| scholarly article | Q13442814 |
| P2093 | author name string | V Doye | |
| C N Cole | |||
| N Belgareh | |||
| S Dagher | |||
| F Pasteau | |||
| C Snay-Hodge | |||
| P2860 | cites work | Identification of protein p270/Tpr as a constitutive component of the nuclear pore complex-attached intranuclear filaments | Q24318735 |
| Structural analysis of the p62 complex, an assembly of O-linked glycoproteins that localizes near the central gated channel of the nuclear pore complex | Q24320085 | ||
| Nup93, a vertebrate homologue of yeast Nic96p, forms a complex with a novel 205-kDa protein and is required for correct nuclear pore assembly | Q24322104 | ||
| The human homologue of yeast CRM1 is in a dynamic subcomplex with CAN/Nup214 and a novel nuclear pore component Nup88 | Q24322912 | ||
| The human CAN protein, a putative oncogene product associated with myeloid leukemogenesis, is a nuclear pore complex protein that faces the cytoplasm | Q24323627 | ||
| A complex of nuclear pore proteins required for pore function | Q24644288 | ||
| Isolation of the yeast nuclear pore complex | Q24651185 | ||
| Molecular and functional characterization of the p62 complex, an assembly of nuclear pore complex glycoproteins | Q24671748 | ||
| Cloning and characterization of human karyopherin beta3 | Q24680128 | ||
| Nup84, a novel nucleoporin that is associated with CAN/Nup214 on the cytoplasmic face of the nuclear pore complex | Q24680805 | ||
| A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding | Q25938984 | ||
| Nucleocytoplasmic transport of macromolecules | Q36574246 | ||
| In vitro reconstitution of a heterotrimeric nucleoporin complex consisting of recombinant Nsp1p, Nup49p, and Nup57p | Q40243200 | ||
| Toward the molecular dissection of protein import into nuclei | Q41066972 | ||
| Interaction of cellular proteins with the leukemia specific fusion proteins DEK-CAN and SET-CAN and their normal counterpart, the nucleoporin CAN. | Q41157997 | ||
| A new subclass of nucleoporins that functionally interact with nuclear pore protein NSP1 | Q41543814 | ||
| Nucleocytoplasmic transport: the last 200 nanometers | Q41708889 | ||
| In vivo nuclear transport kinetics in Saccharomyces cerevisiae: a role for heat shock protein 70 during targeting and translocation | Q42772500 | ||
| Differential mitotic phosphorylation of proteins of the nuclear pore complex. | Q46190811 | ||
| Analysis of nucleo-cytoplasmic transport in a thermosensitive mutant of nuclear pore protein NSP1 | Q58382319 | ||
| Relocation of the carboxyterminal part of CAN from the nuclear envelope to the nucleus as a result of leukemia-specific chromosome rearrangements | Q72245136 | ||
| A system of shuttle vectors and yeast host strains designed for efficient manipulation of DNA in Saccharomyces cerevisiae | Q27860636 | ||
| Pleiotropic nuclear defects associated with a conditional allele of the novel nucleoporin Rat9p/Nup85p | Q27929971 | ||
| A novel complex of nucleoporins, which includes Sec13p and a Sec13p homolog, is essential for normal nuclear pores | Q27930079 | ||
| NUP145 encodes a novel yeast glycine-leucine-phenylalanine-glycine (GLFG) nucleoporin required for nuclear envelope structure | Q27930563 | ||
| Mtr10p functions as a nuclear import receptor for the mRNA-binding protein Npl3p | Q27931616 | ||
| Kap104p: a karyopherin involved in the nuclear transport of messenger RNA binding proteins | Q27932702 | ||
| Nup120p: a yeast nucleoporin required for NPC distribution and mRNA transport | Q27932741 | ||
| Regulated nuclear translocation of the Mig1 glucose repressor | Q27933224 | ||
| Molecular architecture of the yeast nuclear pore complex: localization of Nsp1p subcomplexes | Q27933725 | ||
| Functional interaction of Nic96p with a core nucleoporin complex consisting of Nsp1p, Nup49p and a novel protein Nup57p | Q27934383 | ||
| A conditional allele of the novel repeat-containing yeast nucleoporin RAT7/NUP159 causes both rapid cessation of mRNA export and reversible clustering of nuclear pore complexes | Q27934541 | ||
| Two functionally distinct domains generated by in vivo cleavage of Nup145p: a novel biogenesis pathway for nucleoporins. | Q27935138 | ||
| The yeast nucleoporin Nup188p interacts genetically and physically with the core structures of the nuclear pore complex | Q27935273 | ||
| NUP82 is an essential yeast nucleoporin required for poly(A)+ RNA export | Q27936476 | ||
| Purification of NSP1 reveals complex formation with ‘GLFG’ nucleoporins and a novel nuclear pore protein NIC96 | Q27937202 | ||
