scholarly article | Q13442814 |
P50 | author | Jan Ellenberg | Q1296661 |
Gwénaël Rabut | Q73167809 | ||
P2093 | author name string | Valérie Doye | |
P2860 | cites work | Interference with the cytoplasmic tail of gp210 disrupts "close apposition" of nuclear membranes and blocks nuclear pore dilation | Q36323654 |
Distinct functional domains within nucleoporins Nup153 and Nup98 mediate transcription-dependent mobility. | Q37221202 | ||
Automatic real-time three-dimensional cell tracking by fluorescence microscopy. | Q40498221 | ||
Peering through the Pore | Q56687975 | ||
An evolutionarily conserved NPC subcomplex, which redistributes in part to kinetochores in mammalian cells | Q24291708 | ||
The entire Nup107-160 complex, including three new members, is targeted as one entity to kinetochores in mitosis | Q24293196 | ||
The nuclear pore complex protein ALADIN is mislocalized in triple A syndrome | Q24301071 | ||
Proteomic analysis of the mammalian nuclear pore complex | Q24305242 | ||
Nucleoporins nup98 and nup214 participate in nuclear export of human immunodeficiency virus type 1 Rev | Q24516934 | ||
Nup153 is an M9-containing mobile nucleoporin with a novel Ran-binding domain | Q24534076 | ||
Nup50, a nucleoplasmically oriented nucleoporin with a role in nuclear protein export | Q24552769 | ||
Sec13 Shuttles between the Nucleus and the Cytoplasm and Stably Interacts with Nup96 at the Nuclear Pore Complex | Q24652948 | ||
Nuclear pore complexes form immobile networks and have a very low turnover in live mammalian cells | Q24654097 | ||
Nup2p dynamically associates with the distal regions of the yeast nuclear pore complex | Q27933375 | ||
The nucleoporin Nup60p functions as a Gsp1p-GTP-sensitive tether for Nup2p at the nuclear pore complex | Q27940163 | ||
Npap60/Nup50 is a tri-stable switch that stimulates importin-alpha:beta-mediated nuclear protein import | Q28217732 | ||
Removal of a Single Pore Subcomplex Results in Vertebrate Nuclei Devoid of Nuclear Pores | Q28584248 | ||
Limited expression of nuclear pore membrane glycoprotein 210 in cell lines and tissues suggests cell-type specific nuclear pores in metazoans | Q28592367 | ||
From molecular to modular cell biology | Q29547493 | ||
Transport into and out of the nucleus | Q29615611 | ||
Systems analysis of Ran transport | Q30308563 | ||
Nup98 is a mobile nucleoporin with transcription-dependent dynamics | Q30475776 | ||
Caenorhabditis elegans nucleoporins Nup93 and Nup205 determine the limit of nuclear pore complex size exclusion in vivo | Q30493941 | ||
Quantitation of GFP-fusion proteins in single living cells | Q31121835 | ||
Kinetic analysis of translocation through nuclear pore complexes | Q33938174 | ||
A kinetic framework for a mammalian RNA polymerase in vivo | Q34160479 | ||
The conserved Nup107-160 complex is critical for nuclear pore complex assembly | Q34191822 | ||
Using FRAP and mathematical modeling to determine the in vivo kinetics of nuclear proteins. | Q35051219 | ||
The cytoplasmic filaments of the nuclear pore complex are dispensable for selective nuclear protein import | Q36323649 | ||
P4510 | describes a project that uses | NRK-EGFP2-Nup50 | Q54931032 |
NRK-EGFP3-Seh1 | Q54931033 | ||
NRK-Pom121-EGFP3 | Q54931037 | ||
P433 | issue | 11 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | cell line | Q21014462 |
P304 | page(s) | 1114-1121 | |
P577 | publication date | 2004-10-24 | |
P1433 | published in | Nature Cell Biology | Q1574111 |
P1476 | title | Mapping the dynamic organization of the nuclear pore complex inside single living cells | |
P478 | volume | 6 |
Q37975715 | 3D ultrastructure of the nuclear pore complex |
Q34637848 | A Nup133-dependent NPC-anchored network tethers centrosomes to the nuclear envelope in prophase. |
Q46309943 | A coarse-grained computational model of the nuclear pore complex predicts Phe-Gly nucleoporin dynamics. |
Q34649355 | A conserved role for human Nup98 in altering chromatin structure and promoting epigenetic transcriptional memory |
