scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1039734334 |
P356 | DOI | 10.1038/SJ.CDD.4400837 |
P698 | PubMed publication ID | 11423910 |
P5875 | ResearchGate publication ID | 11916451 |
P50 | author | Dirk Görlich | Q30528426 |
P2093 | author name string | Nicotera P | |
Ferrando-May E | |||
Cordes V | |||
Biller-Ckovric I | |||
Mirkovic J | |||
P2860 | cites work | Molecular characterization of mitochondrial apoptosis-inducing factor | Q22001452 |
Molecular segments of protein Tpr that confer nuclear targeting and association with the nuclear pore complex | Q22008049 | ||
Functional analysis of Tpr: identification of nuclear pore complex association and nuclear localization domains and a role in mRNA export | Q22008581 | ||
Acinus is a caspase-3-activated protein required for apoptotic chromatin condensation | Q22010542 | ||
Transport between the cell nucleus and the cytoplasm | Q22065411 | ||
Nuclear envelope permeability | Q22122423 | ||
A novel ubiquitin-like modification modulates the partitioning of the Ran-GTPase-activating protein RanGAP1 between the cytosol and the nuclear pore complex | Q24310068 | ||
Cytochrome c and dATP-dependent formation of Apaf-1/caspase-9 complex initiates an apoptotic protease cascade | Q24311006 | ||
Catalysis of guanine nucleotide exchange on Ran by the mitotic regulator RCC1 | Q24311327 | ||
Export of importin alpha from the nucleus is mediated by a specific nuclear transport factor | Q24316152 | ||
A giant nucleopore protein that binds Ran/TC4 | Q24317506 | ||
A small ubiquitin-related polypeptide involved in targeting RanGAP1 to nuclear pore complex protein RanBP2 | Q24317523 | ||
Identification of protein p270/Tpr as a constitutive component of the nuclear pore complex-attached intranuclear filaments | Q24318735 | ||
Sequence and characterization of cytoplasmic nuclear protein import factor p97 | Q24318868 | ||
The human CAN protein, a putative oncogene product associated with myeloid leukemogenesis, is a nuclear pore complex protein that faces the cytoplasm | Q24323627 | ||
Sequence analysis of a cDNA encoding a human nuclear pore complex protein, hnup153 | Q24324042 | ||
The RCC1 protein, a regulator for the onset of chromosome condensation locates in the nucleus and binds to DNA | Q24339283 | ||
Caspases: the executioners of apoptosis | Q24530218 | ||
The large subunit of replication factor C is a substrate for caspase-3 in vitro and is cleaved by a caspase-3-like protease during Fas-mediated apoptosis | Q24532811 | ||
The novel SAR-binding domain of scaffold attachment factor A (SAF-A) is a target in apoptotic nuclear breakdown. | Q24532883 | ||
DEDD, a novel death effector domain-containing protein, targeted to the nucleolus | Q24533347 | ||
Nup153 is an M9-containing mobile nucleoporin with a novel Ran-binding domain | Q24534076 | ||
Activation of caspase-1 in the nucleus requires nuclear translocation of pro-caspase-1 mediated by its prodomain | Q41011097 | ||
Intracellular adenosine triphosphate (ATP) concentration: a switch in the decision between apoptosis and necrosis | Q41115305 | ||
Inhibition of human caspases by peptide-based and macromolecular inhibitors | Q42538024 | ||
Suppression of actinomycin D-induced apoptosis by the NS3 protein of hepatitis C virus | Q42806003 | ||
Regulation of nuclear transport in proliferating and quiescent cells | Q42811279 | ||
Prodomain-dependent nuclear localization of the caspase-2 (Nedd2) precursor. A novel function for a caspase prodomain | Q42826567 | ||
Separate nuclear import pathways converge on the nucleoporin Nup153 and can be dissected with dominant-negative inhibitors | Q44792760 | ||
Diffusion across the nuclear envelope inhibited by depletion of the nuclear Ca2+ store. | Q49028313 | ||
Interleukin-1 beta converting enzyme. | Q55065365 | ||
Essential role of active nuclear transport in apoptosis | Q73251599 | ||
Selective proteolysis of the nuclear replication factor MCM3 in apoptosis | Q74213891 | ||
Role of poly(ADP-ribose) synthetase in inflammation and ischaemia-reperfusion | Q77089411 | ||
RanGAP1 induces GTPase activity of nuclear Ras-related Ran | Q24564044 | ||
The nucleoporin nup153 plays a critical role in multiple types of nuclear export | Q24641817 | ||
RanGTP-mediated nuclear export of karyopherin alpha involves its interaction with the nucleoporin Nup153 | Q24644181 | ||
RanGTP targets p97 to RanBP2, a filamentous protein localized at the cytoplasmic periphery of the nuclear pore complex | Q24649249 | ||
Molecular and functional characterization of the p62 complex, an assembly of nuclear pore complex glycoproteins | Q24671748 | ||
