A Calmodulin-Binding Mitogen-Activated Protein Kinase Phosphatase is Induced by Wounding and Regulates the Activities of Stress-Related Mitogen-Activated Protein Kinases in Rice
スポンサーリンク
概要
著者
-
Yanagawa Yuki
National Institute Of Agrobiological Sciences
-
HIROCHIKA Hirohiko
National Institute of Agrobiological Resources
-
Seo shigemi
National Institute of Agrobiological Resources
-
Ohashi Yuko
National Institute of Agrobiological Resources
-
Seo S
Plant-microbe Interaction Research National Institute Of Agrobiological Sciences
-
KATOU Shinpei
National Institute of Agrobiological Sciences
-
KURODA Katsushi
National Institute of Agrobiological Sciences
-
TSUGE Tomohiko
National Institute of Agrobiological Sciences
-
YAMAZAKI Muneo
National Institute of Agrobiological Sciences
-
MIYAO Akio
National Institute of Agrobiological Sciences
-
SHIRASAWA SEO
Miyagi Prefectural Agriculture and Horticulture Research Center
-
SEO Naomi
Miyagi Prefectural Agricultural Research Center
-
SHIRASAWA Naomi
Miyagi Prefectural Agricultural Research Center
-
Seo Shigemi
National Inst. Agrobiol. Resources:crest Of Japan Science And Technology Corporation
-
Ohashi Yuko
Plant-microbe Interaction Research National Institute Of Agrobiological Sciences
-
Ohashi Yuko
National Inst. Agrobiol. Resources:crest Of Japan Science And Technology Corporation
-
Yamazaki Muneo
National Institute Of Agrobiological Resources
-
Hirochika Hirohiko
National Inst. Of Agrobiological Sciences
-
Seo Shigemi
Department Of Plant Physiology National Institute Of Agrobiological Sciences
-
Ohashi Y
Department Of Molecular Genetics National Institute Of Agrobiological Resources
-
Ohashi Yuko
Plant Physiol. Dept. National Institute Of Agrobiological Sciences
-
Miyao Akio
National Institute For Agrobiological Sciences
-
Hirochika Hirohiko
National Inst. Agrobiological Sci. Ibaraki Jpn
-
Yamazaki Muneo
National Inst. Of Agrobiological Sci. Ibaraki Jpn
-
OHASHI Yuko
Plant-Microbe Interactions Research Unit, National Institute of Agrobiological Sciences
関連論文
- SSD1, which encodes a plant-specific novel protein, controls plant elongation by regulating cell division in rice
- Identification and characterication of loss-of-function mutations in the rice homeobox gene, OSH15.
- Regulation by Cytokinins of Endogenous Levels of Jasmonic and Salicylic Acids in Mechanically Wounded Tobacco Plants
- Two Novel Nuclear Genes, OsSIG5 and OsSIG6, Encoding Potential Plastid Sigma Factors of RNA Polymerase in Rice : Tissue-Specific and Light-Responsive Gene Expression
- Overexpression of a gene for 26S proteasome subunit RPN10 confers enhanced resistance to canavanine, an analog of arginine, in transgenic rice (Oryza sativa L.)
- A Calmodulin-Binding Mitogen-Activated Protein Kinase Phosphatase is Induced by Wounding and Regulates the Activities of Stress-Related Mitogen-Activated Protein Kinases in Rice
- Genetic studies of transgenic rice plants overproducing an antibacterial peptide show that a high level of transgene expression did not cause inferior effects on host plants
- A Wound-Inducible Tobacco Peroxidase Gene Expresses Preferentially in the Vascular System
- A Large Family of Class III Plant Peroxidases
- A UNIQUE TOBACCO PEROXIDASE GENE TPOXN1 IS EXPRESSED IN VASCULAR AND EPIDERMAL SYSTEMS FOR A LONG TIME
- Wound-Induced Expression of a Tobacco Peroxidase Is Not Enhanced by Ethephon and Suppressed by Methyl Jasmonate and Coronatine
- Expression profile of a wound-induced tobacco peroxidase gene
- Overexpression of a calcium-dependent protein kinase gene enhances growth of rice under low-nitrogen conditions
- Overexpression of a calcium-dependent protein kinase gene enhances growth of rice under low-nitrogen conditions
- ANALYSIS OF WOUND RESPONSE MEDIATED BY 5' -FLANKING REGION OF RICE PEROXIDASE GENE
- SigC, the Group 2 Sigma Factor of RNA Polymerase, Contributes to the Late-stage Gene Expression and Nitrogen Promoter Recognition in the Cyanobacterium Synechocystis sp. Strain PCC 6803