Q30538538 | A fluorescent reporter for mapping cellular protein-protein interactions in time and space. |
Q42579639 | A lattice model of the nuclear pore complex |
Q29026303 | A size-exclusion permeability barrier and nucleoporins characterize a ciliary pore complex that regulates transport into cilia |
Q64899915 | Age-dependent deterioration of nuclear pore assembly in mitotic cells decreases transport dynamics. |
Q28572651 | Age-dependent deterioration of nuclear pore complexes causes a loss of nuclear integrity in postmitotic cells |
Q34307623 | An assay for clogging the ciliary pore complex distinguishes mechanisms of cytosolic and membrane protein entry. |
Q30480522 | An in vitro nuclear disassembly system reveals a role for the RanGTPase system and microtubule-dependent steps in nuclear envelope breakdown |
Q34829704 | Analysis of binding at a single spatially localized cluster of binding sites by fluorescence recovery after photobleaching. |
Q28236310 | Analysis of the cellular uptake and nuclear delivery of insulin-like growth factor binding protein-3 in human osteosarcoma cells |
Q38918475 | Analysis of the initiation of nuclear pore assembly by ectopically targeting nucleoporins to chromatin |
Q27656977 | Architectural nucleoporins Nup157/170 and Nup133 are structurally related and descend from a second ancestral element. |
Q34991450 | BGLF4 kinase modulates the structure and transport preference of the nuclear pore complex to facilitate nuclear import of Epstein-Barr virus lytic proteins |
Q27340192 | Biased assembly of the nuclear pore complex is required for somatic and germline nuclear differentiation in Tetrahymena |
Q35195849 | Biology and biophysics of the nuclear pore complex and its components |
Q36854854 | Capture of AT-rich chromatin by ELYS recruits POM121 and NDC1 to initiate nuclear pore assembly |
Q36056461 | Capturing directed molecular motion in the nuclear pore complex of live cells |
Q33919822 | Cell cycle-dependent differences in nuclear pore complex assembly in metazoa |
Q53554488 | Cell nuclei spin in the absence of lamin b1. |
Q30538536 | Cell type-specific nuclear pores: a case in point for context-dependent stoichiometry of molecular machines |
Q38546403 | Chromatin at the nuclear periphery and the regulation of genome functions |
Q35196941 | Chromatin organization at the nuclear pore favours HIV replication |
Q37147256 | Chromatin organization in relation to the nuclear periphery |
Q92320341 | Chromatin targeting of nuclear pore proteins induces chromatin decondensation |
Q33652562 | Chromatin-bound nuclear pore components regulate gene expression in higher eukaryotes |
Q36479682 | Chromatin-prebound Crm1 recruits Nup98-HoxA9 fusion to induce aberrant expression of Hox cluster genes. |
Q57793606 | Coaching from the sidelines: the nuclear periphery in genome regulation |
Q34504243 | Comparative assessment of fluorescent transgene methods for quantitative imaging in human cells |
Q42551766 | Contribution of host nucleoporin 62 in HIV-1 integrase chromatin association and viral DNA integration |
Q30498216 | Controlled and stochastic retention concentrates dynein at microtubule ends to keep endosomes on track |
Q24681614 | DNA damage-dependent acetylation and ubiquitination of H2AX enhances chromatin dynamics |
Q34368610 | Defects in nuclear pore assembly lead to activation of an Aurora B-mediated abscission checkpoint |
Q33354517 | Depletion of nucleoporins from HeLa nuclear pore complexes to facilitate the production of ghost pores for in vitro reconstitution |
Q40856277 | Diffusion and retention are major determinants of protein targeting to the inner nuclear membrane |
Q35816088 | Discrimination of Kinetic Models by a Combination of Microirradiation and Fluorescence Photobleaching. |
Q35594443 | Dissecting protein reaction dynamics in living cells by fluorescence recovery after photobleaching. |
Q38020021 | Dissecting the NUP107 complex: multiple components and even more functions |
