Coherent membrane supports for parallel microsynthesis and screening of bioactive peptides.
about
Y65C missense mutation in the WW domain of the Golabi-Ito-Hall syndrome protein PQBP1 affects its binding activity and deregulates pre-mRNA splicingDevelopment of a novel peptide microarray for large-scale epitope mapping of food allergensFully automated synthesis of (phospho)peptide arrays in microtiter plate wells provides efficient access to protein tyrosine kinase characterizationSUPERFICIAL--surface mapping of proteins via structure-based peptide library design.Synthetic peptide arrays for investigating protein interaction domainsStructural Basis for Two-component System Inhibition and Pilus Sensing by the Auxiliary CpxP ProteinStructure of the Arginine Methyltransferase PRMT5-MEP50 Reveals a Mechanism for Substrate SpecificityModulation of the Chromatin Phosphoproteome by the Haspin Protein KinaseMolecular basis for the substrate specificity of NIMA-related kinase-6 (NEK6). Evidence that NEK6 does not phosphorylate the hydrophobic motif of ribosomal S6 protein kinase and serum- and glucocorticoid-induced protein kinase in vivoProtein identification false discovery rates for very large proteomics data sets generated by tandem mass spectrometryComparison of peptide array substrate phosphorylation of c-Raf and mitogen activated protein kinase kinase kinase 8Analysis of clonal type-specific antibody reactions in Toxoplasma gondii seropositive humans from Germany by peptide-microarrayPeptide Arrays for Binding Studies of E3 Ubiquitin Ligases.A fluorescence-based array screen for transglutaminase substrates.The peptide microarray "ChloroPhos1.0" identifies new phosphorylation targets of plastid casein kinase II (pCKII) in Arabidopsis thaliana.An acetylome peptide microarray reveals specificities and deacetylation substrates for all human sirtuin isoforms.Profiling Phosphopeptide-Binding Domain Recognition Specificity Using Peptide Microarrays.Peptide chips for the quantitative evaluation of protein kinase activity.Peptide arrays for kinase profiling.Affinity of TatCd for TatAd elucidates its receptor function in the Bacillus subtilis twin arginine translocation (Tat) translocase system.Analysis of the substrate specificity of the Dim-5 histone lysine methyltransferase using peptide arrays.A novel subtype of AP-1-binding motif within the palmitoylated trans-Golgi network/endosomal accessory protein Gadkin/gamma-BARFull dynamic range proteome analysis of S. cerevisiae by targeted proteomicsStudying protein-protein interactions using peptide arrays.mProphet: automated data processing and statistical validation for large-scale SRM experiments.The SH2 domain interaction landscapeEpitope mapping of antibodies to VlsE protein of Borrelia burgdorferi in post-Lyme disease syndromeInvestigation of the network of preferred interactions in an artificial coiled-coil association using the peptide array technique.Synthetic peptide arrays for pathway-level protein monitoring by liquid chromatography-tandem mass spectrometry.Reproducible quantification of cancer-associated proteins in body fluids using targeted proteomics.N-glycoprotein SRMAtlas: a resource of mass spectrometric assays for N-glycosites enabling consistent and multiplexed protein quantification for clinical applications.Designing isoform-specific peptide disruptors of protein kinase A localization.Quantitative functional analysis of protein complexes on surfaces.Functional analysis of centrosomal kinase substrates in Drosophila melanogaster reveals a new function of the nuclear envelope component otefin in cell cycle progression.Sequence determinants of a microtubule tip localization signal (MtLS).Cellulose-bound peptide arrays: preparation and applications.Molecular basis of Kar9-Bim1 complex function during mating and spindle positioning.Deciphering enzyme function using peptide arrays.Topography of the surface of the signal-transducing protein EIIA(Glc) that interacts with the MalK subunits of the maltose ATP-binding cassette transporter (MalFGK2) of Salmonella typhimurium.Individually addressable parallel peptide synthesis on microchips.
