| scholarly article | Q13442814 |
| P50 | author | Günter Blobel | Q60108 |
| P2093 | author name string | Xiaolan Zhao | |
| Chia-Yung Wu | |||
| P2860 | cites work | Roles of the 2 microns gene products in stable maintenance of the 2 microns plasmid of Saccharomyces cerevisiae | Q40671397 |
| Mlp2p, a component of nuclear pore attached intranuclear filaments, associates with nic96p. | Q52537503 | ||
| Clonal lethality caused by the yeast plasmid 2 mu DNA | Q70448536 | ||
| SUMO conjugation and deconjugation | Q74033519 | ||
| Curing Saccharomyces cerevisiae of the 2 micron plasmid by targeted DNA damage | Q77567869 | ||
| Association of the human SUMO-1 protease SENP2 with the nuclear pore | Q24292472 | ||
| Enzymes of the SUMO modification pathway localize to filaments of the nuclear pore complex. | Q24305181 | ||
| Identification of protein p270/Tpr as a constitutive component of the nuclear pore complex-attached intranuclear filaments | Q24318735 | ||
| Rad52 forms DNA repair and recombination centers during S phase | Q27929749 | ||
| Unconventional tethering of Ulp1 to the transport channel of the nuclear pore complex by karyopherins | Q27930209 | ||
| The ubiquitin-like protein Smt3p is activated for conjugation to other proteins by an Aos1p/Uba2p heterodimer | Q27933072 | ||
| Proteomic analysis of nucleoporin interacting proteins | Q27934684 | ||
| The yeast ULP2 (SMT4) gene encodes a novel protease specific for the ubiquitin-like Smt3 protein | Q27936786 | ||
| Proteins connecting the nuclear pore complex with the nuclear interior | Q27937540 | ||
| Nuclear pore complexes in the organization of silent telomeric chromatin | Q27939276 | ||
| Nuclear architecture and spatial positioning help establish transcriptional states of telomeres in yeast. | Q27939863 | ||
| Nuclear retention of unspliced mRNAs in yeast is mediated by perinuclear Mlp1. | Q27939910 | ||
| Two nuclear mutations that block mitochondrial protein import in yeast | Q29618080 | ||
| SUMO--nonclassical ubiquitin | Q29620234 | ||
| Nuclear and unclear functions of SUMO | Q29903594 | ||
| SUMO, ubiquitin's mysterious cousin | Q33939449 | ||
| The Ulp1 SUMO isopeptidase: distinct domains required for viability, nuclear envelope localization, and substrate specificity | Q34185745 | ||
| The 2 micron plasmid purloins the yeast cohesin complex: a mechanism for coupling plasmid partitioning and chromosome segregation? | Q36325654 | ||
| Propagation and expression of cloned genes in yeast: 2-microns circle-based vectors | Q37945537 | ||
| P4510 | describes a project that uses | ImageQuant | Q112270642 |
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 605-611 | |
| P577 | publication date | 2004-11-01 | |
| P1433 | published in | Journal of Cell Biology | Q1524550 |
| P1476 | title | Mlp-dependent anchorage and stabilization of a desumoylating enzyme is required to prevent clonal lethality | |
| P478 | volume | 167 |
| Q36650593 | 2-micron circle plasmids do not reduce yeast life span |
| Q36735051 | 2μ plasmid in Saccharomyces species and in Saccharomyces cerevisiae |
| Q93045972 | A Flp-SUMO hybrid recombinase reveals multi-layered copy number control of a selfish DNA element through post-translational modification |
| Q39452866 | A Lysine Desert Protects a Novel Domain in the Slx5-Slx8 SUMO Targeted Ub Ligase To Maintain Sumoylation Levels in Saccharomyces cerevisiae |
| Q27930326 | A SUMO ligase is part of a nuclear multiprotein complex that affects DNA repair and chromosomal organization |
| Q55075323 | A SUMO-dependent feedback loop senses and controls the biogenesis of nuclear pore subunits. |
| Q100669083 | A natural variant of the essential host gene MMS21 restricts the parasitic 2-micron plasmid in Saccharomyces cerevisiae |