Major binding sites for the nuclear import receptor are the internal nucleoporin Nup153 and the adjacent nuclear filament protein Tpr | Q24683280 | ||
Identification of NRF2, a member of the NF-E2 family of transcription factors, as a substrate for caspase-3(-like) proteases | Q28145527 | ||
Isolation of a protein that is essential for the first step of nuclear protein import | Q28243173 | ||
A caspase-activated DNase that degrades DNA during apoptosis, and its inhibitor ICAD | Q28258328 | ||
TAP, the human homolog of Mex67p, mediates CTE-dependent RNA export from the nucleus | Q28276214 | ||
Nup358, a cytoplasmically exposed nucleoporin with peptide repeats, Ran-GTP binding sites, zinc fingers, a cyclophilin A homologous domain, and a leucine-rich region | Q28566768 | ||
A nuclear pore complex protein that contains zinc finger motifs, binds DNA, and faces the nucleoplasm | Q28582932 | ||
Identification and characterization of a nuclear pore complex protein | Q29616069 | ||
Cell death: the significance of apoptosis | Q29617620 | ||
Distinct functions for the two importin subunits in nuclear protein import | Q29620112 | ||
Studies of the lamin proteinase reveal multiple parallel biochemical pathways during apoptotic execution | Q33882237 | ||
RanGTP-regulated interactions of CRM1 with nucleoporins and a shuttling DEAD-box helicase | Q33959492 | ||
Functional domains in nuclear import factor p97 for binding the nuclear localization sequence receptor and the nuclear pore | Q34669894 | ||
An octamer of histones in chromatin and free in solution | Q35083833 | ||
RanBP2 associates with Ubc9p and a modified form of RanGAP1 | Q36105014 | ||
The permeability of the nuclear envelope in dividing and nondividing cell cultures | Q36223246 | ||
In vivo analysis of the stability and transport of nuclear poly(A)+ RNA. | Q36234469 | ||
Chromatin condensation during apoptosis is accompanied by degradation of lamin A+B, without enhanced activation of cdc2 kinase | Q36234491 | ||
Interactions and three-dimensional localization of a group of nuclear pore complex proteins | Q36234494 | ||
Constitutive expression of the machinery for programmed cell death | Q36236957 | ||
Targeting and function in mRNA export of nuclear pore complex protein Nup153. | Q36237348 | ||
Intranuclear filaments containing a nuclear pore complex protein. | Q36534793 | ||
Splicing is required for rapid and efficient mRNA export in metazoans | Q36776804 | ||
Direct and indirect association of the small GTPase ran with nuclear pore proteins and soluble transport factors: studies in Xenopus laevis egg extracts. | Q37382182 | ||
Lymphocyte activation induces rapid changes in nuclear and cytoplasmic glycoproteins | Q37413972 | ||
RNA export | Q40400161 | ||
P433 | issue | 5 | |
P304 | page(s) | 495-505 | |
P577 | publication date | 2001-05-01 | |
P1433 | published in | Cell Death & Differentiation | Q2943974 |
P1476 | title | Caspases mediate nucleoporin cleavage, but not early redistribution of nuclear transport factors and modulation of nuclear permeability in apoptosis | |
P478 | volume | 8 |
Q51246229 | 5-Flurouracil disrupts nuclear export and nuclear pore permeability in a calcium dependent manner. |
Q30951290 | A multi-factor model for caspase degradome prediction |
Q43284474 | Alteration of the nuclear pore complex in Ca(2+)-mediated cell death. |
Q61638079 | Alterations in the nucleocytoplasmic transport in apoptosis: Caspases lead the way |
Q36837574 | Apoptosis leads to a degradation of vital components of active nuclear transport and a dissociation of the nuclear lamina |
Q55265243 | Apoptosis-Inducing Factor (AIF) in Physiology and Disease: The Tale of a Repented Natural Born Killer. |
Q40753178 | Caspase-2 can trigger cytochrome C release and apoptosis from the nucleus. |
Q39216629 | Caspases rule the intracellular trafficking cartel |
Q34467322 | Caspases target only two architectural components within the core structure of the nuclear pore complex |
Q36189670 | Cellular stress induces Bax-regulated nuclear bubble budding and rupture followed by nuclear protein release |
Q43172447 | Ceramide synthase 6 modulates TRAIL sensitivity and nuclear translocation of active caspase-3 in colon cancer cells. |
Q40598348 | Correlation between nucleocytoplasmic transport and caspase-3-dependent dismantling of nuclear pores during apoptosis. |
Q37728701 | Differential hepatoprotective mechanisms of rutin and quercetin in CCl(4)-intoxicated BALB/cN mice |
Q36483353 | Differential targeting of nuclear pore complex proteins in poliovirus-infected cells |
