Affinage

CASP8AP2

CASP8-associated protein 2 · UniProt Q9UKL3

Length
1982 aa
Mass
222.7 kDa
Annotated
2026-06-09
100 papers in source corpus 10 papers cited in narrative 10 extracted findings
Cross-family judge vs UniProt: Affinage preferred faithfulness: 5/5 claims corpus-supported (100%)

Mechanistic narrative

Synthesis pass · prose summary of the discoveries below

CASP8AP2/FLASH is a large multifunctional nuclear protein whose principal role is to drive replication-dependent histone gene transcription during S phase: it is an essential component of histone gene locus bodies (HLBs), where it associates with NPAT and occupies histone gene promoters, and its depletion disrupts these nuclear bodies, collapses histone pre-mRNA synthesis, and arrests cells in S phase (PMID:17003125, PMID:18677100). This transcriptional function is built on a complex including the transcription factor p73, and is required for development, as homozygous loss of FLASH causes mouse embryonic lethality at the morula stage (PMID:21725362). FLASH was originally identified through a CED-4-like oligomerization motif and a death-effector-domain-interacting region that recruits it to the Fas/CD95 DISC to promote caspase-8 activation (PMID:10235259); upon CD95 stimulation it exits PML/Sp100 nuclear bodies and accumulates at mitochondria via a caspase- and Crm1-dependent nuclear export pathway, where its translocation is required for efficient CD95-induced apoptosis (PMID:17245429). Beyond these core roles, FLASH activates NF-κB through direct binding to TRAF2 (PMID:11340079) and stabilizes ZEB1 by protecting it from SIAH1/FBXO45-mediated proteasomal degradation, thereby supporting TGF-β-induced epithelial-to-mesenchymal transition (PMID:27526108). Its broad transcriptional influence is reflected in genome-wide gene-expression changes—including deregulated histone, NF-κB and MYC target genes—upon its silencing (PMID:22216762).

Mechanistic history

Synthesis pass · year-by-year structured walk · 10 steps
  1. 1999 Medium

    Established FLASH as a DISC-associated apoptotic regulator, answering whether a CED-4-like/DED-binding protein links Fas to caspase-8 activation.

    Evidence cDNA cloning, co-immunoprecipitation, and truncation/cell-death assays in cell lines

    PMID:10235259

    Open questions at the time
    • Endogenous requirement at the DISC not demonstrated by loss-of-function
    • Direct biochemical mechanism of caspase-8 oligomerization by FLASH unresolved
  2. 2001 Medium

    Showed FLASH also feeds into inflammatory/survival signaling by mapping a TRAF2-binding region required for NF-κB activation, expanding its role beyond apoptosis.

    Evidence Antisense knockdown, NF-κB luciferase reporter, Co-IP, GST pulldown, deletion mapping

    PMID:11340079

    Open questions at the time
    • Downstream NF-κB target genes not defined in this study
    • Relationship between cytoplasmic NF-κB role and nuclear localization unclear
  3. 2006 High

    Reframed FLASH as a nuclear histone-transcription factor, answering what its predominant cellular function is by linking it to Cajal bodies, NPAT, and S-phase progression.

    Evidence RNAi, immunofluorescence, ChIP, and FACS cell-cycle analysis

    PMID:17003125

    Open questions at the time
    • Molecular mechanism by which FLASH activates histone promoters not detailed
    • Whether apoptotic and transcriptional roles are mechanistically connected unresolved
  4. 2007 High

    Resolved how nuclear FLASH participates in apoptosis by demonstrating CD95-triggered, caspase- and Crm1-dependent nuclear export from Sp100/PML bodies to mitochondria.

    Evidence Co-IP, RNAi, fractionation, leptomycin B nuclear-export inhibition, apoptosis assays

    PMID:17245429

    Open questions at the time
    • Trigger coupling nuclear retention to export not fully defined
    • Mitochondrial caspase-8 activation mechanism not biochemically reconstituted
  5. 2008 Medium

    Refined the nuclear-body assignment by distinguishing FLASH/NPAT-positive histone locus bodies from coilin Cajal bodies and tying their number to ploidy and cell cycle.

