ACID DESATURASE GENE
- PATHOGEN- AND WOUND-INDUCED DEFENSE GENE EXPRESSION IN TOBACCO PLANTS, Plant Cell Physiol, 39(5), 500-507,40(8), 808-817
- IMPORTANCE OF ETHYLENE BIOSYNTHESIS ON PLANT HYPERSENSITIVE RESPONSE
- ETHYLENE BIOSYNTHESIS IS IMPORTANT FOR NECROTIC LOCAL LESION FORMATION IN TOBACCO
- ISOLATION AND CHARACTERIZATION OF RICE PR-1 PROTEIN GENES
- SALT AND DISEASE RESISTANCE IN TRANSGENIC RICE PLANTS OVEREXPRESSING A HUMAN CELL DEATH SUPPRESSOR GENE bcl-xL
- DNA BINDING AND DIMERIZATION SPECIFICITIES OF THE RICE PCF PROTEIN FAMILY
- ISOLATION OF cDNAS ENCODING PROTEINS THAT BIND CIS-ELEMENTS ESSENTIAL FOR MERISTEMATIC TISSUE-SPECIFIC EXPRESSION OF RICE PROLIFERATING CELL NUCLEAR ANTIGEN(PCNA)GENE
- A TOBACCO ETHYLENE-INSENSITIVE3 HOMOLOGUE FUNCTIONS AS A SEQUENCE-SPECIFIC DNA BINDING TRANSCRIPTIONAL ACTIVATOR
- DECREASE IN THE LEVEL OF CHLOROPLASTIC FTSH IN TOBACCO MOSAIC VIRUS-INFECTED TOBACCO ACCELERATES HYPERSENSITIVE REACTION
- ROLE AND MECHANISM OF JASMONIC ACIDINDUCTION BY PATHOGEN-ATTACK OR WOUNDING IN PLANTS