Q24304534 | Direct interaction with nup153 mediates binding of Tpr to the periphery of the nuclear pore complex |
Q30489286 | Dynamic release of nuclear RanGTP triggers TPX2-dependent microtubule assembly during the apoptotic execution phase |
Q44163225 | Erucylphosphocholine-induced apoptosis in glioma cells: involvement of death receptor signalling and caspase activation |
Q37282137 | Etoposide induced cytotoxicity mediated by ROS and ERK in human kidney proximal tubule cells |
Q40274032 | Expression and distribution of HSP27 in response to G418 in different human breast cancer cell lines |
Q39021916 | From the nucleus to the plasma membrane: translocation of the nuclear proteins histone H3 and lamin B1 in apoptotic microglia |
Q41970238 | GM1-ganglioside accumulation at the mitochondria-associated ER membranes links ER stress to Ca(2+)-dependent mitochondrial apoptosis |
Q33280982 | In vitro assay for the quantitation of apoptosis-induced alterations of nuclear envelope permeability |
Q73547330 | In vitro measurement of nuclear permeability changes in apoptosis |
Q35641245 | Influenza virus-induced caspase-dependent enlargement of nuclear pores promotes nuclear export of viral ribonucleoprotein complexes |
Q66829412 | Inhibition of active nuclear transport is an intrinsic trigger of programmed cell death in trypanosomatids |
Q34344113 | Inhibition of nuclear import and alteration of nuclear pore complex composition by rhinovirus |
Q35091412 | Many cuts to ruin: a comprehensive update of caspase substrates |
Q36537332 | Monitoring the disruption of nuclear envelopes in interphase cells with GFP-beta-galactosidase |
Q44847043 | Multiple mechanisms promote the inhibition of classical nuclear import upon exposure to severe oxidative stress |
Q52598302 | Nuclear entry of active caspase-3 is facilitated by its p3-recognition-based specific cleavage activity. |
Q57041989 | Nuclear expansion and pore opening are instant signs of neuronal hypoxia and can identify poorly fixed brains |
Q34489158 | Nuclear localisation of endogenous SUMO-1-modified PDGF-C in human thyroid tissue and cell lines |
Q42585387 | Nuclear pore complex during neuronal degeneration: cracking the last barrier! |
Q35656521 | Nuclear retention of importin α coordinates cell fate through changes in gene expression. |
Q34434945 | Nucleocytoplasmic traffic disorder induced by cardioviruses. |
Q36110567 | Nucleocytoplasmic transport in apoptosis |
Q33863261 | Nucleoplasmin regulates chromatin condensation during apoptosis |
Q24298298 | Nucleoporins as components of the nuclear pore complex core structure and Tpr as the architectural element of the nuclear basket |
Q44516185 | Oxidative stress induces nuclear loss of DNA repair proteins Ku70 and Ku80 and apoptosis in pancreatic acinar AR42J cells |
Q39821157 | Plasma membrane and nuclear envelope integrity during the blebbing stage of apoptosis: a time-lapse study |
Q40732879 | Polypyrimidine tract-binding proteins are cleaved by caspase-3 during apoptosis |
Q39289353 | Regulation of nuclear envelope permeability in cell death and survival |
Q39789593 | Regulation of stress-induced nuclear protein redistribution: a new function of Bax and Bak uncoupled from Bcl-x(L). |
Q37632783 | Roles of Atox1 and p53 in the trafficking of copper-64 to tumor cell nuclei: implications for cancer therapy |
Q43966285 | Single-cell fluorescence resonance energy transfer analysis demonstrates that caspase activation during apoptosis is a rapid process. Role of caspase-3. |
Q30670203 | Structural and functional analysis of cell adhesion and nuclear envelope nano-topography in cell death |
Q36517696 | The apoptosome: emerging insights and new potential targets for drug design |
Q36320929 | The limited role of NH2-terminal c-Jun phosphorylation in neuronal apoptosis: identification of the nuclear pore complex as a potential target of the JNK pathway. |
Q94464929 | The nuclear envelope: target and mediator of the apoptotic process |
Q36562688 | The nuclear pore complex, nuclear transport, and apoptosis |
Q52837904 | Transmission electron microscopic analysis of malathion-induced cytotoxicity in granulosa cells of caprine antral follicles. |
Q36373142 | Truncation of the TAR DNA-binding protein 43 is not a prerequisite for cytoplasmic relocalization, and is suppressed by caspase inhibition and by introduction of the A90V sequence variant |
Q36245336 | Versatility at the nuclear pore complex: lessons learned from the nucleoporin Nup153. |
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