Q43229462 | Dissecting the contribution of diffusion and interactions to the mobility of nuclear proteins |
Q54967259 | Distinct 'safe zones' at the nuclear envelope ensure robust replication of heterochromatic chromosome regions. |
Q41894800 | Dynamic as well as stable protein interactions contribute to genome function and maintenance |
Q26851949 | Dynamics and diverse functions of nuclear pore complex proteins |
Q36534603 | Dynamics of inner kinetochore assembly and maintenance in living cells |
Q34922480 | Early embryonic requirement for nucleoporin Nup35/NPP-19 in nuclear assembly. |
Q30570680 | Early endosome motility spatially organizes polysome distribution |
Q36955935 | Evolution of a transcriptional regulator from a transmembrane nucleoporin |
Q33985534 | Formation of the postmitotic nuclear envelope from extended ER cisternae precedes nuclear pore assembly |
Q27012895 | From hypothesis to mechanism: uncovering nuclear pore complex links to gene expression |
Q36119056 | Functional association of Sun1 with nuclear pore complexes |
Q36938513 | Functional insights from studies on the structure of the nuclear pore and coat protein complexes |
Q37804574 | Functional interactions between nucleoporins and chromatin |
Q37373601 | Functionalization of a nanopore: the nuclear pore complex paradigm |
Q42359419 | HOXA repression is mediated by nucleoporin Nup93 assisted by its interactors Nup188 and Nup205. |
Q30274627 | Human Nup98 regulates the localization and activity of DExH/D-box helicase DHX9 |
Q31103609 | Human nucleoporins promote HIV-1 docking at the nuclear pore, nuclear import and integration |
Q42770841 | Identification and characterization of nuclear pore complex components in Arabidopsis thaliana. |
Q40368060 | Identification and functional evaluation of cellular and viral factors involved in the alteration of nuclear architecture during herpes simplex virus 1 infection. |
Q37502230 | Identification of a novel putative interaction partner of the nucleoporin ALADIN. |
Q21245225 | Identification of biomolecule mass transport and binding rate parameters in living cells by inverse modeling |
Q37210826 | Identification of long-lived proteins reveals exceptional stability of essential cellular structures |
Q28552694 | Identifying Aspects of the Post-Transcriptional Program Governing the Proteome of the Green Alga Micromonas pusilla |
Q92376139 | Imaging within single NPCs reveals NXF1's role in mRNA export on the cytoplasmic side of the pore |
Q42554903 | Importin beta regulates the seeding of chromatin with initiation sites for nuclear pore assembly |
Q35222521 | Importin-β modulates the permeability of the nuclear pore complex in a Ran-dependent manner |
Q35914920 | In vivo Polycomb kinetics and mitotic chromatin binding distinguish stem cells from differentiated cells |
Q41050714 | In vivo analysis of protein crowding within the nuclear pore complex in interphase and mitosis |
Q30483279 | In vivo dynamics of Drosophila nuclear envelope components |
Q42837578 | In vivo induction of postsynaptic molecular assembly by the cell adhesion molecule Fasciclin2. |
Q37028383 | Insights into the gate of the nuclear pore complex |
Q42961294 | Integral nuclear pore proteins bind to Pol III-transcribed genes and are required for Pol III transcript processing in C. elegans |
Q30654034 | Intranuclear dynamics of the Nup107-160 complex. |
Q41792151 | Linker Nups connect the nuclear pore complex inner ring with the outer ring and transport channel |
Q34191649 | Live imaging of single nuclear pores reveals unique assembly kinetics and mechanism in interphase |
Q55382071 | Local and global influences on protein turnover in neurons and glia. |
Q30499284 | Localization of Pom121 to the inner nuclear membrane is required for an early step of interphase nuclear pore complex assembly |
Q37983428 | Many mechanisms, one entrance: membrane protein translocation into the nucleus |
