SNOSID, a proteomic method for identification of cysteine S-nitrosylation sites in complex protein mixtures.
about
Target-selective protein S-nitrosylation by sequence motif recognitionProtein microarray characterization of the S-nitrosoproteomeHuman spermatozoa contain multiple targets for protein S-nitrosylation: an alternative mechanism of the modulation of sperm function by nitric oxide?Balancing reactivity against selectivity: the evolution of protein S-nitrosylation as an effector of cell signaling by nitric oxideThe Measurement of Reversible Redox Dependent Post-translational Modifications and Their Regulation of Mitochondrial and Skeletal Muscle FunctionStrategies for profiling native S-nitrosylationGasotransmitters in Gametogenesis and Early Development: Holy Trinity for Assisted Reproductive Technology-A ReviewMass spectrometry in studies of protein thiol chemistry and signaling: opportunities and caveatsThe chemical biology of S-nitrosothiolsS-nitrosylation-induced conformational change in blackfin tuna myoglobinS-nitrosylation of Drp1 links excessive mitochondrial fission to neuronal injury in neurodegenerationA protein microarray-based analysis of S-nitrosylation.Characterization of potential S-nitrosylation sites in the myocardiumComprehensive identification and modified-site mapping of S-nitrosylated targets in prostate epithelial cellsESNOQ, proteomic quantification of endogenous S-nitrosationiSNO-PseAAC: predict cysteine S-nitrosylation sites in proteins by incorporating position specific amino acid propensity into pseudo amino acid compositionDifficulties in generating specific antibodies for immunohistochemical detection of nitrosylated tubulinsAn Interplay of S-Nitrosylation and Metal Ion Binding for Astrocytic S100B ProteinProteomic profiling of acrolein adducts in human lung epithelial cellsS-nitrosation of proteins relevant to Alzheimer's disease during early stages of neurodegenerationElectrospray tandem mass spectrometry analysis of S- and N-nitrosopeptides: facile loss of NO and radical-induced fragmentation.Prediction of S-nitrosylation modification sites based on kernel sparse representation classification and mRMR algorithm.Protein 3-nitrotyrosine in complex biological samples: quantification by high-pressure liquid chromatography/electrochemical detection and emergence of proteomic approaches for unbiased identification of modification sitesMethods for the determination and quantification of the reactive thiol proteome.Redox biology: computational approaches to the investigation of functional cysteine residuesProteomic approaches to quantify cysteine reversible modifications in aging and neurodegenerative diseases.Methodologies for the characterization, identification and quantification of S-nitrosylated proteins.S-sulfhydration/desulfhydration and S-nitrosylation/denitrosylation: a common paradigm for gasotransmitter signaling by H2S and NO.S-Nitrosothiol measurements in biological systems.S-nitrosylation of surfactant protein-D controls inflammatory functionProtein post-translational modifications: In silico prediction tools and molecular modeling.GPS-SNO: computational prediction of protein S-nitrosylation sites with a modified GPS algorithm.Resin-assisted enrichment of thiols as a general strategy for proteomic profiling of cysteine-based reversible modificationsGolgi and sarcolemmal neuronal NOS differentially regulate contraction-induced fatigue and vasoconstriction in exercising mouse skeletal muscleEnhancement of insulin responsiveness by nitric oxide-mediated inactivation