scholarly article | Q13442814 |
P50 | author | Gaurav Goyal | Q57321608 |
P2093 | author name string | Richard J Youle | |
Apurva Sarin | |||
V Sriram | |||
Brennan Fell | |||
P2860 | cites work | Regulation of mitochondrial fission and apoptosis by the mitochondrial outer membrane protein hFis1 | Q24317456 |
Spatial and temporal association of Bax with mitochondrial fission sites, Drp1, and Mfn2 during apoptosis | Q24337576 | ||
Roles of the mammalian mitochondrial fission and fusion mediators Fis1, Drp1, and Opa1 in apoptosis | Q24562044 | ||
The mitochondrial ARTS protein promotes apoptosis through targeting XIAP | Q24610254 | ||
Caspase cleavage product of BAP31 induces mitochondrial fission through endoplasmic reticulum calcium signals, enhancing cytochrome c release to the cytosol | Q24675708 | ||
Targeted gene expression as a means of altering cell fates and generating dominant phenotypes | Q27861039 | ||
Cell death: critical control points | Q28240722 | ||
The expanding role of mitochondria in apoptosis | Q28609686 | ||
The role of dynamin-related protein 1, a mediator of mitochondrial fission, in apoptosis | Q29616568 | ||
Synaptic mitochondria are critical for mobilization of reserve pool vesicles at Drosophila neuromuscular junctions | Q29617065 | ||
Kinesin-1 and Dynein are the primary motors for fast transport of mitochondria in Drosophila motor axons | Q30477062 | ||
GH3, a novel proapoptotic domain in Drosophila Grim, promotes a mitochondrial death pathway | Q34089594 | ||
Death to flies: Drosophila as a model system to study programmed cell death | Q34693186 | ||
Apoptosomes: engines for caspase activation | Q35021215 | ||
Notch signaling in Drosophila long-term memory formation | Q35978827 | ||
Mechanisms of steroid-triggered programmed cell death in Drosophila | Q36083635 | ||
Mitochondrial fusion and fission in the control of apoptosis | Q36091971 | ||
The Drosophila melanogaster Apaf-1 homologue ARK is required for most, but not all, programmed cell death | Q36117235 | ||
How mitochondria fuse | Q36173518 | ||
Mitochondrial fission in apoptosis | Q36198122 | ||
Altered cytochrome c display precedes apoptotic cell death in Drosophila | Q36255805 | ||
Mitochondria and endoplasmic reticulum: the lethal interorganelle cross-talk | Q36259144 | ||
Mitochondrial morphology and dynamics in yeast and multicellular eukaryotes | Q36312221 | ||
The two cytochrome c species, DC3 and DC4, are not required for caspase activation and apoptosis in Drosophila cells | Q36322595 | ||
deep-orange and carnation define distinct stages in late endosomal biogenesis in Drosophila melanogaster | Q36323472 | ||
The role of ARK in stress-induced apoptosis in Drosophila cells | Q36324432 | ||
The role of cytochrome c in caspase activation in Drosophila melanogaster cells | Q36324465 | ||
The proapoptotic function of Drosophila Hid is conserved in mammalian cells | Q36333384 | ||
Lack of involvement of mitochondrial factors in caspase activation in a Drosophila cell-free system | Q36955417 | ||
Mitochondria are morphologically and functionally heterogeneous within cells. | Q39646958 | ||
Drp-1-dependent division of the mitochondrial network blocks intraorganellar Ca2+ waves and protects against Ca2+-mediated apoptosis | Q39697070 | ||
Ecdysone-mediated up-regulation of the effector caspase DRICE is required for hormone-dependent apoptosis in Drosophila cells. | Q40469641 | ||
Mitochondrial proliferation and paradoxical membrane depolarization during terminal differentiation and apoptosis in a human colon carcinoma cell line | Q41098628 | ||
DRP-1-mediated mitochondrial fragmentation during EGL-1-induced cell death in C. elegans | Q45270370 | ||
Activated mitofusin 2 signals mitochondrial fusion, interferes with Bax activation, and reduces susceptibility to radical induced depolarization | Q46477108 | ||
Drosophila homologs of baculovirus inhibitor of apoptosis proteins function to block cell death | Q46725238 | ||
A GH3-like domain in reaper is required for mitochondrial localization and induction of IAP degradation | Q47069979 | ||