Q47177290 | Mechanisms of nuclear pore complex assembly - two different ways of building one molecular machine |
Q38861862 | Metazoan Nuclear Pores Provide a Scaffold for Poised Genes and Mediate Induced Enhancer-Promoter Contacts |
Q26801484 | Misdelivery at the Nuclear Pore Complex-Stopping a Virus Dead in Its Tracks |
Q34937233 | Modular coherence of protein dynamics in yeast cell polarity system |
Q27657972 | Molecular architecture of the Nup84–Nup145C–Sec13 edge element in the nuclear pore complex lattice |
Q27672566 | Molecular basis for Nup37 and ELY5/ELYS recruitment to the nuclear pore complex |
Q40159368 | Molecular tools for cell and systems biology |
Q30524014 | Motor-driven motility of fungal nuclear pores organizes chromosomes and fosters nucleocytoplasmic transport |
Q37971171 | Multiscale dynamics in nucleocytoplasmic transport. |
Q48079364 | NUCLEAR PORE ANCHOR, the Arabidopsis homolog of Tpr/Mlp1/Mlp2/megator, is involved in mRNA export and SUMO homeostasis and affects diverse aspects of plant development |
Q88582581 | NUP98 Sets the Size-Exclusion Diffusion Limit through the Ciliary Base |
Q38139657 | New insights in the role of nucleoporins: a bridge leading to concerted steps from HIV-1 nuclear entry until integration |
Q37628233 | Nuclear Import of Hepatitis B Virus Capsids and Genome |
Q46965501 | Nuclear Pores Regulate Muscle Development and Maintenance by Assembling a Localized Mef2C Complex. |
Q37049064 | Nuclear architecture and chromatin dynamics revealed by atomic force microscopy in combination with biochemistry and cell biology |
Q35194606 | Nuclear envelope and genome interactions in cell fate |
Q30480491 | Nuclear import time and transport efficiency depend on importin beta concentration. |
Q37341459 | Nuclear pore assembly proceeds by an inside-out extrusion of the nuclear envelope. |
Q37105260 | Nuclear pore complex assembly through the cell cycle: regulation and membrane organization |
Q37518507 | Nuclear pore complex biogenesis |
Q38054510 | Nuclear pore complex composition: a new regulator of tissue-specific and developmental functions |
Q27324534 | Nuclear pore complex protein mediated nuclear localization of dicer protein in human cells |
Q37133895 | Nuclear pore complex proteins mark the implantation window in human endometrium |
Q36829705 | Nuclear pore complexes: guardians of the nuclear genome |
Q33984209 | Nuclear pore complexes: round the bend? |
Q84741755 | Nuclear pore formation but not nuclear growth is governed by cyclin-dependent kinases (Cdks) during interphase |
Q56530177 | Nuclear pore heterogeneity influences HIV-1 infection and the antiviral activity of MX2 |
Q38183531 | Nuclear pore interactions with the genome |
Q28085670 | Nuclear pore proteins and the control of genome functions |
Q27348460 | Nuclear pore proteins nup153 and megator define transcriptionally active regions in the Drosophila genome |
Q39676048 | Nuclear reformation after mitosis requires downregulation of the Ran GTPase effector RanBP1 in mammalian cells |
Q37725706 | Nuclear transport and the mitotic apparatus: an evolving relationship |
Q46035646 | Nucleoplasmic Nup98 controls gene expression by regulating a DExH/D-box protein. |
Q35876274 | Nucleoporin NUP153 guards genome integrity by promoting nuclear import of 53BP1 |
Q35018068 | Nucleoporin NUP153 phenylalanine-glycine motifs engage a common binding pocket within the HIV-1 capsid protein to mediate lentiviral infectivity |
Q27675889 | Nucleoporin Nup50 Stabilizes Closed Conformation of Armadillo repeat 10 in Importin 5 |
Q37416644 | Nucleoporin-mediated regulation of cell identity genes. |
Q33535903 | Nucleoporins and transcription: new connections, new questions |
Q90627698 | Nucleoporins in cardiovascular disease |
Q48144118 | Nucleoporins redistribute inside the nucleus after cell cycle arrest induced by histone deacetylases inhibition |
Q88785788 | Nup133 Is Required for Proper Nuclear Pore Basket Assembly and Dynamics in Embryonic Stem Cells |
