scholarly article | Q13442814 |
P2093 | author name string | Stephen A Osmani | |
Hui-Lin Liu | |||
Aysha H Osmani | |||
Colin P C De Souza | |||
P2860 | cites work | The Ndc80p complex from Saccharomyces cerevisiae contains conserved centromere components and has a function in chromosome segregation | Q24290969 |
The localisation of small molecules in lipid bilayers | Q77920054 | ||
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 | ||
Architecture of a coat for the nuclear pore membrane | Q24304961 | ||
ELYS is a dual nucleoporin/kinetochore protein required for nuclear pore assembly and proper cell division | Q24314464 | ||
The conserved transmembrane nucleoporin NDC1 is required for nuclear pore complex assembly in vertebrate cells | Q24314896 | ||
The Pfam protein families database | Q24650035 | ||
The Nup107-160 nucleoporin complex is required for correct bipolar spindle assembly | Q24670187 | ||
Mitosis, not just open or closed | Q24672896 | ||
An integral membrane protein of the pore membrane domain of the nuclear envelope contains a nucleoporin-like region | Q24674524 | ||
The yeast nuclear pore complex: composition, architecture, and transport mechanism | Q24680784 | ||
NDC1: a crucial membrane-integral nucleoporin of metazoan nuclear pore complexes | Q24683670 | ||
Components of coated vesicles and nuclear pore complexes share a common molecular architecture | Q24805069 | ||
A novel complex of nucleoporins, which includes Sec13p and a Sec13p homolog, is essential for normal nuclear pores | Q27930079 | ||
A novel complex of membrane proteins required for formation of a spherical nucleus. | Q27930286 | ||
POM152 is an integral protein of the pore membrane domain of the yeast nuclear envelope | Q27930380 | ||
A novel allele of Saccharomyces cerevisiae NDC1 reveals a potential role for the spindle pole body component Ndc1p in nuclear pore assembly | Q27930634 | ||
The role of the integral membrane nucleoporins Ndc1p and Pom152p in nuclear pore complex assembly and function | Q27930878 | ||
The yeast integral membrane protein Apq12 potentially links membrane dynamics to assembly of nuclear pore complexes | Q27932688 | ||
NDC1: a nuclear periphery component required for yeast spindle pole body duplication | Q27933112 | ||
The yeast lipin Smp2 couples phospholipid biosynthesis to nuclear membrane growth | Q27933618 | ||
Cell cycle regulated transport controlled by alterations in the nuclear pore complex. | Q27936697 | ||
The integral membrane protein Pom34p functionally links nucleoporin subcomplexes | Q27938646 | ||
Genetic network interactions among replication, repair and nuclear pore deficiencies in yeast | Q27939246 | ||
Saccharomyces cerevisiae Ndc1p is a shared component of nuclear pore complexes and spindle pole bodies | Q27940274 | ||
The molecular architecture of the nuclear pore complex | Q27940363 | ||
Comparative genomics, evolution and origins of the nuclear envelope and nuclear pore complex | Q28299432 | ||
Removal of a Single Pore Subcomplex Results in Vertebrate Nuclei Devoid of Nuclear Pores | Q28584248 | ||
InterProScan--an integration platform for the signature-recognition methods in InterPro | Q29547336 | ||
Three-dimensional architecture of the isolated yeast nuclear pore complex: functional and evolutionary implications | Q29616786 | ||
Correlation between structure and mass distribution of the nuclear pore complex and of distinct pore complex components | Q29620113 | ||
Spindle formation in Aspergillus is coupled to tubulin movement into the nucleus | Q30478331 | ||
Systematic deletion and mitotic localization of the nuclear pore complex proteins of Aspergillus nidulans. | Q30478399 | ||
Nuclear pore complexes: round the bend? | Q33984209 | ||
The conserved Nup107-160 complex is critical for nuclear pore complex assembly | Q34191822 | ||
Nuclear pores and nuclear assembly | Q34245411 | ||
Partial nuclear pore complex disassembly during closed mitosis in Aspergillus nidulans | Q34370022 | ||
A general amphipathic alpha-helical motif for sensing membrane curvature. | Q34601480 | ||
Determining the architectures of macromolecular assemblies | Q34719614 | ||
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. | Q35126932 | ||
Identification of a major polypeptide of the nuclear pore complex | Q36209313 | ||
Architecture of the Xenopus nuclear pore complex revealed by three-dimensional cryo-electron microscopy. | Q36232581 | ||
Ribonuclease S-peptide as a carrier in fusion proteins. | Q36278000 | ||
Dynamic nuclear pore complexes: life on the edge. | Q36508009 | ||
Capture of AT-rich chromatin by ELYS recruits POM121 and NDC1 to initiate nuclear pore assembly | Q36854854 | ||
cut11(+): A gene required for cell cycle-dependent spindle pole body anchoring in the nuclear envelope and bipolar spindle formation in Schizosaccharomyces pombe | Q36913732 | ||