    Evidence Multi-marker immunofluorescence and cell-cycle analysis

    PMID:18677100

    Open questions at the time
    • Functional consequence of HLB number/ploidy correlation untested
    • Single-lab localization study
  6. 2011 High

    Demonstrated the developmental indispensability of FLASH and identified p73 as a partner in the histone-transcription complex.

    Evidence Gene-trap mouse knockout with embryo staging plus Co-IP

    PMID:21725362

    Open questions at the time
    • Whether lethality is solely due to histone-transcription failure not separated from other roles
    • Functional contribution of p73 to histone gene output not quantified
  7. 2011 Medium

    Identified PIAS1 as a co-regulator enhancing FLASH transcriptional activity and c-Myb co-activation, linking FLASH to broader transcription at active Pol II foci.

    Evidence Yeast two-hybrid, GST pulldown, Co-IP, ChIP, reporter assays, immunofluorescence

    PMID:21338522

    Open questions at the time
    • Whether SUMOylation of FLASH mediates the effect untested
    • Physiological relevance of c-Myb co-activation not established
  8. 2012 Medium

    Defined the genome-wide consequences of FLASH loss, confirming histone gene deregulation as the dominant effect and revealing impacts on NF-κB/MYC programs and NEFH induction.

    Evidence RNAi with microarray, RNA-seq time course, and RT-qPCR validation

    PMID:22216762

    Open questions at the time
    • Direct vs. indirect targets not distinguished
    • NEFH/AKT/β-catenin axis is correlative
  9. 2012 Low

    Placed CASP8AP2 in a stem-cell cytoprotection pathway as a miR-210 target relevant to anoxia survival.

    Evidence Luciferase reporter (miR-210 3'UTR targeting), siRNA knockdown, anoxia survival assays in mesenchymal stem cells

    PMID:22482882

    Open questions at the time
    • Single primary assay with indirect mechanistic placement
    • Molecular mediator of cytoprotection not identified
    • Not independently confirmed
  10. 2016 Medium

    Connected FLASH to EMT by showing it shields ZEB1 from SIAH1/FBXO45-mediated proteasomal degradation, linking it to TGF-β signaling and chemosensitivity.

    Evidence RNAi, Co-IP, proteasome degradation assays, EMT migration/invasion and chemosensitivity assays

    PMID:27526108

    Open questions at the time
    • Mechanism by which FLASH blocks ligase access to ZEB1 unresolved
    • Whether this is direct or via FLASH transcriptional output unclear

Open questions

Synthesis pass · forward-looking unresolved questions
  • How FLASH's distinct activities—histone transcription, DISC/apoptosis, NF-κB activation, and ZEB1 stabilization—are coordinated within one protein and switched between compartments remains unresolved.
  • No unifying structural or domain-level model integrating its roles
  • Regulation of partition between nuclear transcription and cytoplasmic/mitochondrial apoptotic function not defined

Mechanism profile

Synthesis pass · controlled-vocabulary classification · explore literature graph →
Molecular activity
GO:0140110 transcription regulator activity 4 GO:0060089 molecular transducer activity 2 GO:0140313 molecular sequestering activity 1
Localization
GO:0005634 nucleus 3 GO:0005730 nucleolus 2 GO:0005739 mitochondrion 1 GO:0005829 cytosol 1
Pathway
R-HSA-74160 Gene expression (Transcription) 3 R-HSA-1640170 Cell Cycle 2 R-HSA-5357801 Programmed Cell Death 2 R-HSA-162582 Signal Transduction 1
Partners
CASP8FADDNPATP73PIAS1SP100TRAF2ZEB1
Complex memberships
Fas/CD95 DISChistone gene locus body (HLB)

