scholarly article | Q13442814 |
P356 | DOI | 10.1104/PP.107.100800 |
P698 | PubMed publication ID | 17631528 |
P2093 | author name string | Huijun Yang | |
Yongqing Li | |||
Jian Hua | |||
Shuhua Yang | |||
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Inhibition of protoporphyrinogen oxidase expression in Arabidopsis causes a lesion-mimic phenotype that induces systemic acquired resistance. | Q52534929 | ||
Arabidopsis RIN4 is a target of the type III virulence effector AvrRpt2 and modulates RPS2-mediated resistance. | Q52549320 | ||
Antagonistic control of disease resistance protein stability in the plant immune system. | Q53669285 | ||
Functional analysis of Arabidopsis ethylene-responsive element binding protein conferring resistance to Bax and abiotic stress-induced plant cell death. | Q53853643 | ||
A humidity-sensitive Arabidopsis copine mutant exhibits precocious cell death and increased disease resistance. | Q53991523 | ||
The disease resistance signaling components EDS1 and PAD4 are essential regulators of the cell death pathway controlled by LSD1 in Arabidopsis. | Q53991527 | ||
Animal cell-death suppressors Bcl-x(L) and Ced-9 inhibit cell death in tobacco plants. | Q54085354 | ||
Coordinated Activation of Programmed Cell Death and Defense Mechanisms in Transgenic Tobacco Plants Expressing a Bacterial Proton Pump. | Q54182915 | ||
Genetic characterization of five powdery mildew disease resistance loci in Arabidopsis thaliana | Q60491105 | ||
The cpr5 mutant of Arabidopsis expresses both NPR1-dependent and NPR1-independent resistance | Q73808082 | ||
A high-throughput method for quantifying growth of phytopathogenic bacteria in Arabidopsis thaliana | Q77334336 | ||
The RAR1 interactor SGT1, an essential component of R gene-triggered disease resistance | Q77643553 | ||
Cell death suppressor Arabidopsis bax inhibitor-1 is associated with calmodulin binding and ion homeostasis | Q79400844 | ||
The role of EDS1 (enhanced disease susceptibility) during singlet oxygen-mediated stress responses of Arabidopsis | Q79765249 | ||
Adi3 is a Pdk1-interacting AGC kinase that negatively regulates plant cell death | Q42277432 | ||
Arabidopsis Bax inhibitor-1 functions as an attenuator of biotic and abiotic types of cell death | Q42491459 | ||
The C2 domain protein BAP1 negatively regulates defense responses in Arabidopsis | Q42502251 | ||
A gain-of-function mutation in a plant disease resistance gene leads to constitutive activation of downstream signal transduction pathways in suppressor of npr1-1, constitutive 1. | Q42611654 | ||
Differential regulation of superoxide dismutases in plants exposed to environmental stress | Q43480188 | ||
Constitutive disease resistance requires EDS1 in the Arabidopsis mutants cpr1 and cpr6 and is partially EDS1-dependent in cpr5. | Q43663267 | ||
Transient over-expression of barley BAX Inhibitor-1 weakens oxidative defence and MLA12-mediated resistance to Blumeria graminis f.sp. hordei. | Q43796315 | ||
THE OXIDATIVE BURST IN PLANT DISEASE RESISTANCE. | Q44073104 | ||
Rapid induction of distinct stress responses after the release of singlet oxygen in Arabidopsis | Q44595383 | ||
A haplotype-specific Resistance gene regulated by BONZAI1 mediates temperature-dependent growth control in Arabidopsis | Q44805666 | ||
LESION SIMULATING DISEASE 1 is required for acclimation to conditions that promote excess excitation energy | Q45044401 | ||
Genome-wide analysis of NBS-LRR-encoding genes in Arabidopsis. | Q45978074 | ||
Pathogen-induced, NADPH oxidase-derived reactive oxygen intermediates suppress spread of cell death in Arabidopsis thaliana | Q46709772 | ||
The barley Mlo gene: a novel control element of plant pathogen resistance | Q48052711 | ||
