review article | Q7318358 |
scholarly article | Q13442814 |
P356 | DOI | 10.1016/S0962-8924(00)01785-2 |
P698 | PubMed publication ID | 10884686 |
P2093 | author name string | Jentsch S | |
Pyrowolakis G | |||
P2860 | cites work | A MHC-encoded ubiquitin-like protein (FAT10) binds noncovalently to the spindle assembly checkpoint protein MAD2 | Q22009372 |
Interaction of hHR23 with S5a. The ubiquitin-like domain of hHR23 mediates interaction with S5a subunit of 26 S proteasome | Q22010540 | ||
The ubiquitin-conjugating enzymes UbcH7 and UbcH8 interact with RING finger/IBR motif-containing domains of HHARI and H7-AP1 | Q22010656 | ||
Mutations in the parkin gene cause autosomal recessive juvenile parkinsonism | Q24309753 | ||
A novel ubiquitin-like modification modulates the partitioning of the Ran-GTPase-activating protein RanGAP1 between the cytosol and the nuclear pore complex | Q24310068 | ||
p62, a phosphotyrosine-independent ligand of the SH2 domain of p56lck, belongs to a new class of ubiquitin-binding proteins | Q24311839 | ||
A small ubiquitin-related polypeptide involved in targeting RanGAP1 to nuclear pore complex protein RanBP2 | Q24317523 | ||
A new NEDD8-ligating system for cullin-4A | Q24321773 | ||
Mammalian ubiquitin-conjugating enzyme Ubc9 interacts with Rad51 recombination protein and localizes in synaptonemal complexes | Q24324511 | ||
A "housekeeping" gene on the X chromosome encodes a protein similar to ubiquitin | Q24339641 | ||
SUMO-1 modification activates the transcriptional response of p53 | Q24529948 | ||
Conjugation with the ubiquitin-related modifier SUMO-1 regulates the partitioning of PML within the nucleus | Q24532901 | ||
The Rbx1 subunit of SCF and VHL E3 ubiquitin ligase activates Rub1 modification of cullins Cdc53 and Cul2 | Q24597101 | ||
Yeast ubiquitin-like genes are involved in duplication of the microtubule organizing center | Q36237090 | ||
The Ubp6 family of deubiquitinating enzymes contains a ubiquitin-like domain: SUb. | Q36281573 | ||
The Saccharomyces cerevisiae DNA repair gene RAD23 encodes a nuclear protein containing a ubiquitin-like domain required for biological function | Q36828110 | ||
Characterisation of Schizosaccharomyces pombe rad31, a UBA-related gene required for DNA damage tolerance | Q38347744 | ||
Characterization of a fission yeast SUMO-1 homologue, pmt3p, required for multiple nuclear events, including the control of telomere length and chromosome segregation | Q39449792 | ||
Human Daxx regulates Fas-induced apoptosis from nuclear PML oncogenic domains (PODs). | Q40920307 | ||
SUMO-1: Ubiquitin gains weight | Q47273810 | ||
The Drosophila semushi mutation blocks nuclear import of bicoid during embryogenesis | Q48007223 | ||
The 19S Regulatory Complex of the Proteasome Functions Independently of Proteolysis in Nucleotide Excision Repair | Q63383896 | ||
??? | Q64860635 | ||
Conjugates of ubiquitin cross-reactive protein distribute in a cytoskeletal pattern | Q24607385 | ||
Conjugation of the ubiquitin-like protein NEDD8 to cullin-2 is linked to von Hippel-Lindau tumor suppressor function | Q24682460 | ||
Ubiquitin-dependent protein degradation | Q27931143 | ||
A protein conjugation system in yeast with homology to biosynthetic enzyme reaction of prokaryotes | Q27932025 | ||
Modification of yeast Cdc53p by the ubiquitin-related protein rub1p affects function of the SCFCdc4 complex | Q27933259 | ||
The ubiquitin-like proteins SMT3 and SUMO-1 are conjugated by the UBC9 E2 enzyme | Q27934272 | ||
A novel ubiquitination factor, E4, is involved in multiubiquitin chain assembly. | Q27935265 | ||
Cell cycle-regulated attachment of the ubiquitin-related protein SUMO to the yeast septins | Q27936336 | ||
Role of a ubiquitin-conjugating enzyme in degradation of S- and M-phase cyclins | Q27937265 | ||
A novel protein modification pathway related to the ubiquitin system | Q27938072 | ||
A new protease required for cell-cycle progression in yeast | Q27938681 | ||