of protein-tyrosine phosphatases.Effects of ionizing radiation on biological molecules--mechanisms of damage and emerging methods of detectionProteomic quantification and site-mapping of S-nitrosylated proteins using isobaric iodoTMT reagentsEndogenous 3,4-dihydroxyphenylalanine and dopaquinone modifications on protein tyrosine: links to mitochondrially derived oxidative stress via hydroxyl radicalEndogenous NO upon estradiol-17β stimulation and NO donor differentially regulate mitochondrial S-nitrosylation in endothelial cells.Proteomic analysis of S-nitrosylation and denitrosylation by resin-assisted capture
P2860
Q24307415-6E7D3CA6-BC57-412F-85CF-B43C67513A92Q24337911-1A979910-E9E2-48EB-872A-475F115CDCAEQ24656420-B8AA01A3-0C5C-4074-B976-BDC3FE4A7897Q24680520-1F33A023-CB40-4E6F-8EEF-A95FE3FB6F93Q26774769-3CAF0C3E-820C-498B-A2C9-A1D3F0FDCC44Q26823024-158252EE-F277-444B-9595-249833821DDDQ26851901-1CAE7D3A-A699-4FD3-98E4-0648B22765B7Q26853590-C658427D-EC66-493C-99B0-77558FEA301AQ27007846-C286FB98-5256-4B23-9330-02AFFC0E8736Q27644723-4E7B4BFC-04A2-41C2-90E6-9D1D7042E60EQ27694603-7BF25C2C-3019-43D2-9F55-E6124821DF1AQ27936604-1FE3F676-90FE-4718-B462-A6E90D58D2FBQ28304250-7F96D9AF-D54F-426A-838A-348F012E5687Q28393341-C0C1D75F-42A7-41DC-B709-828F3F2BC4B2Q28473561-7E08EA96-1A02-4EE2-A456-A4ABB2F2E194Q28486031-43A3E140-B744-4EFC-8C40-AC4A92E30308Q28534425-16B847FF-1D18-4570-9384-34CF74D5A4B5Q28551888-ED39FCD0-C872-4EA7-9031-1DC4FBB786DAQ28743757-B95EE350-E2DC-49C6-A034-FC3573CE4CDFQ28834464-1A3B4C82-0863-48C6-B38F-DED4B76DB36CQ30356633-BE303FD6-E92A-4339-8CB8-625EAA74D386Q30366380-ABCE1D40-3138-4CB1-955D-67AF015E19D1Q30369979-7823FDDC-F486-4CD1-88A5-42094AC2C7FAQ30378070-D0A5C068-EB46-4C26-BC6F-BDC16F046700Q30393259-F4293064-F4F5-47C6-B8B5-B58A1421319EQ30393354-1174E4E6-D67B-4784-9E54-D4A51EF5F8E0Q30401182-4336EB44-E4D1-425D-A2FD-F85C9EA64063Q30432584-1D159D89-D521-4DE4-9725-D311E7E42589Q30441779-C6E25926-11DF-4DB5-8AC9-EFBD4129EB92Q33384274-249EBF3D-57A0-48E3-A3D1-CD3BC952E6C8Q33580119-5E8364E1-DA60-4473-9BD2-56A124ABE103Q33619142-B103A1A3-24B6-4567-AEDF-E0A8C3460CA9Q33684459-A7C0312C-23FC-4F97-B511-2AD90399059BQ33685640-2D1773F2-BCD7-487C-897E-CDEA1A787E4FQ33706954-04245A15-8789-4357-B2DC-DFFF7304AEA5Q33767975-7E2F09C2-5659-4066-A2FB-CCD576BD6C60Q33855707-8038D305-DB76-4BDF-83D5-8D46BF720744Q33883022-A0E81476-21EF-458F-ADF4-DEF7FF74E9FDQ33901272-63FC73D3-A898-4430-A5AD-7C13CD59E095Q33936994-BC60C89C-B754-4371-BD0D-5D36862301C4
P2860
SNOSID, a proteomic method for identification of cysteine S-nitrosylation sites in complex protein mixtures.
description
2006 nî lūn-bûn
@nan
2006 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
SNOSID, a proteomic method for ...... s in complex protein mixtures.
@ast
SNOSID, a proteomic method for ...... s in complex protein mixtures.
@en
SNOSID, a proteomic method for ...... s in complex protein mixtures.
@nl
type
label
SNOSID, a proteomic method for ...... s in complex protein mixtures.
@ast
SNOSID, a proteomic method for ...... s in complex protein mixtures.
@en
SNOSID, a proteomic method for ...... s in complex protein mixtures.
@nl
prefLabel
SNOSID, a proteomic method for ...... s in complex protein mixtures.
@ast
SNOSID, a proteomic method for ...... s in complex protein mixtures.
@en
SNOSID, a proteomic method for ...... s in complex protein mixtures.
@nl
P2093
P2860
P356
P1476
SNOSID, a proteomic method for ...... s in complex protein mixtures.
@en
P2093
Behrad Derakhshan
Fabien Campagne
Steven S Gross
P2860
P304
P356
10.1073/PNAS.0508412103
P407
P577
2006-01-17T00:00:00Z