| The essential yeast nucleoporin NUP159 is located on the cytoplasmic side of the nuclear pore complex and serves in karyopherin-mediated binding of transport substrate | Q27937661 | ||
| Nuclear pore complex clustering and nuclear accumulation of poly(A)+ RNA associated with mutation of the Saccharomyces cerevisiae RAT2/NUP120 gene. | Q27937777 | ||
| A structure/function analysis of Rat7p/Nup159p, an essential nucleoporin of Saccharomyces cerevisiae | Q27937837 | ||
| NSP1: a yeast nuclear envelope protein localized at the nuclear pores exerts its essential function by its carboxy-terminal domain | Q27938037 | ||
| A distinct and parallel pathway for the nuclear import of an mRNA-binding protein | Q27938430 | ||
| NSP1 depletion in yeast affects nuclear pore formation and nuclear accumulation | Q27938431 | ||
| A nuclear import pathway for a protein involved in tRNA maturation | Q27938639 | ||
| Two yeast nuclear pore complex proteins involved in mRNA export form a cytoplasmically oriented subcomplex | Q27939615 | ||
| Exportin 1 (Crm1p) is an essential nuclear export factor | Q27939696 | ||
| A novel nuclear pore protein Nup82p which specifically binds to a fraction of Nsp1p | Q27939976 | ||
| From nucleoporins to nuclear pore complexes | Q28238651 | ||
| The importin-beta family member Crm1p bridges the interaction between Rev and the nuclear pore complex during nuclear export | Q28254641 | ||
| Nucleocytoplasmic transport: signals, mechanisms and regulation | Q29547904 | ||
| Behavior of spindles and spindle plaques in the cell cycle and conjugation of Saccharomyces cerevisiae | Q29618381 | ||
| Two novel related yeast nucleoporins Nup170p and Nup157p: complementation with the vertebrate homologue Nup155p and functional interactions with the yeast nuclear pore-membrane protein Pom152p | Q29619290 | ||
| Identification and characterization of a yeast nucleolar protein that is similar to a rat liver nucleolar protein | Q29620543 | ||
| Synthetic lethality with fibrillarin identifies NOP77p, a nucleolar protein required for pre-rRNA processing and modification | Q29622954 | ||
| Transmission electron microscopy and immunocytochemical studies of yeast: analysis of HMG-CoA reductase overproduction by electron microscopy. | Q35889038 | ||
| Dynamics of nuclear pore distribution in nucleoporin mutant yeast cells | Q36254590 | ||
| A nuclear export signal in Kap95p is required for both recycling the import factor and interaction with the nucleoporin GLFG repeat regions of Nup116p and Nup100p | Q36273988 | ||
| P433 | issue | 12 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 3475-3492 | |
| P577 | publication date | 1998-12-01 | |
| P1433 | published in | Molecular Biology of the Cell | Q2338259 |
| P1476 | title | Functional characterization of a Nup159p-containing nuclear pore subcomplex | |
| P478 | volume | 9 |
| Q22009078 | A conserved biogenesis pathway for nucleoporins: proteolytic processing of a 186-kilodalton precursor generates Nup98 and the novel nucleoporin, Nup96 |
| Q42645994 | A short linear motif in scaffold Nup145C connects Y-complex with pre-assembled outer ring Nup82 complex |
| Q33964950 | Assembly and preferential localization of Nup116p on the cytoplasmic face of the nuclear pore complex by interaction with Nup82p |
| Q47909076 | Assessing the reconstruction of macromolecular assemblies with toleranced models |
| Q27931219 | Binding of the Mex67p/Mtr2p heterodimer to FXFG, GLFG, and FG repeat nucleoporins is essential for nuclear mRNA export. |
| Q27932060 | Biogenesis of the signal recognition particle (SRP) involves import of SRP proteins into the nucleolus, assembly with the SRP-RNA, and Xpo1p-mediated export. |
| Q27938502 | Cytoplasmic inositol hexakisphosphate production is sufficient for mediating the Gle1-mRNA export pathway |
| Q24554044 | Disorder in the nuclear pore complex: the FG repeat regions of nucleoporins are natively unfolded |
| Q44259025 | Domain analysis of the Saccharomyces cerevisiae heterogeneous nuclear ribonucleoprotein, Nab2p. Dissecting the requirements for Nab2p-facilitated poly(A) RNA export |
| Q55412292 | Exportin Crm1 is repurposed as a docking protein to generate microtubule organizing centers at the nuclear pore. |
| Q90349771 | Fantastic nuclear envelope herniations and where to find them |
| Q34179572 | In situ analysis of spatial relationships between proteins of the nuclear pore complex |
