Quantification of thyroglobulin, a low-abundance serum protein, by immunoaffinity peptide enrichment and tandem mass spectrometry
about
A highly sensitive targeted mass spectrometric assay for quantification of AGR2 protein in human urine and serumApplications of targeted proteomics in systems biology and translational medicineInsights into the posttranslational structural heterogeneity of thyroglobulin and its role in the development, diagnosis, and management of benign and malignant thyroid diseasesDeveloping multiplexed assays for troponin I and interleukin-33 in plasma by peptide immunoaffinity enrichment and targeted mass spectrometryDesign, implementation and multisite evaluation of a system suitability protocol for the quantitative assessment of instrument performance in liquid chromatography-multiple reaction monitoring-MS (LC-MRM-MS)Serum Insulin-like Growth Factor I Quantitation by Mass Spectrometry: Insights for Protein Quantitation with this Technology2015 American Thyroid Association Management Guidelines for Adult Patients with Thyroid Nodules and Differentiated Thyroid Cancer: The American Thyroid Association Guidelines Task Force on Thyroid Nodules and Differentiated Thyroid CancerMeasurement of thyroglobulin by liquid chromatography-tandem mass spectrometry in serum and plasma in the presence of antithyroglobulin autoantibodies.An automated and multiplexed method for high throughput peptide immunoaffinity enrichment and multiple reaction monitoring mass spectrometry-based quantification of protein biomarkers.Reconstructing the pipeline by introducing multiplexed multiple reaction monitoring mass spectrometry for cancer biomarker verification: an NCI-CPTC initiative perspective.Statistical design for biospecimen cohort size in proteomics-based biomarker discovery and verification studiesAutomated screening of monoclonal antibodies for SISCAPA assays using a magnetic bead processor and liquid chromatography-selected reaction monitoring-mass spectrometry.Stable-isotope dilution LC–MS for quantitative biomarker analysis.Urine collection and processing for protein biomarker discovery and quantification.Multi-site assessment of the precision and reproducibility of multiple reaction monitoring-based measurements of proteins in plasma.How sensitive (second-generation) thyroglobulin measurement is changing paradigms for monitoring patients with differentiated thyroid cancer, in the absence or presence of thyroglobulin autoantibodiesThe evolving role of mass spectrometry in cancer biomarker discoveryCombining ultracentrifugation and peptide termini group-specific immunoprecipitation for multiplex plasma protein analysis.Methods for identification of CA125 from ovarian cancer ascites by high resolution mass spectrometry.Statistical characterization of multiple-reaction monitoring mass spectrometry (MRM-MS) assays for quantitative proteomics.Reaching for the deep proteome: recent nano liquid chromatography coupled with tandem mass spectrometry-based studies on the deep proteome.Improved detection specificity for plasma proteins by targeting cysteine-containing peptides with photo-SRM.Restructuring proteomics through verificationLC-MS/MS in the Clinical Laboratory - Where to From Here?Evaluation of large scale quantitative proteomic assay development using peptide affinity-based mass spectrometry.Quantification of peptides from immunoglobulin constant and variable regions by LC-MRM MS for assessment of multiple myeloma patientsSimultaneous quantification of apolipoprotein A-I and apolipoprotein B by liquid-chromatography-multiple- reaction-monitoring mass spectrometryMethods for peptide and protein quantitation by liquid chromatography-multiple reaction monitoring mass spectrometry.The path to clinical proteomics research: integration of proteomics, genomics, clinical laboratory and regulatory science.High-affinity recombinant antibody fragments (Fabs) can be applied in peptide enrichment immuno-MRM assays.Anti-peptide monoclonal antibodies generated for immuno-multiple reaction monitoring-mass spectrometry assays have a high probability of supporting Western blot and ELISA.Rapid verification of candidate serological biomarkers using gel-based, label-free multiple reaction monitoring.Peptide immunoaffinity enrichment coupled with mass spectrometry for peptide and protein quantification.Quantification of proteins using peptide immunoaffinity enrichment coupled with mass spectrometryA targeted proteomics-based pipeline for verification of biomarkers in plasmaRelative quantification of several plasma proteins during liver transplantation surgery.Simultaneous phenotyping and quantification of α-1-antitrypsin by liquid chromatography-tandem mass spectrometryThyroglobulin (Tg) Testing Revisited: Tg Assays, TgAb Assays, and Correlation of Results With Clinical Outcomes.Advancing the sensitivity of selected reaction monitoring-based targeted quantitative proteomics.Advances in Proteomic Technologies and Its Contribution to the Field of Cancer
P2860
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P2860
Quantification of thyroglobulin, a low-abundance serum protein, by immunoaffinity peptide enrichment and tandem mass spectrometry
description
2008 nî lūn-bûn
@nan
2008 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Quantification of thyroglobuli ...... t and tandem mass spectrometry
@ast
Quantification of thyroglobuli ...... t and tandem mass spectrometry
@en
type
label
Quantification of thyroglobuli ...... t and tandem mass spectrometry
@ast
Quantification of thyroglobuli ...... t and tandem mass spectrometry
@en
prefLabel
Quantification of thyroglobuli ...... t and tandem mass spectrometry
@ast
Quantification of thyroglobuli ...... t and tandem mass spectrometry
@en
P2093
P2860
P1433
P1476
Quantification of thyroglobuli ...... t and tandem mass spectrometry
@en
P2093
Jay W Heinecke
Jessica O Becker
Mark H Wener
P2860
P304
P356
10.1373/CLINCHEM.2008.109652
P407
P577
2008-09-18T00:00:00Z