about
Ubiquitin modificationsUrinary proteomics and metabolomics studies to monitor bladder health and urological diseasesExpanding the ubiquitin code through post-translational modificationEndogenous Parkin Preserves Dopaminergic Substantia Nigral Neurons following Mitochondrial DNA Mutagenic StressSystematic approaches to identify E3 ligase substratesThe Role of Proteases in Hippocampal Synaptic Plasticity: Putting Together Small Pieces of a Complex Puzzle.Bioinformatics analysis of the prognostic value of Tripartite Motif 28 in breast cancerSystem-Wide Modulation of HECT E3 Ligases with Selective Ubiquitin Variant Probes.Ubr3, a Novel Modulator of Hh Signaling Affects the Degradation of Costal-2 and Kif7 through Poly-ubiquitination.The PINK1-PARKIN Mitochondrial Ubiquitylation Pathway Drives a Program of OPTN/NDP52 Recruitment and TBK1 Activation to Promote MitophagyPrecision Medicine for Molecularly Targeted Agents and Immunotherapies in Early-Phase Clinical Trials.Identification and Characterization of miRNAs in Chondrus crispus by High-Throughput Sequencing and Bioinformatics Analysis.RNF166 Determines Recruitment of Adaptor Proteins during Antibacterial Autophagy.RNF167 targets Arl8B for degradation to regulate lysosome positioning and endocytic trafficking.Insights into links between autophagy and the ubiquitin system from the structure of LC3B bound to the LIR motif from the E3 ligase NEDD4.Identifying Regulatory Posttranslational Modifications of PD-L1: A Focus on Monoubiquitinaton.A Biologist's Field Guide to Multiplexed Quantitative Proteomics.Highly Multiplexed Quantitative Mass Spectrometry Analysis of Ubiquitylomes.The emerging complexity of ubiquitin architecture.Parkin and PINK1 functions in oxidative stress and neurodegeneration.Ubiquitin recognition by the proteasome.Ubiquitin and Parkinson's disease through the looking glass of genetics.Ubiquitin enzymes in the regulation of immune responses.A phosphorylation-and-ubiquitylation circuitry driving ATR activation and homologous recombination.The thiazide sensitive sodium chloride co-transporter NCC is modulated by site-specific ubiquitylation.Fbxo4-mediated degradation of Fxr1 suppresses tumorigenesis in head and neck squamous cell carcinoma.Novel polyubiquitin imaging system, PolyUb-FC, reveals that K33-linked polyubiquitin is recruited by SQSTM1/p62.An invisible ubiquitin conformation is required for efficient phosphorylation by PINK1.High-Throughput Screening of HECT E3 Ubiquitin Ligases Using UbFluor.Ub-ProT reveals global length and composition of protein ubiquitylation in cells.K63 ubiquitylation triggers proteasomal degradation by seeding branched ubiquitin chains.Utilizing a Comprehensive Immunoprecipitation Enrichment System to Identify an Endogenous Post-translational Modification Profile for Target Proteins.Ubiquitin-Mediated Regulation of RIPK1 Kinase Activity Independent of IKK and MK2.UbFluor: A Fluorescent Thioester to Monitor HECT E3 Ligase Catalysis.A VCP inhibitor substrate trapping approach (VISTA) enables proteomic profiling of endogenous ERAD substrates.Utilizing Optimized Tools to Investigate PTM Crosstalk: Identifying Potential PTM Crosstalk of Acetylated Mitochondrial Proteins.
P2860
Q26751380-58410D12-346E-4235-85A2-230B8BE35A95Q26752864-9725A20A-CA8B-4E80-A42B-7B1BD71A2CB0Q26798369-3DF42646-65AB-48A7-A51E-E5C1FE3853EDQ27305291-B434D0D0-8E99-425B-9A0C-A3E2A00413E6Q28068398-680D3C3F-FA46-47E9-850A-A568B6C8E6BDQ33361879-6ED7468D-8280-4F25-B654-637E73AF21B8Q33598054-2F382EC3-8DBC-4987-86BB-C30CE4A3864FQ35947378-FEE7B67B-3205-46A5-A0CD-F282F111C1EBQ36022190-880DEAA1-52E8-44AC-8E45-DFD4161291D9Q36118105-63F3A600-7C0E-41DB-88D0-44419DC140BEQ36288987-AC86DE87-5904-4C35-A519-B061B162B5F9Q36914949-4AAB5176-A884-44D9-89EC-BC700C0E7C4CQ37539697-914FF994-B811-4903-9C35-70F5AC98D84FQ38409024-9B048246-B691-4571-B715-E01D8034E744Q38704902-FCE81A0A-03DC-437E-B9D6-0363E63A599CQ38711525-34E851DA-7CD3-4F76-BD1B-443E7C3BC460Q38731736-173FCB92-AABC-4DA8-89B7-FB611FAB13D7Q38736515-78A1A609-57A5-4CD9-B09B-FECD9733562CQ39052139-5260802B-56E4-4D9A-BCB7-C65E2C6B1705Q39054548-98D1B7AC-4F24-4A5E-B046-22535EDCF4B9Q39077452-C6A295DD-FB11-42B0-839D-D354DDA266D7Q39241365-353AD6F4-C4C1-4EFC-BFBD-0B89F4659B51Q39317949-495C7621-FBE9-4F50-96FE-730BCB541F1BQ41627605-13995D6F-C74E-4E7C-B592-B482B90A0D58Q41911751-1D3C1BF7-8AF1-4D44-BC32-0E36CC2825E9Q46089793-EDCEE2F3-B9E6-44FB-8817-A8FAB9301BD5Q47374592-582F76FB-7510-4A44-91D3-7D10219A752EQ47407025-33780C59-74B0-4C80-9757-D3607848D0D6Q47802028-2930E052-4CCF-4308-8D15-2BDFAD552BFCQ48096070-A15AF0C7-313B-48D8-8F3B-400F51FE5F83Q49596652-671473E3-49F2-4553-82DE-45BD3A762947Q49826920-203CD8AD-26E2-493E-AC48-18F0081E46E3Q49920451-6822860D-D04B-4C1A-AAB2-AA81DB2A3D2FQ51115136-57D65DC7-5EF8-4D72-B32F-459A771F1550Q52668654-9A418B41-F5AC-4DEE-A122-3D69A6E5CF8AQ54108124-6D034507-B409-49D0-9B81-E5A4B66162FF
P2860
description
2015 nî lūn-bûn
@nan
2015 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
name
Quantifying ubiquitin signaling
@ast
Quantifying ubiquitin signaling
@en
Quantifying ubiquitin signaling
@nl
type
label
Quantifying ubiquitin signaling
@ast
Quantifying ubiquitin signaling
@en
Quantifying ubiquitin signaling
@nl
prefLabel
Quantifying ubiquitin signaling
@ast
Quantifying ubiquitin signaling
@en
Quantifying ubiquitin signaling
@nl
P2093
P2860
P50
P3181
P1433
P1476
Quantifying ubiquitin signaling
@en
P2093
Alban Ordureau
Christian Münch
J. Wade Harper
P2860
P304
P3181
P356
10.1016/J.MOLCEL.2015.02.020
P407
P577
2015-05-01T00:00:00Z