Activation of p53 by conjugation to the ubiquitin-like protein SUMO-1. | Q28117154 | ||
Covalent modification of all members of human cullin family proteins by NEDD8 | Q28140243 | ||
A family of structurally related RING finger proteins interacts specifically with the ubiquitin-conjugating enzyme UbcM4 | Q28141087 | ||
The ubiquitin-related BAG-1 provides a link between the molecular chaperones Hsc70/Hsp70 and the proteasome | Q28144546 | ||
Functional heterogeneity of small ubiquitin-related protein modifiers SUMO-1 versus SUMO-2/3 | Q28145507 | ||
Ubiquitin-related proteins regulate interaction of vimentin intermediate filaments with the plasma membrane | Q28146189 | ||
Covalent modification of PML by the sentrin family of ubiquitin-like proteins | Q28260723 | ||
SUMO-1 modification of IkappaBalpha inhibits NF-kappaB activation | Q28282094 | ||
Association of BRCA1 with Rad51 in mitotic and meiotic cells | Q28302118 | ||
SCF and Cullin/Ring H2-based ubiquitin ligases | Q29547637 | ||
Rad23 links DNA repair to the ubiquitin/proteasome pathway | Q29614361 | ||
Covalent modification of the transcriptional repressor tramtrack by the ubiquitin-related protein Smt3 in Drosophila flies | Q30832005 | ||
A surprising role for the proteasome in the regulation of herpesvirus infection | Q33702186 | ||
Vacuolar import of proteins and organelles from the cytoplasm | Q33804285 | ||
Function of the ubiquitin-proteasome pathway in auxin response | Q33850049 | ||
Identification of HHR23A as a substrate for E6-associated protein-mediated ubiquitination. | Q33865346 | ||
A family of ubiquitin-like proteins binds the ATPase domain of Hsp70-like Stch | Q33890149 | ||
Identification of XDRP1; a Xenopus protein related to yeast Dsk2p binds to the N-terminus of cyclin A and inhibits its degradation | Q33891242 | ||
Reaper-induced dissociation of a Scythe-sequestered cytochrome c-releasing activity | Q33891286 | ||
Genomic structure and expression of the human fau gene: encoding the ribosomal protein S30 fused to a ubiquitin-like protein | Q34237676 | ||
Two related localized mRNAs from Xenopus laevis encode ubiquitin-like fusion proteins. | Q34356289 | ||
The UBA domain: a sequence motif present in multiple enzyme classes of the ubiquitination pathway | Q34402796 | ||
The sentrin-conjugating enzyme mUbc9 interacts with GLUT4 and GLUT1 glucose transporters and regulates transporter levels in skeletal muscle cells | Q35007234 | ||
P433 | issue | 8 | |
P921 | main subject | ubiquitin-like protein transferase activity | Q21097358 |
P304 | page(s) | 335-342 | |
P577 | publication date | 2000-08-01 | |
P1433 | published in | Trends in Cell Biology | Q1573994 |
P1476 | title | Ubiquitin and its kin: how close are the family ties? | |
P478 | volume | 10 |
Q39927831 | A conserved catalytic residue in the ubiquitin-conjugating enzyme family. |
Q28359750 | A novel active site-directed probe specific for deubiquitylating enzymes reveals proteasome association of USP14 |
Q48060746 | A novel interaction between CCaMK and a protein containing the Scythe_N ubiquitin-like domain in Lotus japonicus. |
Q24336030 | A novel protein-conjugating system for Ufm1, a ubiquitin-fold modifier |
Q33813351 | A novel role for ATM in regulating proteasome-mediated protein degradation through suppression of the ISG15 conjugation pathway |
Q28115472 | A role for non-covalent SUMO interaction motifs in Pc2/CBX4 E3 activity |
Q35162583 | A superfamily of protein tags: ubiquitin, SUMO and related modifiers |
Q27935209 | A ubiquitin-binding motif required for intramolecular monoubiquitylation, the CUE domain |
Q34418425 | Archaeal proteasomes: proteolytic nanocompartments of the cell |
Q40326318 | Assembly of a polymeric chain of SUMO1 on human topoisomerase I in vitro |
Q40204662 | Aurora-A kinase interacting protein 1 (AURKAIP1) promotes Aurora-A degradation through an alternative ubiquitin-independent pathway |
Q35675549 | BAG-1--a nucleotide exchange factor of Hsc70 with multiple cellular functions |