Evidence

Reading pass · 10 per-paper findings extracted from the source corpus
Year Finding Method Journal Conf PMIDs
1999 FLASH (CASP8AP2) was identified as a large protein containing a CED-4-like oligomerization motif and a death-effector domain-interacting (DRD) region that binds caspase-8 or the adapter protein FADD; stimulated Fas recruits FLASH to the DISC, transient expression of full-length FLASH activates caspase-8, and overexpression of truncated FLASH (single DRD or CED-4-like domain alone) blocks Fas-mediated apoptosis. Full-length FLASH also blocks the anti-apoptotic effect of adenovirus E1B19K. cDNA cloning, co-immunoprecipitation, transient overexpression/truncation analysis, cell-death assays in cell lines Nature Medium 10235259
2001 FLASH activates NF-κB through a TRAF2-dependent pathway. Antisense inhibition of FLASH abolished TNF-α-induced NF-κB activation; overexpression of FLASH dose-dependently activated NF-κB; co-immunoprecipitation demonstrated FLASH–TRAF2 interaction; deletion mapping identified residues 856–1191 of FLASH as sufficient for NF-κB activation and direct TRAF2 binding in vitro and in transfected cells. Antisense oligonucleotide knockdown, NF-κB luciferase reporter assay, co-immunoprecipitation, GST pulldown, deletion mapping The Journal of biological chemistry Medium 11340079
2006 FLASH is an essential component of Cajal bodies and associates with NPAT (nuclear protein, ataxia-telangiectasia locus), a component of the cell-cycle-dependent histone gene transcription machinery. RNAi knockdown of FLASH disrupts Cajal body architecture, causes relocalization of NPAT, reduces histone pre-mRNA transcription, and induces dramatic S-phase arrest. Chromatin immunoprecipitation showed FLASH occupies histone gene promoter sequences. RNA interference, immunofluorescence microscopy, ChIP, cell-cycle analysis (FACS) Proceedings of the National Academy of Sciences of the United States of America High 17003125
2007 FLASH interacts with the PML nuclear body component Sp100 and predominantly localizes to the nucleus and nuclear bodies (NBs). Upon CD95 activation, FLASH exits the NBs, translocates to the cytoplasm, and accumulates at mitochondria via a caspase-dependent, Crm1-dependent nuclear export pathway. Knockdown of FLASH by RNAi or inhibition of its nucleo-cytoplasmic shuttling reduces CD95-induced apoptosis. Adenoviral E1B19K traps FLASH and procaspase-8 in a ternary complex at mitochondria, blocking CD95-induced caspase-8 activation. Knockdown of Sp100 potentiated CD95 apoptosis by enhancing FLASH translocation. Co-immunoprecipitation, RNA interference, immunofluorescence/subcellular fractionation, nuclear export inhibition (leptomycin B), apoptosis assays The EMBO journal High 17245429
2008 FLASH and NPAT mark histone gene locus bodies (HLBs) distinct from coilin-positive Cajal bodies in mammalian cells. The number of FLASH/NPAT-positive HLBs (but not coilin-positive Cajal bodies) correlates with cell ploidy and is regulated during the cell cycle, with the two organelle types completely co-localizing during S phase. Immunofluorescence microscopy with antibodies against FLASH, NPAT, and coilin; cell-cycle analysis Cell cycle (Georgetown, Tex.) Medium 18677100
2011 FLASH is essential for early embryogenesis; homozygous deletion of FLASH in mice causes lethality at the morula stage. In vitro, the transcription factor p73 binds to FLASH and is part of the complex regulating histone gene transcription, establishing a p73–FLASH interaction required for proper S-phase histone gene expression. Gene trap mouse knockout, co-immunoprecipitation (p73–FLASH interaction), embryo staging, histone transcription assays Oncogene High 21725362
2011 PIAS1 (a SUMO E3 ligase) interacts with FLASH via two distinct surfaces. FLASH and PIAS1 co-localize in nuclear speckles. PIAS1 enhances the intrinsic transcriptional activity of FLASH in a RING finger-dependent manner, and cooperates with FLASH to co-activate the transcription factor c-Myb; all three proteins co-localize with active RNA polymerase II foci. Yeast two-hybrid screen, GST pulldown, co-immunoprecipitation, ChIP, immunofluorescence, transcriptional reporter assays Molecular cancer Medium 21338522
2012 RNAi silencing of CASP8AP2/FLASH in colorectal cancer cells alters expression of >2500 genes, prominently deregulating replication-dependent histone genes (causing polyadenylated, non-canonical histone transcripts), and also affecting NF-κB and MYC target genes. FLASH loss-of-function also induces expression of the tumor suppressor NEFH, a regulator of the AKT1/β-catenin pathway. RNAi knockdown, microarray gene expression profiling, whole-transcriptome sequencing at multiple time points, RT-qPCR validation Molecular cancer Medium 22216762
2016 FLASH (CASP8AP2) protects ZEB1 from proteasomal degradation mediated by the ubiquitin ligases SIAH1 and FBXO45. Loss of FLASH rapidly destabilized ZEB1, reversed EMT cellular characteristics, blocked TGF-β-induced EMT, and enhanced sensitivity to chemotherapy. RNAi knockdown, co-immunoprecipitation, ubiquitin-proteasome degradation assays, EMT functional assays (migration/invasion), chemotherapy sensitivity assays Oncogenesis Medium 27526108
2012 miR-210 targets CASP8AP2 mRNA (validated by luciferase reporter assay), and knockdown of Casp8ap2 in mesenchymal stem cells reduces their survival under lethal anoxia; simultaneous abrogation of both Casp8ap2 and Pdcd10 has a stronger effect on cell death than either alone, indicating Casp8ap2 functions in stem cell cytoprotection during ischemic preconditioning via a pathway parallel to miR-107/PDCD10. Luciferase reporter assay (miR-210 targeting of Casp8ap2 3'UTR), siRNA knockdown, cell survival assays under anoxia Antioxidants & redox signaling Low 22482882

