scholarly article | Q13442814 |
P50 | author | Rita Bernhardt | Q87976469 |
Katiuska González-Arzola | Q52365249 | ||
Jonathan Martinez-Fabregas | Q64167133 | ||
Irene Díaz-Moreno | Q41116818 | ||
P2093 | author name string | José A Navarro | |
Manuel Hervás | |||
Antonio Díaz-Quintana | |||
Miguel Á De la Rosa | |||
Simon Janocha | |||
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Disruption of the M80-Fe ligation stimulates the translocation of cytochrome c to the cytoplasm and nucleus in nonapoptotic cells | Q28387656 | ||
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Visualization of interactions among bZIP and Rel family proteins in living cells using bimolecular fluorescence complementation | Q29616037 | ||
Evolution of cytochromec investigated by the maximum parsimony method | Q41551248 | ||
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Harpin and hydrogen peroxide both initiate programmed cell death but have differential effects on defence gene expression in Arabidopsis suspension cultures | Q41958976 | ||
Nuclear Apaf-1 and cytochrome c redistribution following stress-induced apoptosis | Q42813889 | ||
Metabolic engineering of glyoxalase pathway for enhancing stress tolerance in plants | Q43101857 | ||
Tudor staphylococcal nuclease is an evolutionarily conserved component of the programmed cell death degradome | Q43263626 | ||
Arabidopsis metacaspase 2d is a positive mediator of cell death induced during biotic and abiotic stresses | Q43468711 | ||
Superoxide-mediated early oxidation and activation of ASK1 are important for initiating methylglyoxal-induced apoptosis process | Q43702887 | ||
The Escherichia coli cytochrome c maturation (Ccm) system does not detectably attach heme to single cysteine variants of an apocytochrome c. | Q44016921 | ||
Caspase-2 acts upstream of mitochondria to promote cytochrome c release during etoposide-induced apoptosis | Q44028668 | ||
Novel glyoxalases from Arabidopsis thaliana | Q44083491 | ||
Arabidopsis protein disulfide isomerase-5 inhibits cysteine proteases during trafficking to vacuoles before programmed cell death of the endothelium in developing seeds | Q44251369 | ||
VEIDase is a principal caspase-like activity involved in plant programmed cell death and essential for embryonic pattern formation. | Q44630766 | ||
Purification and characterization of serine proteases that exhibit caspase-like activity and are associated with programmed cell death in Avena sativa | Q44799823 | ||
Methylglyoxal induces apoptosis through activation of p38 MAPK in rat Schwann cells | Q44968288 | ||
Visualization of protein interactions in living plant cells using bimolecular fluorescence complementation | Q45094176 | ||
Two Arabidopsis metacaspases AtMCP1b and AtMCP2b are arginine/lysine-specific cysteine proteases and activate apoptosis-like cell death in yeast | Q45251284 | ||
Cytochrome c is released in a single step during apoptosis | Q46525688 | ||
Cytochrome c is released from coupled mitochondria of yeast en route to acetic acid-induced programmed cell death and can work as an electron donor and a ROS scavenger | Q46658299 | ||
Acetylsalicylic acid induces programmed cell death in Arabidopsis cell cultures. | Q46706758 | ||
Nuclear translocation of cytochrome c during apoptosis. | Q47793462 | ||
Developmental regulation of a VEIDase caspase-like proteolytic activity in barley caryopsis. | Q52004984 | ||
Substitution of lysine with glutamic acid at position 193 in bovine CYP11A1 significantly affects protein oligomerization and solubility but not enzymatic activity. | Q53319462 | ||
Arabidopsis NRP1 and NRP2 encode histone chaperones and are required for maintaining postembryonic root growth. | Q53586883 | ||
ER stress (PERK/eIF2alpha phosphorylation) mediates the polyglutamine-induced LC3 conversion, an essential step for autophagy formation. | Q53616050 | ||
A pepper (Capsicum annuum L.) metacaspase 9 (Camc9) plays a role in pathogen-induced cell death in plants. | Q54267060 | ||
A comparative kinetic analysis of the reactivity of plant, horse, and human respiratory cytochrome c towards cytochrome c oxidase. | Q54463246 | ||
Visualization of Protein Interactions in Living Cells Using Bimolecular Fluorescence Complementation (BiFC) Analysis | Q58010416 | ||
Hydrogen peroxide, nitric oxide and cytosolic ascorbate peroxidase at the crossroad between defence and cell death | Q59546135 | ||
Effect of methylglyoxal on human leukaemia 60 cell growth: Modification of DNA, G1 growth arrest and induction of apoptosis | Q60786659 | ||
S-fluorenylmethoxycarbonyl glutathione and diesters: inhibition of mammalian glyoxalase II. | Q64936857 | ||
Transient and specific expression of a cysteine endopeptidase associated with autolysis during differentiation of Zinnia mesophyll cells into tracheary elements | Q70973455 | ||
Induction of endothelial cell apoptosis by TNF alpha: modulation by inhibitors of protein synthesis | Q72716141 | ||
Hydrogen peroxide induces programmed cell death features in cultured tobacco BY-2 cells, in a dose-dependent manner | Q74293186 | ||
Programmed cell death in animal development | Q29616430 | ||
Interleukin-10 blocked endoplasmic reticulum stress in intestinal epithelial cells: impact on chronic inflammation | Q33269987 | ||
Transcript specificity in yeast pre-mRNA splicing revealed by mutations in core spliceosomal components | Q33280145 | ||
Design and implementation of bimolecular fluorescence complementation (BiFC) assays for the visualization of protein interactions in living cells | Q33280958 | ||