Q37001736 | Bacterial interference of ubiquitination and deubiquitination |
Q28198259 | Beacon interacts with cdc2/cdc28-like kinases |
Q24630699 | Biosynthesis of the thiazole moiety of thiamin in Escherichia coli: identification of an acyldisulfide-linked protein--protein conjugate that is functionally analogous to the ubiquitin/E1 complex |
Q27934803 | Budding yeast Dsk2p is a polyubiquitin-binding protein that can interact with the proteasome |
Q33953749 | CSN1 N-terminal-dependent activity is required for Arabidopsis development but not for Rub1/Nedd8 deconjugation of cullins: a structure-function study of CSN1 subunit of COP9 signalosome |
Q28484743 | Chlamydia trachomatis-derived deubiquitinating enzymes in mammalian cells during infection |
Q64226741 | Clinicopathological significance of human leukocyte antigen F-associated transcript 10 expression in colorectal cancer |
Q24301571 | Conservation in the Mechanism of Nedd8 Activation by the Human AppBp1-Uba3 Heterodimer |
Q34214145 | Control of IkappaBalpha proteolysis by the ubiquitin-proteasome pathway |
Q28202126 | Cooperation of a ubiquitin domain protein and an E3 ubiquitin ligase during chaperone/proteasome coupling |
Q30167857 | Crk family adaptors-signalling complex formation and biological roles |
Q40341932 | Derivitization of the C-terminus of ubiquitin and ubiquitin-like proteins using intein chemistry: methods and uses |
Q35787335 | Dysregulation of protein modification by ISG15 results in brain cell injury |
Q34960532 | E3 ubiquitin ligases and plant innate immunity |
Q45361337 | Enhanced expression of rabies virus surface G-protein in Escherichia coli using SUMO fusion |
Q44972050 | Expression and purification of SARS coronavirus proteins using SUMO-fusions. |
Q36224959 | Expression and purification of functional HMGB1 A box by fusion with SUMO. |
Q37122789 | FAT10 is associated with the malignancy and drug resistance of non-small-cell lung cancer |
Q24305422 | FAT10 plays a role in the regulation of chromosomal stability |
Q35039785 | FAT10, a gene up-regulated in various cancers, is cell-cycle regulated. |
Q24300071 | FAT10, a ubiquitin-independent signal for proteasomal degradation |
Q34400939 | From the cradle to the grave: molecular chaperones that may choose between folding and degradation |
Q24802049 | Functional and phylogenetic analysis of the ubiquitylation system in Caenorhabditis elegans: ubiquitin-conjugating enzymes, ubiquitin-activating enzymes, and ubiquitin-like proteins |
Q28214808 | GABA(A) receptor cell surface number and subunit stability are regulated by the ubiquitin-like protein Plic-1 |
Q27490242 | Gene profiling, biomarkers and pathways characterizing HCV-related hepatocellular carcinoma |
Q34153590 | Glycoprotein folding in the endoplasmic reticulum |
Q80796306 | Grabbing E2 by the tail |
Q39709060 | High-stringency tandem affinity purification of proteins conjugated to ubiquitin-like moieties |
Q27863761 | High-throughput immunoblotting. Ubiquitiin-like protein ISG15 modifies key regulators of signal transduction |
Q37691938 | ISG15 and immune diseases |
Q35189736 | ISG15, not just another ubiquitin-like protein |
Q81596413 | Identification of SUMO-protein conjugates |
Q30046052 | Identification of a novel post-translational modification in Plasmodium falciparum: protein sumoylation in different cellular compartments |
Q28593062 | Identification of developmentally expressed proteins that functionally interact with Nedd4 ubiquitin ligase |
Q33209458 | Identification of sites of ubiquitination in proteins: a fourier transform ion cyclotron resonance mass spectrometry approach |
Q46137258 | Increased expression of FAT10 is correlated with progression and prognosis of human glioma. |
Q24536345 | Influenza B virus NS1 protein inhibits conjugation of the interferon (IFN)-induced ubiquitin-like ISG15 protein |
Q27640736 | Insights into the ubiquitin transfer cascade from the structure of the activating enzyme for NEDD8 |
