scholarly article | Q13442814 |
P356 | DOI | 10.1074/JBC.M308055200 |
P698 | PubMed publication ID | 12917412 |
P2093 | author name string | Daniel A Colón-Ramos | |
Bruce Kaplan | |||
Eugene C Gan | |||
Michael R Olson | |||
Sally Kornbluth | |||
Christopher L Holley | |||
P2860 | cites work | Reaper-induced apoptosis in a vertebrate system | Q33887900 |
Scythe: a novel reaper-binding apoptotic regulator. | Q33889778 | ||
GH3, a novel proapoptotic domain in Drosophila Grim, promotes a mitochondrial death pathway | Q34089594 | ||
grim, a novel cell death gene in Drosophila | Q34387981 | ||
Mitochondria in apoptosis and human disease | Q34567374 | ||
Altered cytochrome c display precedes apoptotic cell death in Drosophila | Q36255805 | ||
The role of ARK in stress-induced apoptosis in Drosophila cells | Q36324432 | ||
The proapoptotic function of Drosophila Hid is conserved in mammalian cells | Q36333384 | ||
Inhibition of reaper-induced apoptosis by interaction with inhibitor of apoptosis proteins (IAPs). | Q36583948 | ||
Genetic control of programmed cell death in Drosophila | Q38468332 | ||
Unrestrained caspase-dependent cell death caused by loss of Diap1 function requires the Drosophila Apaf-1 homolog, Dark | Q39647181 | ||
Induction of apoptosis by Drosophila reaper, hid and grim through inhibition of IAP function | Q40387062 | ||
Control of the cell death pathway by Dapaf-1, a Drosophila Apaf-1/CED-4-related caspase activator | Q40908820 | ||
HAC-1, a Drosophila homolog of APAF-1 and CED-4 functions in developmental and radiation-induced apoptosis | Q40908826 | ||
Dark is a Drosophila homologue of Apaf-1/CED-4 and functions in an evolutionarily conserved death pathway | Q40918502 | ||
The Drosophila gene hid is a direct molecular target of Ras-dependent survival signaling | Q40995001 | ||
Apoptosis induced by Drosophila reaper and grim in a human system. Attenuation by inhibitor of apoptosis proteins (cIAPs). | Q41011027 | ||
The Drosophila caspase inhibitor DIAP1 is essential for cell survival and is negatively regulated by HID. | Q41689719 | ||
Drosophila grim induces apoptosis in mammalian cells. | Q42662756 | ||
Reaper is regulated by IAP-mediated ubiquitination. | Q44226073 | ||
Degradation of DIAP1 by the N-end rule pathway is essential for regulating apoptosis. | Q44401479 | ||
Hid, Rpr and Grim negatively regulate DIAP1 levels through distinct mechanisms | Q46902175 | ||
Cell killing by the Drosophila gene reaper | Q47070113 | ||
Ras promotes cell survival in Drosophila by downregulating hid expression | Q47070193 | ||
Morgue mediates apoptosis in the Drosophila melanogaster retina by promoting degradation of DIAP1. | Q47070254 | ||
The head involution defective gene of Drosophila melanogaster functions in programmed cell death | Q47070937 | ||
The DIAP1 RING finger mediates ubiquitination of Dronc and is indispensable for regulating apoptosis | Q47071463 | ||
Regulation of Drosophila IAP1 degradation and apoptosis by reaper and ubcD1. | Q47072202 | ||
Drosophila Morgue is an F box/ubiquitin conjugase domain protein important for grim-reaper mediated apoptosis | Q48303855 | ||
Distinct cell killing properties of the Drosophila reaper, head involution defective, and grim genes. | Q52181655 | ||
Reversible inhibition of Hsp70 chaperone function by Scythe and Reaper | Q24545641 | ||
Smac, a mitochondrial protein that promotes cytochrome c-dependent caspase activation by eliminating IAP inhibition | Q28115131 | ||
Identification of DIABLO, a mammalian protein that promotes apoptosis by binding to and antagonizing IAP proteins | Q28117928 | ||
A novel ubiquitin fusion system bypasses the mitochondria and generates biologically active Smac/DIABLO | Q28201640 | ||
Characterization of the signal that directs Bcl-x(L), but not Bcl-2, to the mitochondrial outer membrane | Q28580739 | ||
Reaper eliminates IAP proteins through stimulated IAP degradation and generalized translational inhibition | Q29035696 | ||