- Ectopic Expression of an Oat Thionin Gene in Carnation Plants Confers Enhanced Resistance to Bacterial Wilt Disease
- Constitutive Promoters Available for Transgene Expression Instead of CaMV 35S RNA Promoter : Arabidopsis Promoters of Tryptophan Synthase Protein β Subunit and Phytochrome B
- 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
- Four Chitinase cDNAs from Chenopodium amaranticolor
- Efficient Promoter Cassettes for Enhanced Expression of Foreign Genes in Dicotyledonous and Monocotyledonous Plants
- ACTIVATION TAGGING IN RICE : UTILIZATION OF A TRANSPOSON MEDIATED METHOD AND A NEW MUTANT OBTAINED
- The phenylalanine pathway is the main route of salicylic acid biosynthesis in Tobacco mosaic virus-infected tobacco leaves
- A Mitogen-activated Protein Kinase NtMPK4 Activated by SIPKK is Required for Jasmonic Acid Signaling and Involved in Ozone Tolerance via Stomatal Movement in Tobacco
- Analysis of the gene-deficient strain of the cyanobacterial sigma factor
- Structure and Characterization of a Gene for Light-Harvesting Chl a/b Binding Protein from Rice
- Function, Intracellular Localization and the Importance in Salt Tolerance of a Vacuolar Na^+/H^+ Antiporter from Rice
- PATHOGEN- AND WOUND-INDUCED DEFENSE GENE EXPRESSION IN TOBACCO PLANTS, Plant Cell Physiol, 39(5), 500-507,40(8), 808-817
- Ethylene Promotes the Necrotic Lesion Formation and Basic PR Gene Expression in TMV-Infected Tobacco
- Involvement of Proteasome-Ubiquitin System in Wound-Signaling in Tobacco Plants
- Expression profiles of genes for two novel tobacco peroxidases induced by mechanical wounding and during local lesion formation following TMV infection
- INVOLVEMENT OF PROTEASOME-UBIQUITIN SYSTEM IN WOUND-SIGNALING IN TOBACCO LEAVES
- Antagonistic Effect of Salicylic Acid and Jasmonic Acid on the Expression of Pathogenesis-Related (PR) Protein Genes in Wounded Mature Tobacco Leaves
- IMPORTANCE OF ETHYLENE BIOSYNTHESIS ON PLANT HYPERSENSITIVE RESPONSE
- MAP KINASE IN PATHOGEN- OR WOUND-STRESS IN PLANTS
- ETHYLENE BIOSYNTHESIS IS IMPORTANT FOR NECROTIC LOCAL LESION FORMATION IN TOBACCO
- Characterization of Chlorophyllide a Oxygenase (CAO) in Rice
- Enhanced Resistance to Salt, Cold and Wound Stresses by Overproduction of Animal Cell Death Suppressors Bcl-xL and Ced-9 in Tobacco Cells-Their Possible Contribution Through Improved Function of Organella
- EXPRESSION ANALYSIS OF TOBACCO CYSTEINE PROTEASE (NTCP-23)
- ISOLATION AND EXPRESSION ANALYSIS OF TOBACCO CYSTEINPROTEASE(NTCP-23)
- Ethylene Promotes Submergence-Induced Expression of OsABA8ox1, a Gene that Encodes ABA 8'-Hydroxylase in Rice
- Isolation of rice pollen mutants from Tos17 insertional mutant lines
- Localization of Pathogenesis-Related Proteins in the Epidermis and Intercellular Spaces of Tobacco Leaves after Their Induction by Potassium Salicylate or Tobacco Mosaic Virus Infection
- Regulation Mechanisms of the synthesis of Pathogenesis-Related Proteins in Tobacco Leaves
- Induction and Secretion of Pathogenesis-Related Proteins by Salicylate or Plant Hormones in Tobacco suspension Cultures
- Accumulation of Pathogenesis-Related Proteins in Tobacco Leaves Irradiated with UV-B
- Constitutive Expression of Stress-Inducible Genes, Including Pathogenesis-Related 1 Protein Gene in a Transgenic Interspecific Hybrid of Nicotiana glutinosa x Nicotiana debneyi
- Synthesis of Stress Proteins in Tabacco Leaves
- Insertional mutagenesis with Tos17 for functional analysis of rice genes
- Ten Rice Peroxidases Redundantly Respond to Multiple Stresses Including Infection with Rice Blast Fungus
- Probenazole-Induced Accumulation of Salicylic Acid Confers Resistance to Magnaporthe grisea in Adult Rice Plants
- MAP Kinases Function Downstream of HSP90 and Upstream of Mitochondria in TMV Resistance Gene N-Mediated Hypersensitive Cell Death
- Pathogen-Induced Calmodulin Isoforms in Basal Resistance Against Bacterial and Fungal Pathogens in Tobacco
- Accumulation of the Two Transcripts of the N gene, Conferring Resistance to Tobacco Mosaic Virus, is Probably Important for N Gene-dependent Hypersensitive Cell Death
