about
Time-of-day- and light-dependent expression of ubiquitin protein ligase E3 component N-recognin 4 (UBR4) in the suprachiasmatic nucleus circadian clockSequence-specific recognition of a PxLPxI/L motif by an ankyrin repeat tumbler lockSelective extraction of peptides from human plasma by highly ordered mesoporous silica particles for peptidome analysis.Highly specific enrichment of phosphopeptides by zirconium dioxide nanoparticles for phosphoproteome analysis.The highly selective capture of phosphopeptides by zirconium phosphonate-modified magnetic nanoparticles for phosphoproteome analysis.Combinatorial proteomic analysis of intercellular signaling applied to the CD28 T-cell costimulatory receptor.Phosphorylation of the Bin, Amphiphysin, and RSV161/167 (BAR) domain of ACAP4 regulates membrane tubulation.Exploring intercellular signaling by proteomic approaches.3D-SISPROT: A simple and integrated spintip-based protein digestion and three-dimensional peptide fractionation technology for deep proteome profiling.Proteomic Analysis of Secreted Proteins from Cell Microenvironment.Mutational Analysis of Glycogen Synthase Kinase 3β Protein Kinase Together with Kinome-Wide Binding and Stability Studies Suggests Context-Dependent Recognition of Kinases by the Chaperone Heat Shock Protein 90.SH2 Domains as Affinity Reagents for Phosphotyrosine Protein Enrichment and Proteomic Analysis.Identification, Quantification, and Site Localization of Protein Posttranslational Modifications via Mass Spectrometry-Based Proteomics.Phosphorylation of PP1 Regulator Sds22 by PLK1 Ensures Accurate Chromosome Segregation.A novel whole-cell lysate kinase assay identifies substrates of the p38 MAPK in differentiating myoblasts.Rare cell proteomic reactor applied to stable isotope labeling by amino acids in cell culture (SILAC)-based quantitative proteomics study of human embryonic stem cell differentiation.Simple and Integrated Spintip-Based Technology Applied for Deep Proteome Profiling.Mitosis-specific acetylation tunes Ran effector binding for chromosome segregation.High throughput and accurate serum proteome profiling by integrated sample preparation technology and single-run data independent mass spectrometry analysis.MST4 kinase phosphorylates ACAP4 protein to orchestrate apical membrane remodeling during gastric acid secretion.Deep Metaproteomics Approach for the Study of Human Microbiomes.Facile synthesis of carboxymethyl-β-cyclodextrin conjugated magnetic nanoparticles for selective enrichment of glycopeptides.Spatial-Resolution Cell Type Proteome Profiling of Cancer Tissue by Fully Integrated Proteomics Technology.Analysis of low-abundance proteins using the proteomic reactor with pH fractionation.Soluble FLT1 binds lipid microdomains in podocytes to control cell morphology and glomerular barrier function.An integrated and quantitative proteomic approach for charting temporal and endogenous protein complexesElectrochromatographic evaluation of a silica monolith capillary column for separation of basic pharmaceuticalsAcetylation of ACAP4 regulates CCL18-elicited breast cancer cell migration and invasionFast quantitative urinary proteomic profiling workflow for biomarker discovery in kidney cancerUltrafast enzyme immobilization over large-pore nanoscale