Source papers

Stage 0 corpus · 100 papers · ranked by NIH iCite citations
Year Title Journal Citations PMID
2012 FLASH assembly of TALENs for high-throughput genome editing. Nature biotechnology 849 22484455
1998 Apaf1 (CED-4 homolog) regulates programmed cell death in mammalian development. Cell 766 9753320
2018 The Advantage of FLASH Radiotherapy Confirmed in Mini-pig and Cat-cancer Patients. Clinical cancer research : an official journal of the American Association for Cancer Research 553 29875213
1997 Interaction of CED-4 with CED-3 and CED-9: a molecular framework for cell death. Science (New York, N.Y.) 540 9027312
2019 Treatment of a first patient with FLASH-radiotherapy. Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology 488 31303340
1990 The Caenorhabditis elegans genes ced-3 and ced-4 act cell autonomously to cause programmed cell death. Developmental biology 473 2307287
2020 Ultra-High Dose Rate (FLASH) Radiotherapy: Silver Bullet or Fool's Gold? Frontiers in oncology 330 32010633
1999 Human CARD4 protein is a novel CED-4/Apaf-1 cell death family member that activates NF-kappaB. The Journal of biological chemistry 307 10224040
1997 Interaction and regulation of subcellular localization of CED-4 by CED-9. Science (New York, N.Y.) 304 9027313
1999 Dark is a Drosophila homologue of Apaf-1/CED-4 and functions in an evolutionarily conserved death pathway. Nature cell biology 289 10559939
1997 Interaction between the C. elegans cell-death regulators CED-9 and CED-4. Nature 267 9024666
2019 FLASH Irradiation Spares Lung Progenitor Cells and Limits the Incidence of Radio-induced Senescence. Clinical cancer research : an official journal of the American Association for Cancer Research 233 31796518
1998 Essential role of CED-4 oligomerization in CED-3 activation and apoptosis. Science (New York, N.Y.) 225 9721101
2000 Translocation of C. elegans CED-4 to nuclear membranes during programmed cell death. Science (New York, N.Y.) 202 10688797
1999 The CED-4-homologous protein FLASH is involved in Fas-mediated activation of caspase-8 during apoptosis. Nature 196 10235259
2009 Hot flash: TRPV channels in the brain. Trends in neurosciences 194 19285736
2005 Structure of the CED-4-CED-9 complex provides insights into programmed cell death in Caenorhabditis elegans. Nature 178 16208361
2020 FLASH Radiotherapy: Current Knowledge and Future Insights Using Proton-Beam Therapy. International journal of molecular sciences 170 32899466
2001 Programmed cell death mediated by ced-3 and ced-4 protects Caenorhabditis elegans from Salmonella typhimurium-mediated killing. Proceedings of the National Academy of Sciences of the United States of America 164 11226309
1997 Caenorhabditis elegans CED-4 stimulates CED-3 processing and CED-3-induced apoptosis. Current biology : CB 157 9210374
2021 FLASH Proton Radiotherapy Spares Normal Epithelial and Mesenchymal Tissues While Preserving Sarcoma Response. Cancer research 148 34321243
2021 Radiobiology of the FLASH effect. Medical physics 133 34426981
1996 An alternatively spliced C. elegans ced-4 RNA encodes a novel cell death inhibitor. Cell 128 8706125
2021 Flash Synthesis of Spherical Nucleic Acids with Record DNA Density. Journal of the American Chemical Society 123 33599474
1997 CED-4 induces chromatin condensation in Schizosaccharomyces pombe and is inhibited by direct physical association with CED-9. Current biology : CB 114 9094313
1997 Interaction and regulation of the Caenorhabditis elegans death protease CED-3 by CED-4 and CED-9. The Journal of biological chemistry 113 9261161
