Programmed cell death in plant disease: the purpose and promise of cellular suicide.
about
Pararetrovirus-crucifer interactions: attack and defence or modus vivendi?Host specificity in Sporisorium reilianum is determined by distinct mechanisms in maize and sorghum.Comparative pathobiology of fungal pathogens of plants and animals.Expression of the antiapoptotic baculovirus p35 gene in tomato blocks programmed cell death and provides broad-spectrum resistance to diseaseTranscriptomic analysis of rice (Oryza sativa) endosperm using the RNA-Seq technique.Genome and transcriptome analyses provide insight into the euryhaline adaptation mechanism of Crassostrea gigas.A viral resistance gene from common bean functions across plant families and is up-regulated in a non-virus-specific manner.Nitric oxide and reactive nitrogen oxide species in plants.Systemic Infection of Maize, Sorghum, Rice, and Beet Seedlings with Fumonisin-Producing and Nonproducing Fusarium verticillioides StrainsBax-induced cell death in tobacco is similar to the hypersensitive response.Specific Cues Associated With Honey Bee Social Defence against Varroa destructor Infested Brood.Hijacking of the jasmonate pathway by the mycotoxin fumonisin B1 (FB1) to initiate programmed cell death in Arabidopsis is modulated by RGLG3 and RGLG4.Two vacuole-mediated defense strategies in plants.The role of vacuole in plant cell death.Host-selective toxins produced by the plant pathogenic fungus Alternaria alternata.Alternaria Toxins: Potential Virulence Factors and Genes Related to Pathogenesis.Peroxidase-dependent apoplastic oxidative burst in Arabidopsis required for pathogen resistance.Genomic organization, phylogenetic comparison and differential expression of the SBP-box family of transcription factors in tomato.Fate of a Pseudomonas savastanoi pv. savastanoi type III secretion system mutant in olive plants (Olea europaea L.).Isolation and molecular characterization of an ethylene response factor NtERF1-1 in Nicotiana tabacum cv. Xanthi.Fusaric acid induced cell death and changes in oxidative metabolism of Solanum lycopersicum LA translationally controlled tumor protein negatively regulates the hypersensitive response in Nicotiana benthamiana.StCDPK5 confers resistance to late blight pathogen but increases susceptibility to early blight pathogen in potato via reactive oxygen species burst.Involvement of sphingoid bases in mediating reactive oxygen intermediate production and programmed cell death in Arabidopsis.A circadian rhythm-regulated tomato gene is induced by Arachidonic acid and Phythophthora infestans infection.Characterization of Alternaria alternata glucanase genes expressed during infection of resistant and susceptible persimmon fruits.Recent advance in the study of caspase-like proteases and Bax inhibitor-1 in plants: their possible roles as regulator of programmed cell death.Characterization of Arabidopsis thaliana-Fusarium graminearum interactions and identification of variation in resistance among ecotypes.Monitoring the switch from housekeeping to pathogen defense metabolism in Arabidopsis thaliana using cDNA arrays.Participation of the mitochondrial permeability transition pore in nitric oxide-induced plant cell death.Constitutive caspase-like machinery executes programmed cell death in plant cells.Coordinate involvement of cysteine protease and nuclease in the executive phase of plant apoptosis.Characterization of a novel Toll/interleukin-1 receptor (TIR)-TIR gene differentially expressed in common bean (Phaseolus