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Literature DB >> 18662026

Optimizing sample handling for urinary proteomics.

Richard S Lee¹, Flavio Monigatti, Andrew C Briscoe, Zachary Waldon, Michael R Freeman, Hanno Steen.

Abstract

Interrogation of the urinary proteome for clinically useful biomarkers of disease will require normalization of methods for protein extraction and sample handling. Variations in collection methods and other procedures may introduce significant discrepancies in qualitative and quantitative measurements. Here we demonstrate that the method of protein extraction, length of handling at room temperature, and repetitive freeze-thaw cycles do not seem to alter the urinary proteome at either the protein or peptide level in a manner that degrades information obtainable by mass spectrometry.

Entities: Chemical Disease Gene Species

Mesh：

Substances：
Proteins

Year: 2008 PMID： 18662026 PMCID： PMC5451898 DOI： 10.1021/pr800301h

Source DB: PubMed Journal: J Proteome Res ISSN： 1535-3893 Impact factor: 4.466

31 in total

1. Towards defining the urinary proteome using liquid chromatography-tandem mass spectrometry. II. Limitations of complex mixture analyses.

Authors: M T Davis; C S Spahr; M D McGinley; J H Robinson; E J Bures; J Beierle; J Mort; W Yu; R Luethy; S D Patterson
Journal: Proteomics Date: 2001-01 Impact factor: 3.984

2. Identification and proteomic profiling of exosomes in human urine.

Authors: Trairak Pisitkun; Rong-Fong Shen; Mark A Knepper
Journal: Proc Natl Acad Sci U S A Date: 2004-08-23 Impact factor: 11.205

3. Systematic evaluation of sample preparation methods for gel-based human urinary proteomics: quantity, quality, and variability.

Authors: Visith Thongboonkerd; Somchai Chutipongtanate; Rattiyaporn Kanlaya
Journal: J Proteome Res Date: 2006-01 Impact factor: 4.466

4. Preanalytical impact of sample handling on proteome profiling experiments with matrix-assisted laser desorption/ionization time-of-flight mass spectrometry.

Authors: Peter Findeisen; Diamandula Sismanidis; Martin Riedl; Victor Costina; Michael Neumaier
Journal: Clin Chem Date: 2005-12 Impact factor: 8.327

5. Development of a high-throughput method for preparing human urine for two-dimensional electrophoresis.

Authors: Graeme Smith; Derek Barratt; Rachel Rowlinson; Janice Nickson; Robert Tonge
Journal: Proteomics Date: 2005-06 Impact factor: 3.984

6. Exploring the hidden human urinary proteome via ligand library beads.

Authors: Annalisa Castagna; Daniela Cecconi; Lau Sennels; Juri Rappsilber; Luc Guerrier; Frederic Fortis; Egisto Boschetti; Lee Lomas; Pier Giorgio Righetti
Journal: J Proteome Res Date: 2005 Nov-Dec Impact factor: 4.466

7. Microalbumin and freezing.

Authors: V T Innanen; B M Groom; F M de Campos
Journal: Clin Chem Date: 1997-06 Impact factor: 8.327

8. Bacterial overgrowth affects urinary proteome analysis: recommendation for centrifugation, temperature, duration, and the use of preservatives during sample collection.

Authors: Visith Thongboonkerd; Putita Saetun
Journal: J Proteome Res Date: 2007-10-09 Impact factor: 4.466

9. Characterization of global yeast quantitative proteome data generated from the wild-type and glucose repression saccharomyces cerevisiae strains: the comparison of two quantitative methods.

Authors: Renata Usaite; James Wohlschlegel; John D Venable; Sung K Park; Jens Nielsen; Lisbeth Olsson; John R Yates Iii
Journal: J Proteome Res Date: 2008-01 Impact factor: 4.466

10. To clean or not to clean: effect on contamination rates in midstream urine collections in toilet-trained children.

Authors: Suzanne Vaillancourt; David McGillivray; Xun Zhang; Michael S Kramer
Journal: Pediatrics Date: 2007-05-14 Impact factor: 7.124

25 in total

1. One-step sample concentration, purification, and albumin depletion method for urinary proteomics.

Authors: Ali R Vaezzadeh; Andrew C Briscoe; Hanno Steen; Richard S Lee
Journal: J Proteome Res Date: 2010-10-15 Impact factor: 4.466

2. Optimizing a proteomics platform for urine biomarker discovery.

Authors: Maryam Afkarian; Manoj Bhasin; Simon T Dillon; Manuel C Guerrero; Robert G Nelson; William C Knowler; Ravi Thadhani; Towia A Libermann
Journal: Mol Cell Proteomics Date: 2010-05-28 Impact factor: 5.911

3. Urine proteomics for profiling of human disease using high accuracy mass spectrometry.

Authors: Alex Kentsis; Flavio Monigatti; Kevin Dorff; Fabien Campagne; Richard Bachur; Hanno Steen
Journal: Proteomics Clin Appl Date: 2009-09-01 Impact factor: 3.494

Review 4. Urine collection and processing for protein biomarker discovery and quantification.

Authors: C Eric Thomas; Wade Sexton; Kaaron Benson; Rebecca Sutphen; John Koomen
Journal: Cancer Epidemiol Biomarkers Prev Date: 2010-03-23 Impact factor: 4.254

Review 5. Application of proteomic analysis to the study of renal diseases.

Authors: Matthew P Welberry Smith; Rosamonde E Banks; Steven L Wood; Andrew J P Lewington; Peter J Selby
Journal: Nat Rev Nephrol Date: 2009-10-27 Impact factor: 28.314

Review 6. Urinary proteomics as a novel tool for biomarker discovery in kidney diseases.

Authors: Jing Wu; Yi-ding Chen; Wei Gu
Journal: J Zhejiang Univ Sci B Date: 2010-04 Impact factor: 3.066

7. Evaluation of urinary protein precipitation protocols for the multidisciplinary approach to the study of chronic pelvic pain research network.

Authors: Karen R Jonscher; Andrea A Osypuk; Adrie van Bokhoven; M Scott Lucia
Journal: J Biomol Tech Date: 2014-12