2007 Surveying polypeptide and protein domain conformation and association with FlAsH and ReAsH. Nature chemical biology 110 17982447
2006 FLASH is required for histone transcription and S-phase progression. Proceedings of the National Academy of Sciences of the United States of America 110 17003125
2022 FLASH X-ray spares intestinal crypts from pyroptosis initiated by cGAS-STING activation upon radioimmunotherapy. Proceedings of the National Academy of Sciences of the United States of America 93 36256824
1998 Caenorhabditis elegans EGL-1 disrupts the interaction of CED-9 with CED-4 and promotes CED-3 activation. The Journal of biological chemistry 91 9837929
2011 Graphene flash memory. ACS nano 89 21854056
2004 Structural, biochemical, and functional analyses of CED-9 recognition by the proapoptotic proteins EGL-1 and CED-4. Molecular cell 84 15383288
2002 Flash-cooling and annealing of protein crystals. Acta crystallographica. Section D, Biological crystallography 83 11856832
2003 A complex II defect affects mitochondrial structure, leading to ced-3- and ced-4-dependent apoptosis and aging. The Journal of biological chemistry 79 12672828
2012 The core apoptotic executioner proteins CED-3 and CED-4 promote initiation of neuronal regeneration in Caenorhabditis elegans. PLoS biology 77 22629231
1990 Flash photolysis studies of excitation-contraction coupling, regulation, and contraction in smooth muscle. Annual review of physiology 76 2184779
2020 Antigen retrieval and clearing for whole-organ immunofluorescence by FLASH. Nature protocols 73 33247285
2021 Model studies of the role of oxygen in the FLASH effect. Medical physics 72 34407219
2021 Ultra-High Dose Rate (FLASH) Carbon Ion Irradiation: Dosimetry and First Cell Experiments. International journal of radiation oncology, biology, physics 72 34813912
1997 Direct physical interaction between the Caenorhabditis elegans 'death proteins' CED-3 and CED-4. FEBS letters 71 9109415
2008 FLASH and NPAT positive but not Coilin positive Cajal Bodies correlate with cell ploidy. Cell cycle (Georgetown, Tex.) 66 18677100
2007 FLASH links the CD95 signaling pathway to the cell nucleus and nuclear bodies. The EMBO journal 66 17245429
2001 CLAN, a novel human CED-4-like gene. Genomics 65 11472070
2021 FLASH Dose Rate Helium Ion Beams: First In Vitro Investigations. International journal of radiation oncology, biology, physics 59 34343608
2023 Ultra-high dose-rate proton FLASH improves tumor control. Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology 54 37315577
2025 FLASH radiation reprograms lipid metabolism and macrophage immunity and sensitizes medulloblastoma to CAR-T cell therapy. Nature cancer 53 39910249
2016 Mitochondrial Flash: Integrative Reactive Oxygen Species and pH Signals in Cell and Organelle Biology. Antioxidants & redox signaling 53 27245241
2011 Evidence that CED-9/Bcl2 and CED-4/Apaf-1 localization is not consistent with the current model for C. elegans apoptosis induction. Cell death and differentiation 52 21886181
2007 Effect of flash release and pectinolytic enzyme treatments on wine polysaccharide composition. Journal of agricultural and food chemistry 51 17629303
2014 Design and synthesis of a FlAsH-type Mg2+ fluorescent probe for specific protein labeling. Journal of the American Chemical Society 49 24447167
2000 Disruption of the CED-9.CED-4 complex by EGL-1 is a critical step for programmed cell death in Caenorhabditis elegans. The Journal of biological chemistry 48 10846174