Phytaspase, a relocalisable cell death promoting plant protease with caspase specificity. | Q33752354 | ||
Yeast as a tool for apoptosis research | Q33801667 | ||
A peptide inhibitor of cytochrome c/inositol 1,4,5-trisphosphate receptor binding blocks intrinsic and extrinsic cell death pathways | Q33820142 | ||
Translocation of cytochrome c from the mitochondria to the cytosol occurs during heat-induced programmed cell death in cucumber plants | Q33883925 | ||
Specific splicing defects in S. pombe carrying a degron allele of the Survival of Motor Neuron gene | Q33914362 | ||
Characterization of EMU, the Arabidopsis homolog of the yeast THO complex member HPR1. | Q34075926 | ||
An alternative splicing network links cell-cycle control to apoptosis | Q34077168 | ||
Genomewide analysis of mRNA processing in yeast using splicing-specific microarrays | Q34126595 | ||
Cytochrome c binds to inositol (1,4,5) trisphosphate receptors, amplifying calcium-dependent apoptosis | Q34275661 | ||
The two Drosophila cytochrome C proteins can function in both respiration and caspase activation | Q34325016 | ||
Signal transduction in maize and Arabidopsis mesophyll protoplasts | Q34462897 | ||
Proteomics gives insight into the regulatory function of chloroplast thioredoxins | Q34468596 | ||
Apoptosomes: engines for caspase activation | Q35021215 | ||
RNA interference knockdown of hU2AF35 impairs cell cycle progression and modulates alternative splicing of Cdc25 transcripts | Q35128178 | ||
New nuclear functions of the glycolytic protein, glyceraldehyde-3-phosphate dehydrogenase, in mammalian cells | Q36072155 | ||
Temporal and spatial activation of caspase-like enzymes induced by self-incompatibility in Papaver pollen. | Q36157011 | ||
Affinity chromatography purification of cytochrome c binding enzymes | Q36291031 | ||
Phosphorylation of inositol 1,4,5-trisphosphate receptors by protein kinase B/Akt inhibits Ca2+ release and apoptosis | Q36497282 | ||
SMN deficiency causes tissue-specific perturbations in the repertoire of snRNAs and widespread defects in splicing | Q36746476 | ||
The ER luminal binding protein (BiP) mediates an increase in drought tolerance in soybean and delays drought-induced leaf senescence in soybean and tobacco | Q37118088 | ||
Living with death: the evolution of the mitochondrial pathway of apoptosis in animals. | Q37152726 | ||
Nonsense-mediated mRNA decay mutes the splicing defects of spliceosome component mutations | Q37426550 | ||
Identification of alternative splicing regulators by RNA interference in Drosophila | Q37619393 | ||
Oxidative stress and aging: is methylglyoxal the hidden enemy? | Q37731347 | ||
Overexpression of BiP in tobacco alleviates endoplasmic reticulum stress | Q38327294 | ||
Suppression of reactive oxygen species by glyceraldehyde-3-phosphate dehydrogenase | Q38504482 | ||
The redox state of the ascorbate-dehydroascorbate pair as a specific sensor of cell division in tobacco BY-2 cells | Q39920712 | ||
SAP155 Binds to ceramide-responsive RNA cis-element 1 and regulates the alternative 5' splice site selection of Bcl-x pre-mRNA. | Q40264404 | ||
p21-activated Kinase 1 (Pak1)-dependent phosphorylation of Raf-1 regulates its mitochondrial localization, phosphorylation of BAD, and Bcl-2 association | Q40431330 | ||
Methylglyoxal induces apoptosis in Jurkat leukemia T cells by activating c-Jun N-terminal kinase | Q40893010 | ||
Camptothecin causes cell cycle perturbations within T-lymphoblastoid cells followed by dose dependent induction of apoptosis | Q41076134 | ||
P433 | issue | 12 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Arabidopsis thaliana | Q158695 |
cell death | Q2383867 | ||
P304 | page(s) | 3666-3676 | |
P577 | publication date | 2013-12-01 | |
P1433 | published in | Molecular & Cellular Proteomics | Q6895932 |
P1476 | title | New Arabidopsis thaliana cytochrome c partners: a look into the elusive role of cytochrome c in programmed cell death in plants | |
P478 | volume | 12 |
Q42771806 | A common signalosome for programmed cell death in humans and plants |
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Q33716759 | Emerging roles of chromatin in the maintenance of genome organization and function in plants |
Q98164838 | Exploring protein phosphorylation by combining computational approaches and biochemical methods |
Q33558339 | Histone chaperone activity of Arabidopsis thaliana NRP1 is blocked by cytochrome c |
Q41673402 | Melatonin Protects Cultured Tobacco Cells against Lead-Induced Cell Death via Inhibition of Cytochrome c Translocation. |
Q47243687 | Nuclear cytochrome c - a mitochondrial visitor regulating damaged chromatin dynamics |
Q62745833 | Oxidative stress is tightly regulated by cytochrome phosphorylation and respirasome factors in mitochondria |
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Q24314984 | Respiratory complexes III and IV can each bind two molecules of cytochrome c at low ionic strength |
Q28387284 | Structural and functional analysis of novel human cytochrome C targets in apoptosis |
Q33569296 | Structural basis of mitochondrial dysfunction in response to cytochrome c phosphorylation at tyrosine 48 |
Q46855089 | TRANSLOCASE OF THE INNER MEMBRANE9 and 10 are essential for maintaining mitochondrial function during early embryo cell and endosperm free nucleus divisions in Arabidopsis |
Q94594539 | Wheel and Deal in the Mitochondrial Inner Membranes: The Tale of Cytochrome c and Cardiolipin |
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