Nuclear pore complex assembly through the cell cycle: regulation and membrane organization | Q37105260 | ||
Rapid production of gene replacement constructs and generation of a green fluorescent protein-tagged centromeric marker in Aspergillus nidulans | Q37579716 | ||
Nuclear pore complex assembly and maintenance in POM121- and gp210-deficient cells | Q39728994 | ||
Systematic kinetic analysis of mitotic dis- and reassembly of the nuclear pore in living cells. | Q40006347 | ||
Snapshots of nuclear pore complexes in action captured by cryo-electron tomography | Q41624126 | ||
MEL-28/ELYS is required for the recruitment of nucleoporins to chromatin and postmitotic nuclear pore complex assembly | Q42018748 | ||
ELYS/MEL-28 chromatin association coordinates nuclear pore complex assembly and replication licensing | Q42161292 | ||
MEL-28, a novel nuclear-envelope and kinetochore protein essential for zygotic nuclear-envelope assembly in C. elegans | Q47069142 | ||
MEL-28 is downstream of the Ran cycle and is required for nuclear-envelope function and chromatin maintenance. | Q53601737 | ||
The increase in bilayer fluidity of rat liver plasma membranes achieved by the local anesthetic benzyl alcohol affects the activity of intrinsic membrane enzymes | Q57910752 | ||
Identification and analysis of essential Aspergillus nidulans genes using the heterokaryon rescue technique | Q61513255 | ||
Parallel activation of the NIMA and p34cdc2 cell cycle-regulated protein kinases is required to initiate mitosis in A. nidulans | Q62647975 | ||
Fusion PCR and gene targeting in Aspergillus nidulans | Q62658531 | ||
P4510 | describes a project that uses | ImageQuant | Q112270642 |
P433 | issue | 2 | |
P921 | main subject | transmembrane protein | Q424204 |
Aspergillus nidulans | Q683881 | ||
Nuclear pore complex protein with homology to human NUP98/NUP96 | Q62693442 | ||
Nuclear pore complex protein Nup2 | Q62694606 | ||
ELYS domain-containing protein | Q62643958 | ||
Putative transmembrane-containing nuclear pore complex protein with homology to Saccharomyces cerevisiae Ndc1p | Q62645609 | ||
Putative nuclear pore complex protein with similarity to Saccharomyces cerevisiae Nup133p | Q62647083 | ||
Putative transmenbrane-containing nuclear pore complex protein with homology to Schizosaccharomyces pombe Pom34 | Q62647506 | ||
Cell-cycle regulated serine/threonine protein kinase | Q62647966 | ||
Protein tyrosine phosphatase involved in cell cycle control | Q62653660 | ||
Putative nuclear pore complex protein | Q62663987 | ||
Putative nuclear pore complex protein with low homology to Saccharomyces cerevisiae Nup120p | Q62666611 | ||
Putative nuclear pore complex protein with homology to Saccharomyces cerevisiae Nup84p | Q62666751 | ||
Putative nuclear pore complex protein | Q62666854 | ||
Alpha-tubulin, forms a heterodimer with beta-tubulin that promotes microtubule assembly | Q62670223 | ||
Putative nuclear pore complex protein with homology to Saccharomyces cerevisiae Nup49p | Q62676165 | ||
Putative nuclear pore complex protein with homology to Saccharomyces cerevisiae Nup85p | Q62678596 | ||
Putative transmembrane-containing nuclear pore protein with homology to Saccharomyces cerevisiae Pom152p | Q62679126 | ||
Putative nuclear pore complex protein that physically interacts with sonB | Q62686640 | ||
P304 | page(s) | 616-630 | |
P577 | publication date | 2008-11-19 | |
P1433 | published in | Molecular Biology of the Cell | Q2338259 |
P1476 | title | The three fungal transmembrane nuclear pore complex proteins of Aspergillus nidulans are dispensable in the presence of an intact An-Nup84-120 complex | |
P478 | volume | 20 |
Q41663172 | A Nucleoporin Docks Protein Phosphatase 1 to Direct Meiotic Chromosome Segregation and Nuclear Assembly |
Q37518047 | A mitotic nuclear envelope tether for Gle1 also impacts nuclear and nucleolar architecture. |
Q42645994 | A short linear motif in scaffold Nup145C connects Y-complex with pre-assembled outer ring Nup82 complex |
Q30487045 | Analysis of all protein phosphatase genes in Aspergillus nidulans identifies a new mitotic regulator, fcp1 |
Q27316996 | Application of a new dual localization-affinity purification tag reveals novel aspects of protein kinase biology in Aspergillus nidulans |
Q33603815 | Aspergillus fumigatus Trehalose-Regulatory Subunit Homolog Moonlights To Mediate Cell Wall Homeostasis through Modulation of Chitin Synthase Activity |
Q92562074 | Asymmetrical localization of Nup107-160 subcomplex components within the nuclear pore complex in fission yeast |
Q37634709 | Border control at the nucleus: biogenesis and organization of the nuclear membrane and pore complexes |