Q48333916 | Nup153 and Nup50 promote recruitment of 53BP1 to DNA repair foci by antagonizing BRCA1-dependent events. |
Q57793293 | Nup2 performs diverse interphase functions in Aspergillus nidulans |
Q34081450 | Nup50 is required for cell differentiation and exhibits transcription-dependent dynamics |
Q30445728 | Nup50/Npap60 function in nuclear protein import complex disassembly and importin recycling |
Q48367765 | Nup82 functions redundantly with Nup136 in a salicylic acid-dependent defense response of Arabidopsis thaliana |
Q34218467 | Nup98 promotes antiviral gene expression to restrict RNA viral infection in Drosophila |
Q47263068 | Nup98 recruits the Wdr82-Set1A/COMPASS complex to promoters to regulate H3K4 trimethylation in hematopoietic progenitor cells. |
Q42607685 | Nups take leave of the nuclear envelope to regulate transcription |
Q33941203 | OSBP-related protein 8 (ORP8) regulates plasma and liver tissue lipid levels and interacts with the nucleoporin Nup62 |
Q38045081 | Outfits for different occasions: tissue-specific roles of Nuclear Envelope proteins |
Q33822225 | Perspective on the metazoan nuclear pore complex |
Q34636115 | Phosphomimetic mutation of the mitotically phosphorylated serine 1880 compromises the interaction of the transmembrane nucleoporin gp210 with the nuclear pore complex |
Q34412386 | Pom121 links two essential subcomplexes of the nuclear pore complex core to the membrane |
Q92489451 | Poor old pores-The challenge of making and maintaining nuclear pore complexes in aging |
Q37169825 | Porin new light onto chromatin and nuclear organization |
Q33790144 | Probing nuclear pore complex architecture with proximity-dependent biotinylation. |
Q38665815 | Protein Interaction Analysis Provides a Map of the Spatial and Temporal Organization of the Ciliary Gating Zone |
Q28281856 | Protein homeostasis: live long, won't prosper |
Q39986782 | Purification and characterization of native human insulin-like growth factor binding protein-6. |
Q50691703 | Quantification of amyloid precursor protein and tau for the study of axonal traffic pathways. |
Q36972639 | Quantifying nucleoporin stoichiometry inside single nuclear pore complexes in vivo |
Q48925951 | Quantitative four-dimensional tracking of cytoplasmic and nuclear HIV-1 complexes |
Q28586399 | Regulation of ubiquitin ligase dynamics by the nucleolus |
Q24311565 | Reshaping of the endoplasmic reticulum limits the rate for nuclear envelope formation |
Q28260340 | Role of ALADIN in human adrenocortical cells for oxidative stress response and steroidogenesis |
Q92062161 | Role of Nucleoporins and Transport Receptors in Cell Differentiation |
Q27678757 | Scaffold nucleoporins Nup188 and Nup192 share structural and functional properties with nuclear transport receptors |
Q33979961 | Silencing nuclear pore protein Tpr elicits a senescent-like phenotype in cancer cells |
Q28508939 | Silencing of OSBP-related protein 8 (ORP8) modifies the macrophage transcriptome, nucleoporin p62 distribution, and migration capacity |
Q34478878 | Simple fold composition and modular architecture of the nuclear pore complex |
Q38597555 | Single molecule study of the intrinsically disordered FG-repeat nucleoporin 153. |
Q30482446 | Single-molecule measurements of importin alpha/cargo complex dissociation at the nuclear pore |
Q35668898 | Specific armadillo repeat sequences facilitate β-catenin nuclear transport in live cells via direct binding to nucleoporins Nup62, Nup153, and RanBP2/Nup358. |
Q52327533 | Stoichiometry and compositional plasticity of the yeast nuclear pore complex revealed by quantitative fluorescence microscopy. |
Q27652713 | Structural Evidence for Common Ancestry of the Nuclear Pore Complex and Vesicle Coats |
Q27650918 | Structural and Functional Studies of Nup107/Nup133 Interaction and Its Implications for the Architecture of the Nuclear Pore Complex |
Q27661891 | Structural and functional analysis of the interaction between the nucleoporin Nup98 and the mRNA export factor Rae1 |
