Targeted proteomics by selected reaction monitoring mass spectrometry: applications to systems biology and biomarker discovery.
about
Tissue proteomics in pancreatic cancer study: discovery, emerging technologies, and challengesQuantitative proteomics to study carbapenem resistance in Acinetobacter baumanniiOn the future of mass-spectrometry-based lipidomicsA Quasi-direct LC-MS/MS-based Targeted Proteomics Approach for miRNA Quantification via a Covalently Immobilized DNA-peptide ProbeMulti-peptide nLC-PC-IDMS-SRM-based assay for the quantification of biomarkers in the chicken ovarian cancer modelA chaperone trap contributes to the onset of cystic fibrosis.Beyond hairballs: The use of quantitative mass spectrometry data to understand protein-protein interactionsGlobal proteomic assessment of the classical protein-tyrosine phosphatome and "Redoxome"The role of quantitative ADME proteomics to support construction of physiologically based pharmacokinetic models for use in small molecule drug development.Targeted proteomics: a bridge between discovery and validation.Proteomics analysis of bodily fluids in pancreatic cancerSILAC compatible strain of Pichia pastoris for expression of isotopically labeled protein standards and quantitative proteomics.Opportunities and challenges for nutritional proteomics in cancer prevention.Methods to monitor classical protein-tyrosine phosphatase oxidation.Candidate serum biomarkers for early intestinal cancer using 15N metabolic labeling and quantitative proteomics in the ApcMin/+ mouseIdentification of a seven glycopeptide signature for malignant pleural mesothelioma in human serum by selected reaction monitoring.Clinical proteomic biomarkers: relevant issues on study design & technical considerations in biomarker development.Label-free mass spectrometry-based proteomics for biomarker discovery and validation.Role of proteomics in biomarker discovery and psychiatric disorders: current status, potentials, limitations and future challenges.Breast cancer biomarkers: proteomic discovery and translation to clinically relevant assays.Thiol-based redox proteomics in cancer research.TIMPs: versatile extracellular regulators in cancer.Redox proteomics screening cellular factors associated with oxidative stress in hepatocarcinogenesis.A liquid chromatography-tandem mass spectrometry-based targeted proteomics approach for the assessment of transferrin receptor levels in breast cancer.Characterization of the human submandibular/sublingual saliva glycoproteome using lectin affinity chromatography coupled to multidimensional protein identification technology.A Combination of DNA-peptide Probes and Liquid Chromatography-Tandem Mass Spectrometry (LC-MS/MS): A Quasi-Targeted Proteomics Approach for Multiplexed MicroRNA Quantification.Using proteomics to probe neurons.Nitrogen and carbon status are integrated at the transcriptional level by the nitrogen regulator NtrC in vivoProteomics and phosphoproteomics in precision medicine: applications and challenges.Onco-proteogenomics: cancer proteomics joins forces with genomics.A targeted proteomics approach to the quantitative analysis of ERK/Bcl-2-mediated anti-apoptosis and multi-drug resistance in breast cancer.Monitoring of Plant Protein Post-translational Modifications Using Targeted Proteomics
P2860
Q26824034-2A1C5DD2-9E75-4C8A-8F5E-4342D01F6ED7Q26995246-F1476A34-1891-40C8-AC9B-C851E767C768Q27012927-7D7FEA39-4F32-493F-A48D-239E4A5D3612Q33916107-385AAADC-6B0D-4F1C-89F3-9999643A4A9DQ34180244-1B6767B4-5024-4180-B145-EC425C06AC6CQ34305005-70EEEFA6-8910-4034-BD35-32EA3D2171BDQ34308163-E06A88B2-75BB-4C89-98E8-B80FB8255176Q35222996-CF956722-7E94-4299-82DA-5D3740FC24A7Q35560052-2231617C-E5A8-486B-941F-CBC6B06F4BB9Q35815142-0EB9596C-C542-4703-9A31-DC7030A69C67Q35920900-7BFCDC81-E119-411D-AF1A-1F1135D66546Q35993587-AD1CEBC0-B7A5-43BA-8C7F-4B478F847C1FQ36030219-27099353-845F-420F-B50F-B2349D0BC4EDQ36227353-072266FC-E39D-423E-B391-0B51B53A365BQ37220357-A566C166-BD4B-48B8-B01B-B09170F9AC09Q37307952-19BD86E3-F948-4A53-919B-3CDE43E42D01Q37714579-09E0F9E9-A21D-44F0-B77B-46B145682181Q38012172-13F03CD0-2209-4F63-B43D-1C0B9022CCA2Q38027217-06A7EEC4-97FD-4D11-B2EE-63B985574B5CQ38068925-FEE7F9F4-A4DD-4F2F-BD5A-461E8D6902F8Q38253843-A18A8584-9F11-4970-833C-C1CECC09688CQ38785433-1E2EC0AD-C4D5-4309-BC1C-BCDFBFFCFA3CQ38986144-05D3D1F8-D614-468B-97E5-6D62A875B36CQ39012698-1C7E1E48-5392-42ED-B131-668CC468CC1CQ41106612-C32C12A6-DEA9-48A9-9AE4-BF43965C6C3DQ41455489-80030566-AF03-412B-96F7-E317F2FC889CQ41489829-6512D37E-6F50-45FA-AD66-45D8FFCCFD84Q41786047-40394FC0-2707-4C3F-9E83-C28B6402D478Q47595178-1DF3BBC4-65A9-4560-9D90-B5FB86EB06ABQ48256898-A6BA9AD3-0546-43A1-99C0-1BA4F34672FBQ51579847-FE421EEA-78C9-4505-94BF-1F7F9D4A13ABQ57168723-D0E6BF07-0F46-49F3-8EC9-70B951D8061E
P2860
Targeted proteomics by selected reaction monitoring mass spectrometry: applications to systems biology and biomarker discovery.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 25 October 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Targeted proteomics by selecte ...... ology and biomarker discovery.
@en
Targeted proteomics by selecte ...... ology and biomarker discovery.
@nl
type
label
Targeted proteomics by selecte ...... ology and biomarker discovery.
@en
Targeted proteomics by selecte ...... ology and biomarker discovery.
@nl
prefLabel
Targeted proteomics by selecte ...... ology and biomarker discovery.
@en
Targeted proteomics by selecte ...... ology and biomarker discovery.
@nl
P2860
P356
P1433
P1476
Targeted proteomics by selecte ...... ology and biomarker discovery.
@en
P2093
Sarah Elschenbroich
Thomas Kislinger
P2860
P304
P356
10.1039/C0MB00159G
P577
2010-10-25T00:00:00Z