vulgaris cv. Othello) undergoing a defence response to the geminivirus Bean dwarf mosaic virus.Vacuolar processing enzyme is essential for mycotoxin-induced cell death in Arabidopsis thaliana.Programmed cell death can increase the efficacy of microbial bet -hedging.Xanthomonas citri: breaking the surface.Ozone-induced cell death in tobacco cultivar Bel W3 plants. The role of programmed cell death in lesion formation.Host-selective toxins as agents of cell death in plant-fungus interactions.Valsa mali Pathogenic Effector VmPxE1 Contributes to Full Virulence and Interacts With the Host Peroxidase MdAPX1 as a Potential Target.Independent pathways leading to apoptotic cell death, oxidative burst and defense gene expression in response to elicitin in tobacco cell suspension culture
P2860
Q33349296-1405368B-5B0B-4479-8B9D-084623ECB167Q33361628-7518A093-6E71-4E3A-B485-1C097D5408E8Q34109739-E68E18F5-94AA-41DC-AB28-5838376B9871Q34382017-ADFB3749-FAB6-4036-B214-6D81DE81E767Q34549168-7117B08C-1F92-4229-9569-2123F68B2701Q34648090-B37778EA-A1E9-4392-99BE-1275B3D86FB8Q35033066-A7395533-4938-4209-8BC0-D15763377020Q35042505-77A2D948-2DC5-4574-9954-33F825442403Q36368226-F7CE9CD8-227E-4DF1-84A8-380F1E97CADDQ36411566-DE3ABE95-32D2-4DFB-9ECE-53B1E4CE0A6BQ36860078-6BC9FEA9-4B4F-4EF1-A5A0-0F27FE9D5FE4Q37179865-F2002C02-2BD3-499D-B943-F4B4640A3A99Q37867918-BA04FB86-CAEF-4C03-B62B-D2904636BBD5Q37884381-97C190E4-50EA-4A28-A136-AC9FA1CE51A9Q38030640-A91E5913-DA5C-4FD0-9D73-AA86AFDE8654Q38604872-F19E1D2A-4442-44AB-B2D9-7BC0BDC5E4A8Q39670435-D58C37BD-CFE4-4F5A-92F2-A9809CA29585Q39676674-8ECED7F9-1F90-42D8-927D-9AD0EB7A951EQ40752665-2BB11253-66EC-4A9D-A86E-A98E40F261A5Q41644882-EC761243-E16D-4886-B914-8F9D4847A681Q42264834-67B3583C-5C2D-4940-B6A5-23083076145CQ42289069-59366901-AF0B-4381-914F-C752754520C1Q42509434-B57DAC9D-10FF-49B5-A9C6-02C9CA205170Q42522180-2DF25304-3C7A-404A-8939-69D1800D0DEDQ42675959-4194DF8A-4710-4DD7-A679-D4D25FD9C4ADQ43009449-0D39D322-747D-4E88-BB03-F6013E66BDD1Q43011048-EFBEA057-35EA-4B62-8EA9-FEF7C2ED8846Q43052635-631AF40A-7259-4030-A65C-F64B4455662FQ43826762-99F96CF1-1115-4D42-9C96-064999965954Q43860401-12EFCEE4-34DB-42DC-87A0-16C36480D68DQ44023193-729B3B16-B1A8-48ED-857C-E451B0596A09Q45181640-BD6A91A2-8494-4D3E-B988-396A0864E080Q45375704-C2546EFB-A721-4E88-B390-604B874134F2Q46618460-FCBD1C7B-6CC2-40E1-9158-2C41D2E83ACBQ47652192-0EF0B67B-D0F2-4929-83B9-7F331C9CBEACQ48723776-3ADCF76C-4705-4608-B82D-3579875DF05CQ51644316-6F1FC3CA-8B3C-4C3C-9AD0-D62D7D69BE04Q52601615-2BE478B1-5878-45CE-9D7B-F0F81514309CQ55255726-759D149F-3860-427F-AFC2-B4F28D847BCBQ57441521-81036431-B789-4165-B684-EFA37B650857
P2860
Programmed cell death in plant disease: the purpose and promise of cellular suicide.
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
1998年论文
@zh
1998年论文
@zh-cn
name
Programmed cell death in plant disease: the purpose and promise of cellular suicide.
@ast
Programmed cell death in plant disease: the purpose and promise of cellular suicide.
@en
type
label
Programmed cell death in plant disease: the purpose and promise of cellular suicide.
@ast
Programmed cell death in plant disease: the purpose and promise of cellular suicide.
@en
prefLabel
Programmed cell death in plant disease: the purpose and promise of cellular suicide.
@ast
Programmed cell death in plant disease: the purpose and promise of cellular suicide.
@en
P1476
Programmed cell death in plant disease: the purpose and promise of cellular suicide.
@en
P2093
Gilchrist DG
P304
P356
10.1146/ANNUREV.PHYTO.36.1.393
P577
1998-01-01T00:00:00Z