| Q27933117 | A novel mechanism for SUMO system control: regulated Ulp1 nucleolar sequestration |
| Q36119061 | A nuclear envelope protein linking nuclear pore basket assembly, SUMO protease regulation, and mRNA surveillance |
| Q27933173 | A nucleoporin, Nup60p, affects the nuclear and cytoplasmic localization of ASH1 mRNA in S. cerevisiae. |
| Q89108025 | Binding to small ubiquitin-like modifier and the nucleolar protein Csm1 regulates substrate specificity of the Ulp2 protease |
| Q38546403 | Chromatin at the nuclear periphery and the regulation of genome functions |
| Q24814202 | Coiled-coil protein composition of 22 proteomes--differences and common themes in subcellular infrastructure and traffic control |
| Q58759905 | Defective RNA polymerase III is negatively regulated by the SUMO-Ubiquitin-Cdc48 pathway |
| Q37097332 | Deficient SUMO attachment to Flp recombinase leads to homologous recombination-dependent hyperamplification of the yeast 2 microm circle plasmid |
| Q27936318 | Deficient sumoylation of yeast 2-micron plasmid proteins Rep1 and Rep2 associated with their loss from the plasmid-partitioning locus and impaired plasmid inheritance. |
| Q57793305 | Elevated dosage of Ulp1 disrupts telomeric silencing in Saccharomyces cerevisiae |
| Q27012895 | From hypothesis to mechanism: uncovering nuclear pore complex links to gene expression |
| Q36456463 | Functional targeting of DNA damage to a nuclear pore-associated SUMO-dependent ubiquitin ligase |
| Q26744570 | Functions of Ubiquitin and SUMO in DNA Replication and Replication Stress |
| Q27936603 | Genetic analysis connects SLX5 and SLX8 to the SUMO pathway in Saccharomyces cerevisiae |
| Q34549894 | Genome maintenance in Saccharomyces cerevisiae: the role of SUMO and SUMO-targeted ubiquitin ligases. |
| Q33754397 | Identification of Saccharomyces cerevisiae spindle pole body remodeling factors |
| Q33511005 | Karyopherin binding interactions and nuclear import mechanism of nuclear pore complex protein Tpr |
| Q38747471 | Localisation of Nup153 and SENP1 to nuclear pore complexes is required for 53BP1-mediated DNA double-strand break repair |
| Q58547908 | Mad1 influences interphase nucleoplasm organization and chromatin regulation in |
| Q33770387 | Misregulation of 2 microm circle copy number in a SUMO pathway mutant |
| Q30487023 | Mlp1 acts as a mitotic scaffold to spatially regulate spindle assembly checkpoint proteins in Aspergillus nidulans |
| Q36884727 | Molecular Circuitry of the SUMO (Small Ubiquitin-like Modifier) Pathway in Controlling Sumoylation Homeostasis and Suppressing Genome Rearrangements |
| Q43189486 | NUA Activities at the Plant Nuclear Pore |
| 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 |
| Q35348095 | Nuclear organization in genome stability: SUMO connections |
| Q40176980 | Nuclear pore components affect distinct stages of intron-containing gene expression. |
| Q27938451 | Nucleoporins prevent DNA damage accumulation by modulating Ulp1-dependent sumoylation processes |
| Q57793293 | Nup2 performs diverse interphase functions in Aspergillus nidulans |
| Q36049993 | Pli1(PIAS1) SUMO ligase protected by the nuclear pore-associated SUMO protease Ulp1SENP1/2. |
| Q27936764 | Pml39, a novel protein of the nuclear periphery required for nuclear retention of improper messenger ribonucleoparticles. |
| Q27935500 | PolySUMOylation by Siz2 and Mms21 triggers relocation of DNA breaks to nuclear pores through the Slx5/Slx8 STUbL. |
| Q27309089 | Posttranslational marks control architectural and functional plasticity of the nuclear pore complex basket |
| Q38595890 | Recombinational DNA repair is regulated by compartmentalization of DNA lesions at the nuclear pore complex |
| Q33424086 | Reconstructing the ubiquitin network: cross-talk with other systems and identification of novel functions |