P2860
Q24634410-15BFF9D6-BD06-4293-A290-97D4756D86F5Q24657678-7C2087D2-9BCE-4BD3-81DD-49E3A633ECA4Q24792853-860C5CA1-6CE5-440E-8506-88EA2EBB17F3Q24814589-90AE9CC5-FE9B-4689-9308-8E70C2277B82Q27002520-69D3E030-6A61-4ED2-8C8C-63264A07D749Q27666591-5CDD61DE-FB01-4C14-BDC8-533F298108A3Q27676657-B0FA86D8-7EBA-44E6-A862-9174360F330CQ27683332-251DFB6F-F43C-4821-863D-AB735070B2EFQ28218728-895A8CAB-2261-4A69-A572-AF9BD00715D5Q28252235-6968F18F-ECA2-454E-B703-DB742B9E1FD9Q28475843-54A13362-3217-40CA-9768-453E5F1E7F3CQ28730892-E6A96EB5-2CBA-451B-B7EF-3C26F7EBCC4AQ30314012-D3850029-5E5D-4E83-92D6-0194DE512DEBQ30316575-7204F58F-6B90-4A1E-A27F-D82176F8BF3BQ30317024-37B8F0F3-9603-4A7C-82C8-517B3868FFC3Q30317729-2D5FC30C-AC70-425B-8683-5A2AF8729B7DQ30395497-EC258397-B92A-4B92-8F10-FBA9B0AC4EA7Q30822070-7A858AF7-871A-4A8B-BF22-6ABCB5411B06Q31150796-599A7067-C220-426B-8851-0AD5B3D16313Q33243371-EF9807A3-70AE-4C31-ABD3-A2E38CB2EC3EQ33316263-D262C615-0D1F-49F5-8103-942F93D81457Q33662294-036253EE-4580-4FC4-8ECF-67EABE6CB40BQ33674206-F7593CC1-1535-4548-A397-4289069FB51FQ33795866-7EA65CD8-79EA-4E98-8BCD-DC500037B950Q33851184-1A5DBEC2-3A61-4BB8-AFBF-587538364906Q33947399-77A80CBD-0FD5-4FF4-A9E4-2D8238583F74Q34202515-50AC5533-CE3F-4539-9583-97505ABBFD0EQ34259602-8650D051-8789-4794-AD82-CC181D826CA0Q34320740-CBBB4485-85C4-49A5-8FAA-F7A7C3BE5AD6Q34333925-3331A439-4C62-442D-8064-62C40100D896Q34585592-8937B98E-0F5B-4A94-BF03-686751CC3928Q34921315-45BC884B-653D-455E-B51A-4D21607C1BD5Q35990983-3A42FEBA-FFA2-4224-9CF6-0866759BEB93Q36172891-8CC5E95C-5AD5-4EF8-9D23-D6099BD09DC2Q36217223-A1CA7BD9-3E48-46BC-9C4D-206A22C077A4Q37024675-13CD2AA1-AB5A-4C47-A564-CE7BAD6D87FDQ37518039-7BCE5AC7-AD25-41A7-8DC6-906460502C09Q37878429-9603A938-2E30-4154-9571-9A53D83B1C98Q38315123-6CEF22AF-1567-4029-9D2C-B8F960A00058Q38364077-C9A7DB36-FA99-4166-95B6-164050C42F90
P2860
Coherent membrane supports for parallel microsynthesis and screening of bioactive peptides.
description
2000 nî lūn-bûn
@nan
2000 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Coherent membrane supports for ...... reening of bioactive peptides.
@ast
Coherent membrane supports for ...... reening of bioactive peptides.
@en
Coherent membrane supports for ...... reening of bioactive peptides.
@nl
type
label
Coherent membrane supports for ...... reening of bioactive peptides.
@ast
Coherent membrane supports for ...... reening of bioactive peptides.
@en
Coherent membrane supports for ...... reening of bioactive peptides.
@nl
prefLabel
Coherent membrane supports for ...... reening of bioactive peptides.
@ast
Coherent membrane supports for ...... reening of bioactive peptides.
@en
Coherent membrane supports for ...... reening of bioactive peptides.
@nl
P2093
P2860
P1433
P1476
Coherent membrane supports for ...... reening of bioactive peptides.
@en
P2093
Schneider-Mergener J
Volkmer-Engert R
Wenschuh H
P2860
P304
P356
10.1002/1097-0282(2000)55:3<188::AID-BIP20>3.0.CO;2-T
P577
2000-01-01T00:00:00Z