about
Sources of Urinary Proteins and their Analysis by Urinary Proteomics for the Detection of Biomarkers of DiseaseUrine collection and processing for protein biomarker discovery and quantification.Urinary proteomics as a novel tool for biomarker discovery in kidney diseases.Identification of pancreas-specific proteins in endoscopically (endoscopic pancreatic function test) collected pancreatic fluid with liquid chromatography--tandem mass spectrometry.Optimizing a proteomics platform for urine biomarker discoveryOne-step sample concentration, purification, and albumin depletion method for urinary proteomics.Evaluation of urinary protein precipitation protocols for the multidisciplinary approach to the study of chronic pelvic pain research networkA comprehensive map of the human urinary proteomeLabel-free quantitative urinary proteomics identifies the arginase pathway as a new player in congenital obstructive nephropathy.Urinary proteomic and non-prefractionation quantitative phosphoproteomic analysis during pregnancy and non-pregnancy.Proteomics and opportunities for clinical translation in urological disease.An analysis of the impact of pre-analytical factors on the urine proteome: Sample processing time, temperature, and proteolysis.Quantitative mass spectrometry of urinary biomarkersCharacterization of Proteinuria in Dogue de Bordeaux Dogs, a Breed Predisposed to a Familial Glomerulonephropathy: A Retrospective StudyFrom hundreds to thousands: Widening the normal human UrinomeBiotinylated phosphoproteins from kinase-catalyzed biotinylation are stable to phosphatases: implications for phosphoproteomics.Optimizing Urine Processing Protocols for Protein and Metabolite DetectionBiomarker discovery in mass spectrometry-based urinary proteomics.An in-depth comparison of the male pediatric and adult urinary proteomesThe urinary proteome and peptidome of renal cell carcinoma patients: a comparison of different techniques.Physiological conditions can be reflected in human urine proteome and metabolome.Urine proteomics for profiling of human disease using high accuracy mass spectrometry."Lossless" compression of high resolution mass spectra of small moleculesUnveiling the rat urinary proteome with three complementary proteomics approaches.Programmed cell death 6 interacting protein (PDCD6IP) and Rabenosyn-5 (ZFYVE20) are potential urinary biomarkers for upper gastrointestinal cancer.More complete polarization of renal tubular epithelial cells by artificial urine
P2860
Q33597457-5B857111-1FC5-4145-8804-9A1D7DA4E6DCQ33780855-8259FE40-9EF1-45BF-997C-1B876EF6BAD8Q33781011-A9ECC511-8A62-4E52-B81E-D9FDD8EC522CQ33937479-8A311857-A1F6-412D-8D11-E3389033AAE1Q34214393-94472AA3-20D3-4006-8986-464DD679EC87Q34283119-B6AF7F18-BB39-4309-9B66-4688300A9748Q34413086-9E692B35-9EC8-440E-A4D1-E416314C408CQ34424829-9634D845-2D86-4C7E-909D-42D04522C5A8Q34634938-27E8EFC9-A4FC-46DC-B9E0-2B4CF6F3D681Q35038507-6E01DA84-C9DA-411A-903E-CDC04977D79FQ35207579-5898E178-3321-452B-8EDB-7200A49C9884Q35423674-1E699463-AD10-4181-A631-17744A25F674Q35599113-72172656-A158-445A-A7B9-817749BBC691Q35693471-3F518427-5437-4E08-9E8F-452F5FBC2EB3Q35718785-D986E175-1D80-42F7-8CB2-AF1FBA2963D1Q35914468-951C449A-4B24-4CD6-8A96-94E435DCEE55Q36916722-B8B3FEC5-CE24-4500-95C4-B757E4738202Q36956324-FACAAA6C-B64F-4B0A-B78F-09A0F65A1685Q37228241-DCB85E17-9C16-41AD-9ACF-56A757987ACDQ38217103-943FF011-83FB-4251-AFB6-6AE4CF3B9BF5Q38608509-75CFA8A1-CAFF-45BD-9436-06FB5B13F6D0Q41378863-A668B1D5-CDEA-4776-956A-0E4F97A27806Q42123037-50A777D8-0C8A-4F7C-A844-21FD2D227FB9Q43939756-1F7245F0-02F3-4BEF-858A-CE781C5C4AD8Q52970611-DD57E90D-4455-4B89-B53E-6ADDF0CA2F20Q57477853-A845F70B-0723-4DDE-B68A-C1832BA67D17
P2860
description
2008 nî lūn-bûn
@nan
2008 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի հուլիսին 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
Optimizing sample handling for urinary proteomics
@ast
Optimizing sample handling for urinary proteomics
@en
type
label
Optimizing sample handling for urinary proteomics
@ast
Optimizing sample handling for urinary proteomics
@en
prefLabel
Optimizing sample handling for urinary proteomics
@ast
Optimizing sample handling for urinary proteomics
@en
P2093
P2860
P356
P1476
Optimizing sample handling for urinary proteomics
@en
P2093
Andrew C Briscoe
Flavio Monigatti
Hanno Steen
Michael R Freeman
Richard S Lee
Zachary Waldon
P2860
P304
P356
10.1021/PR800301H
P577
2008-07-29T00:00:00Z