- Rapid Down and Upward Translocation of Salicylic Acid in Tobacco Plants
- Induced Expression of a Temperature-Sensitive Leucine-Rich Repeat Receptor-like Protein Kinase Gene by Hypersensitive Cell Death and Wounding in Tobacco Plant Carrying the N Resistance Gene
- CHARACTERIZATION OF A TOBACCO WOUND-INDUCED RECEPTOR-TYPE PROTEIN KINASE GENE WRK1
- HYPERSENSITIVE CELL DEATH BY VIRUS INFECTION AND ACQUIRED RESISTANCE
- ACCUMULATION OF A JA-AND WOUND-INDUCIBLE NOVEL ACIDIC PR-1 PROTEIN IN THE INTERCELLULAR SPACES OF TOBACCO LEAVES
- SALT AND DISEASE RESISTANCE IN TRANSGENIC RICE PLANTS OVEREXPRESSING A HUMAN CELL DEATH SUPPRESSOR GENE bcl-xL
- Enhanced Resistance to Bacterial Diseases of Transgenic Tobacco Plants Overexpressing Sarcotoxin IA, a Bactericidal Peptide of Insect
- CHARACTERIZATION OF TOBACCO DIVERGENT CALMODULIN GENES IN VIRUS-INFECTED AND WOUNDED LEAVES
- POLYAMINE AS A NOVEL INDUCER OF TOBACCO ACIDIC PR-1 GENE EXPRESSION
- Enhanced Expression of an Antimicrobial Peptide Sarcotoxin IA by GUS Fusion in Transgenic Tobacco Plants
- Three Types of Tobacco Calmodulins Characteristically Activate Plant NAD Kinase at Different Ca^ Concentrations and pHs
- Function of Jasmonate in Response and Tolerance of Arabidopsis to Thrip Feeding
- A loss-of-function mutation of rice DENSE PANICLE1 causes semi-dwarfness and slightly increased number of spikelets
- [Plant Biotechniques Series (9)] Systematic Screening of Mutants of Rice by Sequencing Retrotransposon-Insertion Sites
- Immunochemical Localization of Pathogenesis-Related Proteins Secreted into the Intercellular Spaces of Salicylate-Treated Tobacco Leaves
- ROLE AND MECHANISM OF JASMONIC ACIDINDUCTION BY PATHOGEN-ATTACK OR WOUNDING IN PLANTS
- ENHANCED SALT-AND COLD-TOLERANCE BY OVERPRODUCTION OF ANIMAL CELL DEATH SUPPRESSORS IN TOBACCO CELLS
- Delayed necrotic lesion formation by TMV infection in transgenic tobacco plants overproducing animal cell death suppressor genes.
- Root hairless 2 (rth2) mutant represents a loss-of-function allele of the cellulose synthase-like gene OsCSLD1 in rice (Oryza sativa L.)
- RiceFOX : A Database of Arabidopsis Mutant Lines Overexpressing Rice Full-Length cDNA that Contains a Wide Range of Trait Information to Facilitate Analysis of Gene Function
- Gene coding for SigA-binding protein from Arabidopsis appears to be transcriptionally up-regulated by salicylic acid and NPR1-dependent mechanisms
- Analysis of rice RNA-dependent RNA polymerase 1 (OsRDR1) in virus-mediated RNA silencing after particle bombardment
- Antagonistic Plant Defense System Regulated by Phytohormones Assists Interactions Among Vector Insect, Thrips and a Tospovirus
- Identification of a Degradation Intermediate of the Momilactone A Rice Phytoalexin by the Rice Blast Fungus
- Rapid analysis of transgenic rice straw using near-infrared spectroscopy
- Identification of Natural Diterpenes that Inhibit Bacterial Wilt Disease in Tobacco, Tomato and Arabidopsis
- Evaluation of anti-herbivory genes using an Agrobacterium-mediated transient expression system
- Rapid analysis of transgenic rice straw using near-infrared spectroscopy
- A pentatricopeptide repeat gene of rice is required for splicing of chloroplast transcripts and RNA editing of ndhA
- CAD2 deficiency causes both brown midrib and gold hull and internode phenotypes in Oryza sativa L. cv. Nipponbare
- Transcriptional step is necessary for induction of pathogenesis-related proteins.
- Precise mode of induction of pathogenesis-related proteins by chemical treatment in tobacco.
- Role of the rice transcription factor JAmyb in abiotic stress response
- Transcriptome Analysis of WIPK/SIPK-Suppressed Plants Reveals Induction by Wounding of Disease Resistance-Related Genes Prior to the Accumulation of Salicylic Acid
- Enhanced Resistance to Bacterial Diseases of Transgenic Tobacco Plants Overexpressing Sarcotoxin IA, a Bactericidal Peptide of Insect.
- A pentatricopeptide repeat gene of rice is required for splicing of chloroplast transcripts and RNA editing of ndhA