mesoporous silica particlesDevelopment of a multiplexed microfluidic proteomic reactor and its application for studying protein-protein interactionsMixed-mode ion exchange-based integrated proteomics technology for fast and deep plasma proteome profilingAn integrated strategy for highly sensitive phosphoproteome analysis from low micrograms of protein samplesBruton's tyrosine kinase potentiates ALK signaling and serves as a potential therapeutic target of neuroblastomaOPA-Based Bifunctional Linker for Protein Labeling and ProfilingAn integrated strategy for high-sensitive and multi-level glycoproteome analysis from low micrograms of protein samplesHigh-Throughput Phosphotyrosine Protein Complexes Screening by Photoaffinity-Engineered Protein Scaffold-Based Forward-Phase Protein ArrayEvolution of Nucleic Acid Aptamers Capable of Specifically Targeting Glioma Stem Cells via Cell-SELEXA Fully Integrated Spintip-Based Approach for Sensitive and Quantitative Profiling of Region-Resolved in Vivo Brain GlycoproteomeTargeting LIF-mediated paracrine interaction for pancreatic cancer therapy and monitoring
P50
Q27318176-5FD18CED-7DBB-4ACE-93FF-501FFC00C653Q27679372-90E39566-F2F8-4BCE-9391-A9C5848E905FQ33266284-515CF148-132C-45D5-8CCF-3FC54B0C849AQ33286289-FF1C69CA-5215-4EB8-BD61-E3EDC8E12402Q33337690-FE2ABCB5-3F4C-49F4-9452-6B816940D2BCQ35280424-5F995BA1-C365-4920-806C-52BED0F0169EQ36990789-04CB2F37-9A4E-4D27-A479-1D63778038CDQ38161437-B781C57A-D7F4-46E5-80D6-67CBD1C7FE1BQ38437695-FA09FB2F-BF68-44D4-A967-697BFD20C328Q38598349-F7B6BEB6-D84F-4605-9E21-18B5EB6D8595Q38804676-DC1D7393-B27B-44A5-9180-0FE9C3E4DEBDQ39018601-8AC22CBA-D717-46C5-AAAF-6BC1B894DDD5Q39099883-6100C1F0-AB51-4079-9422-8EF13420A7F6Q41549504-7B37D6F6-0401-4CF4-B4B0-636F04BB17A3Q42158457-DE145C9D-8AFB-4D4D-B9FF-AB78A65191C9Q42283856-D64F8B2B-8168-46FE-A9AD-3D09222F401FQ46333299-96397A7F-B0AB-4FFF-9B96-840D07DEBE5AQ47037353-8B9CE4B6-402D-442A-8494-87B85892CD26Q47247606-388AF76A-DF47-4320-ADAE-9CC9D76CFD41Q47953056-69700335-0D58-4C93-8653-715CF8AF5100Q48021615-68412F7F-2017-4B48-9821-D27FAAACB60AQ51193178-3494ED2C-5DA2-48CF-927C-288E8BDB15E8Q52594359-6CA91964-678F-423B-A2FC-EF46325150CBQ53347773-5609472A-262F-4E56-8635-A37A5E1DFB02Q54477853-83D14B36-AC64-4391-8880-1A9B78C41DCBQ57033295-F2B83B7A-4515-46D8-BACC-FF2AABFA7EC3Q57342967-74340B53-CBA0-4EAE-BF37-3B864A724E51Q58610957-F02629B7-93DC-43A4-B1A5-65699E18FD0CQ60936411-58848667-A626-4F7D-92CC-D1C5BFBC6440Q82830417-C733F621-3267-42E5-9CA4-4E09C36E32A7Q83971711-50D2628F-18C3-43F3-86F6-78D80CDDD6D2Q89215224-D4E44265-1E14-4CC1-BC89-3F655DEDB478Q89442682-C01B2842-E3DD-4B1A-9C3C-393AD91169C4Q90256133-3A448E04-D8C3-4F56-B942-A221E6FBBD67Q90966081-E64F6A3D-A5B6-48D2-831F-9DFBECB1B0BEQ91620486-0D01609D-F080-4F1C-A4DF-8C39A3061D73Q91699288-4566583E-B09E-4539-9F72-43B3B3CE5727Q92623225-C4D0CFF2-3D8A-470B-851A-CF86C2AF9256Q93069752-CD5D68F1-835C-4A9D-8071-325D2D38117AQ93163668-8111997F-D310-4ADB-ADED-28304B1C4CAF
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Ruijun Tian
@ast
Ruijun Tian
@en
Ruijun Tian
@es
Ruijun Tian
@nl
Ruijun Tian
@sl
type
label
Ruijun Tian
@ast
Ruijun Tian
@en
Ruijun Tian
@es
Ruijun Tian
@nl
Ruijun Tian
@sl
prefLabel
Ruijun Tian
@ast
Ruijun Tian
@en
Ruijun Tian
@es
Ruijun Tian
@nl
Ruijun Tian
@sl
P106
P31
P496
0000-0001-9521-5124