Q28239188 | Interaction between the 2'-5' oligoadenylate synthetase-like protein p59 OASL and the transcriptional repressor methyl CpG-binding protein 1 |
Q37683519 | Interferon-Stimulated Gene 15 in the Control of Cellular Responses to Genotoxic Stress. |
Q24563471 | Interferon-inducible ubiquitin E2, Ubc8, is a conjugating enzyme for protein ISGylation |
Q40749748 | Lipopolysaccharide activates the expression of ISG15-specific protease UBP43 via interferon regulatory factor 3. |
Q34027136 | Mdm2-SUMO1: is bigger better? |
Q81596367 | Mechanism-based proteomics tools based on ubiquitin and ubiquitin-like proteins: crystallography, activity profiling, and protease identification |
Q24531180 | Members of the PIAS family act as SUMO ligases for c-Jun and p53 and repress p53 activity |
Q27011543 | Modification by ubiquitin-like proteins: significance in apoptosis and autophagy pathways |
Q84107009 | Molecular characterization of SUMO E2 conjugation enzyme: differential expression profile in Schistosoma mansoni |
Q40691037 | Molecular cloning of the fish interferon stimulated gene, 15 kDa (ISG15) orthologue: a ubiquitin-like gene induced by nephrotoxic damage |
Q28217538 | Mouse Apg10 as an Apg12-conjugating enzyme: analysis by the conjugation-mediated yeast two-hybrid method |
Q39731260 | NEDD8 recruits E2-ubiquitin to SCF E3 ligase. |
Q24306918 | NEDD8 ultimate buster-1L interacts with the ubiquitin-like protein FAT10 and accelerates its degradation |
Q27640762 | NMR structure of ubiquitin-like domain in PARKIN: gene product of familial Parkinson's disease |
Q43260050 | Native-state dynamics of the ubiquitin family: implications for function and evolution |
Q73633793 | Non-covalent interaction of ubiquitin with insulin-degrading enzyme |
Q39683565 | Nuclear IE2 structures are related to viral DNA replication sites during baculovirus infection |
Q27936345 | Nuclear import of UBL-domain protein Mdy2 is required for heat-induced stress response in Saccharomyces cerevisiae |
Q35114287 | Orchestrating nuclear functions: ubiquitin sets the rhythm. |
Q36209538 | PCNA-Dependent Cleavage and Degradation of SDE2 Regulates Response to Replication Stress |
Q35748069 | Parkin localizes to the Lewy bodies of Parkinson disease and dementia with Lewy bodies |
Q35094786 | Parkin's substrates and the pathways leading to neuronal damage |
Q24296712 | Phosphatidylserine in addition to phosphatidylethanolamine is an in vitro target of the mammalian Atg8 modifiers, LC3, GABARAP, and GATE-16 |
Q41845102 | Phosphorylation is required for PMA- and cell-cycle-induced degradation of protein kinase Cdelta. |
Q28305802 | Pleiotropic effects of ATP.Mg2+ binding in the catalytic cycle of ubiquitin-activating enzyme |
Q28301654 | Proteasomal protein degradation in Mycobacteria is dependent upon a prokaryotic ubiquitin-like protein |
Q27930136 | Proteasome subunit Rpn1 binds ubiquitin-like protein domains |
Q34868376 | Proteasome-dependent, ubiquitin-independent degradation of the Rb family of tumor suppressors by the human cytomegalovirus pp71 protein |
Q79993235 | Proteasome-mediated CCAAT/enhancer-binding protein delta (C/EBPdelta) degradation is ubiquitin-independent |
Q40690946 | Proteasomes modulate conjugation to the ubiquitin-like protein, ISG15. |
Q24672739 | Protein ISGylation modulates the JAK-STAT signaling pathway |
Q24806914 | Proteins with two SUMO-like domains in chromatin-associated complexes: the RENi (Rad60-Esc2-NIP45) family |
Q38605568 | Proteomic techniques to probe the ubiquitin landscape |
Q39493680 | Q2N and S65D substitutions of ubiquitin unravel functional significance of the invariant residues Gln2 and Ser65. |
Q81596375 | Quantifying protein-protein interactions in the ubiquitin pathway by surface plasmon resonance |
Q33347586 | RAWUL: a new ubiquitin-like domain in PRC1 ring finger proteins that unveils putative plant and worm PRC1 orthologs |