2022 Review of Semiconductor Flash Memory Devices for Material and Process Issues. Advanced materials (Deerfield Beach, Fla.) 46 35305277
2023 The origins of the full-field flash electroretinogram b-wave. Frontiers in molecular neuroscience 42 37465364
2024 Acute Hypoxia Does Not Alter Tumor Sensitivity to FLASH Radiation Therapy. International journal of radiation oncology, biology, physics 41 38387809
2022 Mitochondrial Damage Response and Fate of Normal Cells Exposed to FLASH Irradiation with Protons. Radiation research 41 35290449
2020 FLASH: Fluorescently LAbelled Sensitive Hydrogel to monitor bioscaffolds degradation during neocartilage generation. Biomaterials 41 33099133
2021 A FLASH pipeline for arrayed CRISPR library construction and the gene function discovery of rice receptor-like kinases. Molecular plant 40 34619328
2001 FLASH coordinates NF-kappa B activity via TRAF2. The Journal of biological chemistry 40 11340079
2006 Matefin/SUN-1 is a nuclear envelope receptor for CED-4 during Caenorhabditis elegans apoptosis. Proceedings of the National Academy of Sciences of the United States of America 39 16938876
1999 Proapoptotic activity of Caenorhabditis elegans CED-4 protein in Drosophila: implicated mechanisms for caspase activation. Proceedings of the National Academy of Sciences of the United States of America 38 9874786
2022 Quantifying the DNA-damaging Effects of FLASH Irradiation With Plasmid DNA. International journal of radiation oncology, biology, physics 37 35124135
2022 Radiobiological Aspects of FLASH Radiotherapy. Biomolecules 37 36291585
2016 FLASH protects ZEB1 from degradation and supports cancer cells' epithelial-to-mesenchymal transition. Oncogenesis 37 27526108
2006 Restriction of vaccinia virus replication by a ced-3 and ced-4-dependent pathway in Caenorhabditis elegans. Proceedings of the National Academy of Sciences of the United States of America 37 16537504
2012 Systems-wide RNAi analysis of CASP8AP2/FLASH shows transcriptional deregulation of the replication-dependent histone genes and extensive effects on the transcriptome of colorectal cancer cells. Molecular cancer 35 22216762
2007 Protein labeling with FlAsH and ReAsH. Methods in molecular biology (Clifton, N.J.) 34 16988405
2024 FLASH Radiotherapy: Expectations, Challenges, and Current Knowledge. International journal of molecular sciences 33 38473799
2012 Concomitant activation of miR-107/PDCD10 and hypoxamir-210/Casp8ap2 and their role in cytoprotection during ischemic preconditioning of stem cells. Antioxidants & redox signaling 33 22482882
2007 Hypoxic preconditioning requires the apoptosis protein CED-4 in C. elegans. Current biology : CB 33 17980592
2008 ced-4 and proto-oncogene tfg-1 antagonistically regulate cell size and apoptosis in C. elegans. Current biology : CB 32 18635357
2021 Ultrahigh dose-rate (FLASH) x-ray irradiator for pre-clinical laboratory research. Physics in medicine and biology 31 33780922
2013 Mechanistic insights into CED-4-mediated activation of CED-3. Genes & development 30 24065769
2022 In vitro assays for investigating the FLASH effect. Expert reviews in molecular medicine 27 35225211
2000 The Caenorhabditis elegans sex determination protein FEM-1 is a CED-3 substrate that associates with CED-4 and mediates apoptosis in mammalian cells. The Journal of biological chemistry 26 10764728
2024 Immune Response following FLASH and Conventional Radiation in Diffuse Midline Glioma. International journal of radiation oncology, biology, physics 25 38364947