| Q41792151 | Linker Nups connect the nuclear pore complex inner ring with the outer ring and transport channel |
| Q52537503 | Mlp2p, a component of nuclear pore attached intranuclear filaments, associates with nic96p. |
| Q27933725 | Molecular architecture of the yeast nuclear pore complex: localization of Nsp1p subcomplexes |
| Q27931773 | Molecular basis for the functional interaction of dynein light chain with the nuclear-pore complex |
| Q30446940 | Mutations in tap uncouple RNA export activity from translocation through the nuclear pore complex |
| Q27937534 | Nuclear Accumulation of the Small GTPase Gsp1p Depends on Nucleoporins Nup133p, Rat2p/Nup120p, Nup85p, Nic96p, and the Acetyl-CoA Carboxylase Acc1p |
| Q34257196 | Nuclear distributions of NUP62 and NUP214 suggest architectural diversity and spatial patterning among nuclear pore complexes |
| Q27931933 | Nuclear export of the small ribosomal subunit requires the ran-GTPase cycle and certain nucleoporins. |
| Q34016584 | Nucleoporin FG domains facilitate mRNP remodeling at the cytoplasmic face of the nuclear pore complex |
| Q27938451 | Nucleoporins prevent DNA damage accumulation by modulating Ulp1-dependent sumoylation processes |
| Q73763113 | Nup116p associates with the Nup82p-Nsp1p-Nup159p nucleoporin complex |
| Q28238313 | Nup214-Nup88 nucleoporin subcomplex is required for CRM1-mediated 60 S preribosomal nuclear export |
| Q56687975 | Peering through the Pore |
| Q27935323 | Pom33, a novel transmembrane nucleoporin required for proper nuclear pore complex distribution |
| Q33790144 | Probing nuclear pore complex architecture with proximity-dependent biotinylation. |
| Q33959492 | RanGTP-regulated interactions of CRM1 with nucleoporins and a shuttling DEAD-box helicase |
| Q27930275 | Sac3 is an mRNA export factor that localizes to cytoplasmic fibrils of nuclear pore complex |
| Q35042858 | Structural basis for assembly and function of the Nup82 complex in the nuclear pore scaffold |
| Q94591725 | Structure of the cytoplasmic ring of the Xenopus laevis nuclear pore complex by cryo-electron microscopy single particle analysis |
| Q42917946 | The Drosophila nucleoporin DNup88 localizes DNup214 and CRM1 on the nuclear envelope and attenuates NES-mediated nuclear export |
| Q24534127 | The Mex67p-mediated nuclear mRNA export pathway is conserved from yeast to human |
| Q39529019 | The Nsp1p carboxy-terminal domain is organized into functionally distinct coiled-coil regions required for assembly of nucleoporin subcomplexes and nucleocytoplasmic transport |
| Q24670187 | The Nup107-160 nucleoporin complex is required for correct bipolar spindle assembly |
| Q36323156 | The Ran GTPase cycle is required for yeast nuclear pore complex assembly |
| Q38789393 | The Structure Inventory of the Nuclear Pore Complex |
| Q92440933 | The Structure of the Nuclear Pore Complex (An Update) |
| Q36323649 | The cytoplasmic filaments of the nuclear pore complex are dispensable for selective nuclear protein import |
| Q35126932 | The fission yeast Nup107-120 complex functionally interacts with the small GTPase Ran/Spi1 and is required for mRNA export, nuclear pore distribution, and proper cell division. |
| Q27938646 | The integral membrane protein Pom34p functionally links nucleoporin subcomplexes |
| Q27940363 | The molecular architecture of the nuclear pore complex |
| Q34182354 | The nuclear pore complex and the DEAD box protein Rat8p/Dbp5p have nonessential features which appear to facilitate mRNA export following heat shock |
| Q37419583 | The nuclear pore complex has entered the atomic age. |
| Q33912881 | The nuclear pore complex: a protein machine bridging the nucleus and cytoplasm |
| Q39044994 | The nuclear pore complex: understanding its function through structural insight |
| Q27930507 | The nucleoporins Nup170p and Nup157p are essential for nuclear pore complex assembly |
| Q27931878 | The stoichiometry of the nucleoporin 62 subcomplex of the nuclear pore in solution. |
| Q37865519 | The structure of the nuclear pore complex |
| Q35810798 | The yeast nuclear pore complex and transport through it |
| Q27932275 | Ubiquitylation of the nuclear pore complex controls nuclear migration during mitosis in S. cerevisiae |
| Q27937486 | Ultrastructural localization of rRNA shows defective nuclear export of preribosomes in mutants of the Nup82p complex. |
| Q73716542 | mRNA export: the long and winding road |
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