Q53086325 | Breakage of the nuclear envelope by an extending mitotic nucleus occurs during anaphase in Schizosaccharomyces japonicus. |
Q33728281 | Characterization of nuclear pore complex components in fission yeast Schizosaccharomyces pombe |
Q50218123 | Clathrin localization and dynamics in Aspergillus nidulans |
Q33719317 | Comparative genomic evidence for a complete nuclear pore complex in the last eukaryotic common ancestor. |
Q38809164 | Comparative interactomics provides evidence for functional specialization of the nuclear pore complex |
Q42416092 | Dimerization and direct membrane interaction of Nup53 contribute to nuclear pore complex assembly |
Q38020021 | Dissecting the NUP107 complex: multiple components and even more functions |
Q37625057 | Double duty for nuclear proteins--the price of more open forms of mitosis |
Q26829764 | Enriching the pore: splendid complexity from humble origins |
Q37343080 | Evidence for a shared nuclear pore complex architecture that is conserved from the last common eukaryotic ancestor |
Q38070151 | Exotic mitotic mechanisms |
Q27308722 | Identification of Conserved MEL-28/ELYS Domains with Essential Roles in Nuclear Assembly and Chromosome Segregation |
Q37412753 | Insights into dynamic mitotic chromatin organization through the NIMA kinase suppressor SonC, a chromatin-associated protein involved in the DNA damage response. |
Q34468317 | Integrative structure-function mapping of the nucleoporin Nup133 suggests a conserved mechanism for membrane anchoring of the nuclear pore complex |
Q35927474 | Interactome Mapping Reveals the Evolutionary History of the Nuclear Pore Complex |
Q33721168 | Members of the RSC chromatin-remodeling complex are required for maintaining proper nuclear envelope structure and pore complex localization |
Q48024359 | Mitotic nuclear pore complex segregation involves Nup2 in Aspergillus nidulans. |
Q30574006 | Mitotic regulation of fungal cell-to-cell connectivity through septal pores involves the NIMA kinase |
Q30487023 | Mlp1 acts as a mitotic scaffold to spatially regulate spindle assembly checkpoint proteins in Aspergillus nidulans |
Q46015263 | Molecular Architecture of the Major Membrane Ring Component of the Nuclear Pore Complex. |
Q27672566 | Molecular basis for Nup37 and ELY5/ELYS recruitment to the nuclear pore complex |
Q90280361 | NPHP proteins are binding partners of nucleoporins at the base of the primary cilium |
Q34257196 | Nuclear distributions of NUP62 and NUP214 suggest architectural diversity and spatial patterning among nuclear pore complexes |
Q37780986 | Nuclear pore biogenesis into an intact nuclear envelope |
Q37518507 | Nuclear pore complex biogenesis |
Q36829705 | Nuclear pore complexes: guardians of the nuclear genome |
Q37725706 | Nuclear transport and the mitotic apparatus: an evolving relationship |
Q90627698 | Nucleoporins in cardiovascular disease |
Q34455685 | Nup2 requires a highly divergent partner, NupA, to fulfill functions at nuclear pore complexes and the mitotic chromatin region |
Q35161978 | Regulated inactivation of the spindle assembly checkpoint without functional mitotic spindles |
Q37387814 | Regulation of mitosis by the NIMA kinase involves TINA and its newly discovered partner, An-WDR8, at spindle pole bodies |
Q30494334 | Single-step affinity purification for fungal proteomics. |
Q27676845 | Structural and Functional Studies of the 252 kDa Nucleoporin ELYS Reveal Distinct Roles for Its Three Tethered Domains |
Q27933557 | Structure-function mapping of a heptameric module in the nuclear pore complex. |
Q53262169 | The Aspergillus nidulans CENP-E kinesin motor KipA interacts with the fungal homologue of the centromere-associated protein CENP-H at the kinetochore. |
Q51189818 | The Aspergillus nidulans Pbp1 homolog is required for normal sexual development and secondary metabolism. |
Q35683964 | The Inner Nuclear Membrane Protein Src1 Is Required for Stable Post-Mitotic Progression into G1 in Aspergillus nidulans |
Q30570500 | The NIMA kinase is required to execute stage-specific mitotic functions after initiation of mitosis |
Q37589363 | The SUN protein Mps3 controls Ndc1 distribution and function on the nuclear membrane. |
Q92440933 | The Structure of the Nuclear Pore Complex (An Update) |
Q27646452 | The Structure of the Scaffold Nucleoporin Nup120 Reveals a New and Unexpected Domain Architecture |
Q92860014 | The negative cofactor 2 complex is a key regulator of drug resistance in Aspergillus fumigatus |
Q28749193 | The nuclear pore complex and nuclear transport |
Q39044994 | The nuclear pore complex: understanding its function through structural insight |
Q35810798 | The yeast nuclear pore complex and transport through it |
Q47342430 | Tools for retargeting proteins within Aspergillus nidulans. |
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