The biochemistry of apoptosis | Q29547741 | ||
Characterization of XIAP-deficient mice | Q33559119 | ||
P433 | issue | 45 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Reaper Dmel_CG4319 | Q29818445 |
P304 | page(s) | 44758-44768 | |
P577 | publication date | 2003-08-13 | |
P1433 | published in | Journal of Biological Chemistry | Q867727 |
P1476 | title | A GH3-like domain in reaper is required for mitochondrial localization and induction of IAP degradation | |
P478 | volume | 278 |
Q39838763 | A lepidopteran orthologue of reaper reveals functional conservation and evolution of IAP antagonists |
Q38672394 | Apoptosis in Drosophila: which role for mitochondria? |
Q34346968 | Apoptosis, Stem Cells, and Tissue Regeneration |
Q38936698 | Apoptotic Caspases in Promoting Cancer: Implications from Their Roles in Development and Tissue Homeostasis |
Q37494540 | By design or by chance: cell death during Drosophila embryogenesis |
Q41872250 | CDK7 regulates the mitochondrial localization of a tail-anchored proapoptotic protein, Hid |
Q46447694 | Cloning and functional characterizations of an apoptogenic Hid gene in the Scuttle Fly, Megaselia scalaris (Diptera; Phoridae). |
Q35005603 | Drosophila IAP antagonists form multimeric complexes to promote cell death |
Q40122308 | Drosophila Omi, a mitochondrial-localized IAP antagonist and proapoptotic serine protease. |
Q34348346 | Drosophila larvae lacking the bcl-2 gene, buffy, are sensitive to nutrient stress, maintain increased basal target of rapamycin (Tor) signaling and exhibit characteristics of altered basal energy metabolism |
Q34346695 | Eggs over easy: cell death in the Drosophila ovary |
Q38773463 | Induction of cell death by tospoviral protein NSs and the motif critical for cell death does not control RNA silencing suppression activity |
Q37500083 | Inside an enigma: do mitochondria contribute to cell death in Drosophila? |
Q36955417 | Lack of involvement of mitochondrial factors in caspase activation in a Drosophila cell-free system |
Q47878238 | Mechanism of action of Drosophila Reaper in mammalian cells: Reaper globally inhibits protein synthesis and induces apoptosis independent of mitochondrial permeability. |
Q34360469 | Michelob_x is the missing inhibitor of apoptosis protein antagonist in mosquito genomes |
Q35165455 | Mitochondria in apoptosis: Bcl-2 family members and mitochondrial dynamics. |
Q30504143 | Mitochondrial fusion is regulated by Reaper to modulate Drosophila programmed cell death |
Q37800527 | Mitochondrial involvement in cell death of non-mammalian eukaryotes |
Q40052989 | Mitochondrial localization of Reaper to promote inhibitors of apoptosis protein degradation conferred by GH3 domain-lipid interactions |
Q33721855 | Monomerization of cytosolic mature smac attenuates interaction with IAPs and potentiation of caspase activation |
Q38893753 | Programmed cell death acts at different stages of Drosophila neurodevelopment to shape the central nervous system. |
Q42009642 | Reaper homologue IBM1 in silkworm Bombyx mori induces apoptosis upon baculovirus infection |
Q36274969 | Reawakening the cellular death program in neoplasia through the therapeutic blockade of IAP function |
Q26782579 | Regulation of Cell Death by IAPs and Their Antagonists |
Q34988884 | Regulation of Drosophila melanogaster pro-apoptotic gene hid. |
Q37147749 | Regulation of apoptosis in Drosophila |
Q35830140 | Role of mitochondrial remodeling in programmed cell death in Drosophila melanogaster |
Q35678287 | Screening of suppressors of bax-induced cell death identifies glycerophosphate oxidase-1 as a mediator of debcl-induced apoptosis in Drosophila. |
Q36178805 | The need to connect: on the cell biology of synapses, behaviors, and networks in science |
Q35151449 | The rb pathway and cancer therapeutics |
Q36602674 | The role of mitochondria in apoptosis*. |
Q42205706 | grim promotes programmed cell death of Drosophila microchaete glial cells |
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