RPATHOGEN-OR ELICITOR-STIMULATED OXIDATIVE BURST IN PLANT TISSUES AND INDUCTION OF DEFENSE NETWORKS
スポンサーリンク
概要
著者
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DOKE Noriyuki
Grad. Sch. Bioagr. Sci., Nagoya Univ.
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KAWAKITA Kazuhito
Grad. School Bioagr. Sci., Nagoya Univ.
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YOSHIOKA Hirohumi
Plant Pathol. Lab., Grad. School Bioagr. Sci. Nagoya Univ.
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Doke Noriyuki
Plant Pathology Laboratory Graduate School Of Bioagricultural Sciences Nagoya University
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Kawakita Kazuhito
Plant Pathology Laboratory Graduate School Of Bioagricultural Sciences Nagoya University
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Kawakita Kazuhito
Graduate School Of Bioagricultural Sciences Nagoya University
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PARK HaeJune
Grad. Sch. Bioagr. Sci. Nagoya Univ.
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YOSHIOKA Hirohumi
Grad. Sch. Bioagr. Sci. Nagoya Univ.
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Yoshioka Hirohumi
Plant Pathol. Lab. Grad. School Bioagr. Sci. Nagoya Univ.
関連論文
- CLONING OF SESQUITERPENE CYCLASE GENES IN POTATO
- cDNA Cloning of Sesquiterpene Cyclase and Squalene Synthase, and Expression of the Genes in Potato Tuber Infected with Phytophthora infestans
- Isolation of the Gene for EILP, an Elicitor-Inducible LRR Receptor-Like Protein, from Tobacco by Differential Display
- CLONING AND CHARACTERIZATION OF DISEASE STRESS-INDUCED GENES OF TOBACCO
- Molecular Cloning of a Defense-Response-Related Cytochrome P450 Gene from Tobacco
- CLONING AND CHARACTERIZATION OF CELL WALL ELICITOR-INDUCED GENES OF TOBACCO
- MOLECULAR CLONING OF CELL WALL ELICITOR-INDUCED GENES OF TOBACCO BY DIFFERENTIAL DISPLAY
- EXPRESSION OF VACUOLAR PROCESSING ENZYME GENE(S) IN TOBACCO LEAVES TREATED WITH ELICITORS
- Characterization of Elicitor-inducible Tobacco Genes Isolated by Differential Hybridization
- ISOLATION OF ELICITOR-RESPONSIVE GENES IN POTATO BY SUBTRACTION METHOD
- THE EXPRESSION OF 1-AMINOCYCLOPROPANE-1-CARBOXYLIC ACID SYNTHASE GENES IN POTATO LEAVES INFECTED WITH Phytophthora infestans OR TREATED WITH ELICITORS
- Identification of Chitinase and Osmotin-Like Protein as Actin-Binding Proteins in Suspension-Cultured Potato Cells
- INVOLVEMENT OF ACTIN AND ACTIN-RELATED PROTEIN(S)IN ELICITATION OF DEFENCE RESPONSE IN POTATO PLANT
- Involvement of mitogen-activated protein kinase in the induction of StrbohC and StrbohD genes in response to pathogen signals in potato
- Nitrate Reductase is Responsible for Elicitin-induced Nitric Oxide Production in Nicotiana benthamiana
- Peroxynitrite Generation and Tyrosine Nitration in Defense Responses in Tobacco BY-2 Cells
- Involvement of nitric oxide generation in hypersensitive cell death induced by elicitin in tobacco cell suspension culture
- Elicitation of primary and secondary metabolism during defense in the potato
- Nitrate reductase, a nitric oxide-producing enzyme : induction by pathogen signals
- Functional analysis of potato mitogen-activated protein kinase kinase, StMEK1
- ISOLATION AND EXPRESSION ANALYSIS OF ELICITOR-RESPONSIVE GENES IN POTATO TUBERS AND LEAVES BY DIFFERENTIAL HYBRIDIZATION
- ELICITOR-RESPONSIVE MAP KINASE IN POTATO PLANTS
- RPATHOGEN-OR ELICITOR-STIMULATED OXIDATIVE BURST IN PLANT TISSUES AND INDUCTION OF DEFENSE NETWORKS
- A 51 kDa Protein Kinase of Potato Activated with Hyphal Wall Components from Phytophthora infestans
- Physiological Mechanisms of a Sub-Systemic Oxidative Burst Triggered by Elicitor-Induced Local Oxidative Burst in Potato Tuber Slices
- Effect of Mastoparan on Phospholipase A_2 Activity in Potato Tubers Treated with Fungal Elicitor
- PHOSPHOLIPASE C IN MICROSOMAL TRACTIONFROM POTATO SUSPENSION CELL CULTURES
- A Cytosolic Phospholipase A_2 from Potato Tissues Appears to Be Patatin
- PHOSPHOLIPASE A_2 IN CYTOSOLFRACTION OF POTATO TUBER IS PATATIN
- EFFECT OF MASTOPARAN ON PLA2 ACTIVITY IN POTATO TUBER
- THE POSSIBILITY OF PHOSPHORYLATION OF STORAGE PROTEIN, PATATIN
- NITRIC OXIDE INDUCES PHYTOALEXIN ACCUMULATION IN POTATO TUBER TISSUES
- Nitric Oxide Induces Phytoalexin Accumulation in Potato Tuber Tissues
- Involvement of NbNOA1 in NO production and defense responses in INF1-treated Nicotiana benthamiana
- N,N-dimethylsphingosine, an inhibitor of sphingosine kinase, induces phytoalexin production and hypersensitive cell death of Solanaceae plants without generation of reactive oxygen species