scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1025080477 |
P356 | DOI | 10.1007/S00425-006-0277-1 |
P698 | PubMed publication ID | 16614819 |
P2093 | author name string | Kouhei Ohnishi | |
Yasufumi Hikichi | |||
Akinori Kiba | |||
Osamu Takata | |||
P2860 | cites work | Basic local alignment search tool | Q25938991 |
Hypersensitive response-related death | Q28200993 | ||
Involvement of Reactive Oxygen Species, Glutathione Metabolism, and Lipid Peroxidation in the Cf-Gene-Dependent Defense Response of Tomato Cotyledons Induced by Race-Specific Elicitors of Cladosporium fulvum | Q28201499 | ||
The hypersensitive response. A programmed cell death associated with plant resistance | Q28288307 | ||
Evidence for the involvement of an oxidative stress in the initiation of infection of pear by Erwinia amylovora | Q28362486 | ||
Novel evidence for apoptotic cell response and differential signals in chromatin condensation and DNA cleavage in victorin-treated oats | Q30762114 | ||
Lipid peroxidation in cotton: Xanthomonas interactions and the role of lipoxygenases during the hypersensitive reaction. | Q33184788 | ||
Morphologic and biochemical hallmarks of apoptosis | Q33869981 | ||
Regulators of cell death in disease resistance | Q34152283 | ||
Plant proteolytic enzymes: possible roles during programmed cell death | Q34152293 | ||
Caspase-like protease involvement in the control of plant cell death | Q34152298 | ||
Programmed cell death, mitochondria and the plant hypersensitive response | Q34311188 | ||
Expression of the antiapoptotic baculovirus p35 gene in tomato blocks programmed cell death and provides broad-spectrum resistance to disease | Q34382017 | ||
The hypersensitive response facilitates plant infection by the necrotrophic pathogen Botrytis cinerea | Q34509686 | ||
A plant vacuolar protease, VPE, mediates virus-induced hypersensitive cell death. | Q34549920 | ||
Multiple mediators of plant programmed cell death: interplay of conserved cell death mechanisms and plant-specific regulators | Q35036932 | ||
Carbon tetrachloride-induced lipid peroxidation: eicosanoid formation and their regulation by antioxidant nutrients | Q35160388 | ||
Emerging strategies for enhancing crop resistance to microbial pathogens | Q35303507 | ||
The role and regulation of programmed cell death in plant-pathogen interactions. | Q35649325 | ||
DNA degradation in development and programmed cell death | Q36072468 | ||
MAPKKKalpha is a positive regulator of cell death associated with both plant immunity and disease. | Q39958603 | ||
The oxidative burst protects plants against pathogen attack: mechanism and role as an emergency signal for plant bio-defence--a review | Q41256898 | ||
Mitochondrial control of apoptosis | Q41339880 | ||
Implication of mitochondria in apoptosis. | Q41601379 | ||
Induction and signaling of an apoptotic response typified by DNA laddering in the defense response of oats to infection and elicitors | Q43580435 | ||
Quantitative nature of Arabidopsis responses during compatible and incompatible interactions with the bacterial pathogen Pseudomonas syringae | Q44302174 | ||
Induction of resistance and expression of defense-related genes in tobacco leaves infiltrated with Ralstonia solanacearum | Q44385814 | ||
Expression of the baculovirus p35 protein in tobacco affects cell death progression and compromises N gene-mediated disease resistance response to Tobacco mosaic virus | Q44470941 | ||
Involvement of the mitochondrial K(+)ATP channel in H2O2- or NO-induced programmed death of soybean suspension cell cultures. | Q45264897 | ||
Apoptosis: A Functional Paradigm for Programmed Plant Cell Death Induced by a Host-Selective Phytotoxin and Invoked during Development | Q46066832 | ||
H2O2 from the oxidative burst orchestrates the plant hypersensitive disease resistance response | Q46598823 | ||
Induction of apoptotic cell death leads to the development of bacterial rot caused by Pseudomonas cichorii | Q46984530 | ||
Barley aleurone layers secrete a nuclease in response to gibberellic Acid : purification and partial characterization of the associated ribonuclease, deoxyribonuclease, and 3'-nucleotidase activities | Q47929040 | ||
Cleavage of Nuclear DNA into Oligonucleosomal Fragments during Cell Death Induced by Fungal Infection or by Abiotic Treatments. | Q52547421 | ||
Use of a new tetrazolium-based assay to study the production of superoxide radicals by tobacco cell cultures challenged with avirulent zoospores of phytophthora parasitica var nicotianae | Q54133821 | ||
Independent pathways leading to apoptotic cell death, oxidative burst and defense gene expression in response to elicitin in tobacco cell suspension culture | Q57441521 | ||
Identification, characterization, and purification of a tobacco endonuclease activity induced upon hypersensitive response cell death | Q70820227 | ||
Role of reactive oxygen species in the response of barley to necrotrophic pathogens | Q73439447 | ||
Programmed cell death assays for plants | Q73983355 | ||
Relationship between Active Oxygen Species, Lipid Peroxidation, Necrosis, and Phytoalexin Production Induced by Elicitins in Nicotiana | Q74776568 | ||
Caspases and programmed cell death in the hypersensitive response of plants to pathogens | Q77431805 | ||
Activation of cysteine proteases in cowpea plants during the hypersensitive response--a form of programmed cell death | Q77677091 | ||
Victorin induction of an apoptotic/senescence-like response in oats | Q77933599 | ||
Apoptotic cell death is a common response to pathogen attack in oats | Q78530420 | ||
Proteolytic Activity at Alkaline pH in Oat Leaves, Isolation of an Aminopeptidase | Q83269277 | ||
P433 | issue | 5 | |
P921 | main subject | cell death | Q2383867 |
P304 | page(s) | 981-994 | |
P577 | publication date | 2006-04-14 | |
P1433 | published in | Planta | Q15762724 |
P1476 | title | Comparative analysis of induction pattern of programmed cell death and defense-related responses during hypersensitive cell death and development of bacterial necrotic leaf spots in eggplant | |
P478 | volume | 224 |