2011 FLASH is essential during early embryogenesis and cooperates with p73 to regulate histone gene transcription. Oncogene 25 21725362
1997 Mutational analysis of the interacting cell death regulators CED-9 and CED-4. Cell death and differentiation 25 14555965
2018 Scalable Production of Therapeutic Protein Nanoparticles Using Flash Nanoprecipitation. Advanced healthcare materials 24 30338666
1998 E1B 19,000-molecular-weight protein interacts with and inhibits CED-4-dependent, FLICE-mediated apoptosis. Molecular and cellular biology 24 9742122
2020 Polymeric Nanocarrier Formulations of Biologics Using Inverse Flash NanoPrecipitation. The AAPS journal 23 31897899
2011 PIAS1 interacts with FLASH and enhances its co-activation of c-Myb. Molecular cancer 23 21338522
2006 2:1 Stoichiometry of the CED-4-CED-9 complex and the tetrameric CED-4: insights into the regulation of CED-3 activation. Cell cycle (Georgetown, Tex.) 22 16294007
2023 Clinical Linear Accelerator-Based Electron FLASH: Pathway for Practical Translation to FLASH Clinical Trials. International journal of radiation oncology, biology, physics 21 37105403
2006 CED-4 forms a 2 : 2 heterotetrameric complex with CED-9 until specifically displaced by EGL-1 or CED-13. Cell death and differentiation 21 16167070
2022 First Human Cell Experiments With FLASH Carbon Ions. Anticancer research 20 35489744
2011 Cap-independent translation promotes C. elegans germ cell apoptosis through Apaf-1/CED-4 in a caspase-dependent mechanism. PloS one 19 21909434
2021 ROAD: ROtational direct Aperture optimization with a Decoupled ring-collimator for FLASH radiotherapy. Physics in medicine and biology 18 33207321
2020 FLASH: ultra-fast protocol to identify RNA-protein interactions in cells. Nucleic acids research 17 31802123
2017 Time course analysis of RNA quality in placenta preserved by RNAlater or flash freezing. American journal of reproductive immunology (New York, N.Y. : 1989) 17 28138995
2007 FLASH meets nuclear bodies: CD95 receptor signals via a nuclear pathway. Cell cycle (Georgetown, Tex.) 17 17377497
2024 The Potential and Challenges of Proton FLASH in Head and Neck Cancer Reirradiation. Cancers 16 39409872
2021 Treatment Planning System for Electron FLASH Radiation Therapy: Open-Source for Clinical Implementation. International journal of radiation oncology, biology, physics 16 34762969
2023 Initial experience with an electron FLASH research extension (FLEX) for the Clinac system. Journal of applied clinical medical physics 15 37735808
2023 Preclinical Ultra-High Dose Rate (FLASH) Proton Radiation Therapy System for Small Animal Studies. Advances in radiation oncology 15 38379895
2022 Sustainable valorization of asphaltenes via flash joule heating. Science advances 15 36399576
1999 Oligomerized Ced-4 kills budding yeast through a caspase-independent mechanism. Biochemical and biophysical research communications 15 10403845
2025 Mechanisms of the FLASH effect: current insights and advances. Frontiers in cell and developmental biology 14 40417178
2023 FLASH-RT does not affect chromosome translocations and junction structures beyond that of CONV-RT dose-rates. Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology 14 37690668
2018 Dynein links engulfment and execution of apoptosis via CED-4/Apaf1 in C. elegans. Cell death & disease 14 30262881
2017 Low miR-210 and CASP8AP2 expression is associated with a poor outcome in pediatric acute lymphoblastic leukemia. Oncology letters 14 29250188

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