Distinct domains in the ARC region of the potato resistance protein Rx mediate LRR binding and inhibition of activation | Q48086025 | ||
A novel genetic system to detect protein-protein interactions | Q27860915 | ||
Genomic libraries and a host strain designed for highly efficient two-hybrid selection in yeast | Q28131604 | ||
The plant immune system | Q28131801 | ||
Plant pathogens and integrated defence responses to infection | Q28207107 | ||
Epigenetic variation in Arabidopsis disease resistance | Q28345294 | ||
Programmed cell death in animal development | Q29616430 | ||
Host-microbe interactions: shaping the evolution of the plant immune response | Q29617734 | ||
Resistance response physiology and signal transduction. | Q30321212 | ||
Vesicle-associated membrane protein of Arabidopsis suppresses Bax-induced apoptosis in yeast downstream of oxidative burst | Q31009091 | ||
The Arabidopsis thaliana ethylene-responsive element binding protein (AtEBP) can function as a dominant suppressor of Bax-induced cell death of yeast | Q32041487 | ||
Mammalian Bax-induced plant cell death can be down-regulated by overexpression of Arabidopsis Bax Inhibitor-1 (AtBI-1) | Q33947197 | ||
Regulators of cell death in disease resistance | Q34152283 | ||
Initiation of RPS2-specified disease resistance in Arabidopsis is coupled to the AvrRpt2-directed elimination of RIN4. | Q34176705 | ||
Genes controlling expression of defense responses in Arabidopsis--2001 status | Q34289007 | ||
Regulation and execution of programmed cell death in response to pathogens, stress and developmental cues | Q34407588 | ||
Pseudomonas type III effector AvrPtoB induces plant disease susceptibility by inhibition of host programmed cell death | Q34446089 | ||
Reactive oxygen species in plant cell death. | Q34535881 | ||
Systemic acquired resistance. | Q34549706 | ||
Role of SGT1 in resistance protein accumulation in plant immunity | Q34590402 | ||
Plant growth homeostasis is controlled by the Arabidopsis BON1 and BAP1 genes | Q35081164 | ||
Lesion mimic mutants: keys for deciphering cell death and defense pathways in plants? | Q35159196 | ||
Understanding the functions of plant disease resistance proteins | Q35540278 | ||
Plant immunity: the origami of receptor activation | Q35623409 | ||
The role and regulation of programmed cell death in plant-pathogen interactions. | Q35649325 | ||
Programmed cell death in plant disease: the purpose and promise of cellular suicide | Q35687489 | ||
Controlled cell death, plant survival and development | Q35741021 | ||
Serpentine plant MLO proteins as entry portals for powdery mildew fungi | Q36078616 | ||
Plant immunity: the EDS1 regulatory node. | Q36154046 | ||
Abrogation of disease development in plants expressing animal antiapoptotic genes | Q36244379 | ||
Bax-induced cell death in tobacco is similar to the hypersensitive response | Q36411566 | ||
Programmed cell death: a way of life for plants | Q37225199 | ||
Expression of antiapoptotic genes bcl-xL and ced-9 in tomato enhances tolerance to viral-induced necrosis and abiotic stress | Q37595889 | ||
Agrobacterium transient expression system as a tool for the isolation of disease resistance genes: application to the Rx2 locus in potato. | Q38315979 | ||
Oviposition by pierid butterflies triggers defense responses in Arabidopsis | Q42035267 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 1 | |
P921 | main subject | cell death | Q2383867 |
P1104 | number of pages | 12 | |
P304 | page(s) | 135-146 | |
P577 | publication date | 2007-07-13 | |
P1433 | published in | Plant Physiology | Q3906288 |
P1476 | title | The Arabidopsis BAP1 and BAP2 genes are general inhibitors of programmed cell death | |
P478 | volume | 145 |
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