Q35214019 | Recombinant scorpine produced using SUMO fusion partner in Escherichia coli has the activities against clinically isolated bacteria and inhibits the Plasmodium falciparum parasitemia in vitro |
Q37416624 | Regulation of Ebola virus VP40 matrix protein by SUMO. |
Q28204429 | Regulation of Pax3 transcriptional activity by SUMO-1-modified PML |
Q34367642 | Regulation of apoptosis by fau revealed by functional expression cloning and antisense expression |
Q28115531 | Regulation of monoubiquitinated PCNA by DUB autocleavage |
Q39466076 | Regulation of vaccinia virus E3 protein by small ubiquitin-like modifier proteins |
Q28213222 | Regulatory functions of ubiquitination in the immune system |
Q24602452 | Repression of PML nuclear body-associated transcription by oxidative stress-activated Bach2 |
Q47662544 | Rice SUMO protease Overly Tolerant to Salt 1 targets the transcription factor, OsbZIP23 to promote drought tolerance in rice. |
Q28566759 | Role of Herp in the endoplasmic reticulum stress response |
Q33572264 | SENP5 mediates breast cancer invasion via a TGFβRI SUMOylation cascade |
Q24306367 | SGTA recognizes a noncanonical ubiquitin-like domain in the Bag6-Ubl4A-Trc35 complex to promote endoplasmic reticulum-associated degradation |
Q27931553 | SIZ1/SIZ2 control of chromosome transmission fidelity is mediated by the sumoylation of topoisomerase II |
Q89936541 | SUMO Conjugation to BZR1 Enables Brassinosteroid Signaling to Integrate Environmental Cues to Shape Plant Growth |
Q58772325 | SUMO Suppresses the Activity of the Jasmonic Acid Receptor CORONATINE INSENSITIVE1 |
Q36220537 | SUMO fusion technology for difficult-to-express proteins |
Q30342324 | SUMO fusions and SUMO-specific protease for efficient expression and purification of proteins. |
Q33939449 | SUMO, ubiquitin's mysterious cousin |
Q34581013 | SUMOylation at K340 inhibits tau degradation through deregulating its phosphorylation and ubiquitination |
Q34465900 | Searching for interferon-induced genes that inhibit hepatitis B virus replication in transgenic mouse hepatocytes |
Q27646472 | Sequence and structure evolved separately in a ribosomal ubiquitin variant |
Q55034937 | Signal transduction. An alternative to destruction. |
Q36626380 | Signaling, polyubiquitination, trafficking, and inclusions: sequestosome 1/p62's role in neurodegenerative disease. |
Q36168994 | Small ubiquitin-like modifying protein isopeptidase assay based on poliovirus RNA polymerase activity |
Q30654383 | Small-molecule activation of SERCA2a SUMOylation for the treatment of heart failure |
Q27678105 | Solution Structure and Rpn1 Interaction of the UBL Domain of Human RNA Polymerase II C-Terminal Domain Phosphatase |
Q42190705 | Solution structure of the ubiquitin-like domain of human DC-UbP from dendritic cells |
Q38656328 | Spatiotemporal regulation of posttranslational modifications in the DNA damage response |
Q34551647 | Specific and covalent targeting of conjugating and deconjugating enzymes of ubiquitin-like proteins |
Q46794672 | Strategies for assaying deubiquitinating enzymes |
Q24644768 | Structural analysis of UBL5, a novel ubiquitin-like modifier |
Q28592429 | Structural basis for Ufm1 processing by UfSP1 |
Q24529121 | Structural basis of NEDD8 ubiquitin discrimination by the deNEDDylating enzyme NEDP1. |
Q28511891 | Structural basis of the interaction between the AAA ATPase p97/VCP and its adaptor protein p47 |
Q28208277 | Structure-function analysis of Bag1 proteins. Effects on androgen receptor transcriptional activity |
Q27675050 | Structures of the Sgt2/SGTA Dimerization Domain with the Get5/UBL4A UBL Domain Reveal an Interaction that Forms a Conserved Dynamic Interface |
Q31097492 | Survey of transcript expression in rainbow trout leukocytes reveals a major contribution of interferon-responsive genes in the early response to a rhabdovirus infection |
Q34232394 | TR-FRET-based high-throughput screening assay for identification of UBC13 inhibitors. |