Q37231242 | Structure, dynamics and function of nuclear pore complexes |
Q38959354 | Super-resolution mapping of scaffold nucleoporins in the nuclear pore complex |
Q49959074 | Systematic analysis of protein turnover in primary cells. |
Q40006347 | Systematic kinetic analysis of mitotic dis- and reassembly of the nuclear pore in living cells. |
Q47194986 | TDP-43 pathology disrupts nuclear pore complexes and nucleocytoplasmic transport in ALS/FTD. |
Q33786241 | The C. elegans homolog of nucleoporin Nup98 is required for the integrity and function of germline P granules |
Q38003158 | The HIV-1 passage from cytoplasm to nucleus: the process involving a complex exchange between the components of HIV-1 and cellular machinery to access nucleus and successful integration. |
Q38769890 | The Nuclear Pore Complex as a Flexible and Dynamic Gate |
Q36385778 | The Nup153-Nup50 protein interface and its role in nuclear import. |
Q38789393 | The Structure Inventory of the Nuclear Pore Complex |
Q27646452 | The Structure of the Scaffold Nucleoporin Nup120 Reveals a New and Unexpected Domain Architecture |
Q38191409 | The diverse roles of the Nup93/Nic96 complex proteins - structural scaffolds of the nuclear pore complex with additional cellular functions. |
Q39379246 | The in vivo dynamic organization of BRCA1-A complex proteins at DNA damage-induced nuclear foci |
Q27938646 | The integral membrane protein Pom34p functionally links nucleoporin subcomplexes |
Q27938827 | The karyopherin Kap95 regulates nuclear pore complex assembly into intact nuclear envelopes in vivo |
Q40786339 | The mobile FG nucleoporin Nup98 is a cofactor for Crm1-dependent protein export |
Q36448558 | The new nucleoporin: regulator of transcriptional repression and beyond |
Q24634678 | The nuclear envelope |
Q26853003 | The nuclear envelope as a chromatin organizer |
Q35635044 | The nuclear envelope in genome organization, expression and stability |
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Q64881075 | The nuclear export inhibitor aminoratjadone is a potent effector in extracellular-targeted drug conjugates. |
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Q37419583 | The nuclear pore complex has entered the atomic age. |
Q42591520 | The nuclear pore complex: a new dynamic in HIV-1 replication |
Q39044994 | The nuclear pore complex: understanding its function through structural insight |
Q35829982 | The nucleoporin Nup153 regulates embryonic stem cell pluripotency through gene silencing |
Q35184426 | The nucleoporin gp210/Nup210 controls muscle differentiation by regulating nuclear envelope/ER homeostasis |
Q27930507 | The nucleoporins Nup170p and Nup157p are essential for nuclear pore complex assembly |
Q41813566 | The overexpression of nuclear envelope protein Lap2β induces endoplasmic reticulum reorganisation via membrane stacking |
Q35995251 | The potential of high-content high-throughput microscopy in drug discovery |
Q35140243 | The requirement for nucleoporin NUP153 during human immunodeficiency virus type 1 infection is determined by the viral capsid. |
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Q37306669 | The role of nuclear pores in gene regulation, development and disease |
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Q37049119 | Three siblings with triple A syndrome with a novel frameshift mutation in the AAAS gene and a review of 17 independent patients with the frequent p.Ser263Pro mutation |
Q30494436 | Three-dimensional distribution of transient interactions in the nuclear pore complex obtained from single-molecule snapshots |
Q37019644 | Toward a high-resolution view of nuclear dynamics |
Q59136995 | Triple A patient cells suffering from mitotic defects fail to localize PGRMC1 to mitotic kinetochore fibers |
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Q36785617 | What can Caenorhabditis elegans tell us about the nuclear envelope? |
Q51600751 | [Time shapes the cell]. |
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