The apical caspase dronc governs programmed and unprogrammed cell death in Drosophila | Q47070858 | ||
Caspase Activity and a Specific Cytochrome C Are Required for Sperm Differentiation in Drosophila | Q47071601 | ||
Three new Drosophila markers of intracellular membranes | Q47580713 | ||
Mutations in dynamin-related protein result in gross changes in mitochondrial morphology and affect synaptic vesicle recycling at the Drosophila neuromuscular junction. | Q48306302 | ||
Dynamic mitochondria. | Q52574314 | ||
Genetic control of programmed cell death in the nematode Caenorhabditis elegans. | Q54016389 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Drosophila melanogaster | Q130888 |
cell death | Q2383867 | ||
P1104 | number of pages | 10 | |
P304 | page(s) | 807-816 | |
P577 | publication date | 2007-05-01 | |
P1433 | published in | Developmental Cell | Q1524277 |
P1476 | title | Role of mitochondrial remodeling in programmed cell death in Drosophila melanogaster | |
P478 | volume | 12 |
Q36873690 | A genetic screen identifies new regulators of steroid-triggered programmed cell death in Drosophila |
Q38672394 | Apoptosis in Drosophila: which role for mitochondria? |
Q34987223 | Apoptosis-inducing factor: structure, function, and redox regulation |
Q34422799 | Bcl-2 proteins and autophagy regulate mitochondrial dynamics during programmed cell death in the Drosophila ovary |
Q37202353 | Bcl-x L increases mitochondrial fission, fusion, and biomass in neurons |
Q28576002 | Bcl-xL induces Drp1-dependent synapse formation in cultured hippocampal neurons |
Q41870429 | Caenorhabditis elegans drp-1 and fis-2 regulate distinct cell-death execution pathways downstream of ced-3 and independent of ced-9. |
Q47729229 | Cell death proteins: an evolutionary role in cellular adaptation before the advent of apoptosis. |
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Q37073547 | Fis1 deficiency selects for compensatory mutations responsible for cell death and growth control defects |
Q36967747 | Functions and dysfunctions of mitochondrial dynamics |
Q37242772 | Genetic control of programmed cell death (apoptosis) in Drosophila |
Q35229084 | Helicobacter pylori vacuolating cytotoxin A (VacA) engages the mitochondrial fission machinery to induce host cell death |
Q37171005 | Hsp60D is essential for caspase-mediated induced apoptosis in Drosophila melanogaster. |
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Q35165455 | Mitochondria in apoptosis: Bcl-2 family members and mitochondrial dynamics. |
Q37797396 | Mitochondria on Guard: Role of Mitochondrial Fusion and Fission in the Regulation of Apoptosis |
Q35637102 | Mitochondrial Fragmentation Due to Inhibition of Fusion Increases Cyclin B through Mitochondrial Superoxide Radicals |
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Q37693476 | Mutants for Drosophila Isocitrate Dehydrogenase 3b Are Defective in Mitochondrial Function and Larval Cell Death |
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Q38893753 | Programmed cell death acts at different stages of Drosophila neurodevelopment to shape the central nervous system. |
Q55360183 | Recruitment of mitofusin 2 into "lipid rafts" drives mitochondria fusion induced by Mdivi-1. |
Q36119051 | Regulation of the mitochondrial dynamin-like protein Opa1 by proteolytic cleavage |
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Q37251144 | Rhein protects pancreatic β-cells from dynamin-related protein-1-mediated mitochondrial fission and cell apoptosis under hyperglycemia |
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Q41889711 | Steroid-triggered, cell-autonomous death of a Drosophila motoneuron during metamorphosis |
Q27649021 | Structural basis for recruitment of mitochondrial fission complexes by Fis1 |
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Q35393803 | The role of IAP antagonist proteins in the core apoptosis pathway of the mosquito disease vector Aedes aegypti |
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