| Q90640167 | Recruitment of an Activated Gene to the Yeast Nuclear Pore Complex Requires Sumoylation |
| Q34347710 | Regulation of mRNA trafficking by nuclear pore complexes. |
| Q38995558 | Relocalization of DNA lesions to the nuclear pore complex |
| Q38967372 | Replication stress as a source of telomere recombination during replicative senescence in Saccharomyces cerevisiae |
| Q36927821 | SUMO-specific proteases: a twist in the tail |
| Q37325310 | SUMOylation and De-SUMOylation: wrestling with life's processes |
| Q64080646 | SUMOylation of the nuclear pore complex basket is involved in sensing cellular stresses |
| Q33979961 | Silencing nuclear pore protein Tpr elicits a senescent-like phenotype in cancer cells |
| Q34588701 | Smc5p promotes faithful chromosome transmission and DNA repair in Saccharomyces cerevisiae |
| Q37411011 | Spindle assembly checkpoint robustness requires Tpr-mediated regulation of Mad1/Mad2 proteostasis |
| Q36178621 | Stimulation of in vitro sumoylation by Slx5-Slx8: evidence for a functional interaction with the SUMO pathway |
| Q34060655 | Sumo-dependent substrate targeting of the SUMO protease Ulp1 |
| Q26999229 | Sumoylation and transcription regulation at nuclear pores |
| Q37734386 | Sumoylation of the THO complex regulates the biogenesis of a subset of mRNPs. |
| Q33935195 | Sumoylation: a new wrestler in the DNA repair ring |
| Q33770399 | The 2 microm plasmid causes cell death in Saccharomyces cerevisiae with a mutation in Ulp1 protease. |
| Q39361405 | The 2 micron plasmid: a selfish genetic element with an optimized survival strategy within Saccharomyces cerevisiae |
| Q54582549 | The PIAS homologue Siz2 regulates perinuclear telomere position and telomerase activity in budding yeast. |
| Q37416495 | The SUMO proteases SENP1 and SENP2 play a critical role in nucleoporin homeostasis and nuclear pore complex function |
| Q35612295 | The SUMO-specific isopeptidase SENP2 associates dynamically with nuclear pore complexes through interactions with karyopherins and the Nup107-160 nucleoporin subcomplex. |
| Q42412042 | The Slx5-Slx8 complex affects sumoylation of DNA repair proteins and negatively regulates recombination |
| Q30428604 | The defective nuclear lamina in Hutchinson-gilford progeria syndrome disrupts the nucleocytoplasmic Ran gradient and inhibits nuclear localization of Ubc9. |
| Q47703993 | The fission yeast nucleoporin Alm1 is required for proteasomal degradation of kinetochore components. |
| Q38198475 | The multifunctional nuclear pore complex: a platform for controlling gene expression |
| Q27938485 | The nuclear basket proteins Mlp1p and Mlp2p are part of a dynamic interactome including Esc1p and the proteasome. |
| Q36840615 | The nuclear envelope and transcriptional control. |
| Q35635044 | The nuclear envelope in genome organization, expression and stability |
| Q34122297 | The nuclear pore complex: bridging nuclear transport and gene regulation |
| Q35562025 | The nucleoporin Mlp2 is involved in chromosomal distribution during mitosis in trypanosomatids |
| Q50750430 | The plant nuclear envelope protein MAF1 has an additional location at the Golgi and binds to a novel Golgi-associated coiled-coil protein |
| Q27936933 | The role of karyopherins in the regulated sumoylation of septins |
| Q35810798 | The yeast nuclear pore complex and transport through it |
| Q36052170 | Topoisomerase I-dependent viability loss in saccharomyces cerevisiae mutants defective in both SUMO conjugation and DNA repair |
| Q36920252 | Two distinct sites in Nup153 mediate interaction with the SUMO proteases SENP1 and SENP2. |
| Q37175957 | Yeast telomerase and the SUN domain protein Mps3 anchor telomeres and repress subtelomeric recombination |
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