Q34142367 | Targeting protein ubiquitination for drug discovery. What is in the drug discovery toolbox? |
Q42115583 | The DNA damage-inducible UbL-UbA protein Ddi1 participates in Mec1-mediated degradation of Ho endonuclease |
Q24296256 | The DNA topoisomerase I binding protein topors as a novel cellular target for SUMO-1 modification: characterization of domains necessary for subcellular localization and sumolation |
Q34345166 | The ISG15 isopeptidase UBP43 is regulated by proteolysis via the SCFSkp2 ubiquitin ligase |
Q47691981 | The Molecular Basis of the Sodium Dodecyl Sulfate Effect on Human Ubiquitin Structure: A Molecular Dynamics Simulation Study. |
Q21129204 | The NEDD8 modification pathway in plants |
Q28592951 | The NEDD8 system is essential for cell cycle progression and morphogenetic pathway in mice |
Q28118953 | The RanBP2 SUMO E3 ligase is neither HECT- nor RING-type |
Q24337252 | The UBA domains of NUB1L are required for binding but not for accelerated degradation of the ubiquitin-like modifier FAT10 |
Q24562149 | The UbcH8 ubiquitin E2 enzyme is also the E2 enzyme for ISG15, an IFN-alpha/beta-induced ubiquitin-like protein |
Q34185745 | The Ulp1 SUMO isopeptidase: distinct domains required for viability, nuclear envelope localization, and substrate specificity |
Q37631212 | The human oviduct transcriptome reveals an anti-inflammatory, anti-angiogenic, secretory and matrix-stable environment during embryo transit |
Q28115324 | The polycomb protein Pc2 is a SUMO E3 |
Q24669533 | The ubiquitin-associated domain of hPLIC-2 interacts with the proteasome |
Q28593695 | The ubiquitin-like protein FAT10 forms covalent conjugates and induces apoptosis |
Q41011726 | The ubiquitin-like protein HUB1 forms SDS-resistant complexes with cellular proteins in the absence of ATP. |
Q34997040 | The ubiquitin-proteasome pathway and the regulation of growth hormone receptor availability |
Q24292709 | The ubiquitin-proteasome proteolytic pathway: destruction for the sake of construction |
Q34294337 | The ubiquitin-proteasome system: central modifier of plant signalling |
Q28206411 | Themes and variations on ubiquitylation |
Q73181474 | Two-stepping with E1 |
Q42048093 | Type I interferon gene transfer sensitizes melanoma cells to apoptosis via a target activity on mitochondrial function |
Q34639612 | UBE1L2, a novel E1 enzyme specific for ubiquitin |
Q27863712 | UBP43 (USP18) specifically removes ISG15 from conjugated proteins |
Q26747096 | UFMylation: A Unique & Fashionable Modification for Life |
Q33307870 | Ubiquitin domain proteins in disease |
Q24321299 | Ubiquitin is a novel substrate for human insulin-degrading enzyme |
Q35023485 | Ubiquitin system: JAMMing in the name of the lid. |
Q37219733 | Ubiquitin-family modifications of topoisomerase I in camptothecin-treated human breast cancer cells |
Q39149390 | Ubiquitin-like Protein Conjugation: Structures, Chemistry, and Mechanism |
Q35691524 | Ubiquitin-like protein activation. |
Q34637173 | Ubiquitin-related modifier SUMO1 and nucleocytoplasmic transport. |
Q27932043 | Ubiquitin-related modifier Urm1 acts as a sulphur carrier in thiolation of eukaryotic transfer RNA. |
Q44151437 | Ubiquitylation of BAG-1 suggests a novel regulatory mechanism during the sorting of chaperone substrates to the proteasome |
Q36065915 | Viral defense, carcinogenesis and ISG15: novel roles for an old ISG |
Q36480678 | Viral modulators of cullin RING ubiquitin ligases: culling the host defense |
Q30916919 | Vitellin cleavage products are proteolytically degraded by ubiquitination in stick insect embryos |
Q34186421 | fau and its ubiquitin-like domain (FUBI) transforms human osteogenic sarcoma (HOS) cells to anchorage-independence |
Q46268138 | iUUCD 2.0: an update with rich annotations for ubiquitin and ubiquitin-like conjugations. |
Q40311418 | p53 negatively regulates the expression of FAT10, a gene upregulated in various cancers. |
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