Literature DB >> 19325168

An insight into high-resolution mass-spectrometry data.

J E Eckel-Passow1, A L Oberg, T M Therneau, H R Bergen.   

Abstract

Mass spectrometry is a powerful tool with much promise in global proteomic studies. The discipline of statistics offers robust methodologies to extract and interpret high-dimensional mass-spectrometry data and will be a valuable contributor to the field. Here, we describe the process by which data are produced, characteristics of the data, and the analytical preprocessing steps that are taken in order to interpret the data and use it in downstream statistical analyses. Because of the complexity of data acquisition, statistical methods developed for gene expression microarray data are not directly applicable to proteomic data. Areas in need of statistical research for proteomic data include alignment, experimental design, abundance normalization, and statistical analysis.

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Year:  2009        PMID: 19325168      PMCID: PMC2697344          DOI: 10.1093/biostatistics/kxp006

Source DB:  PubMed          Journal:  Biostatistics        ISSN: 1465-4644            Impact factor:   5.899


  54 in total

1.  Empirical statistical model to estimate the accuracy of peptide identifications made by MS/MS and database search.

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Journal:  Anal Chem       Date:  2002-10-15       Impact factor: 6.986

Review 2.  Protein identification by mass spectrometry: issues to be considered.

Authors:  Michael A Baldwin
Journal:  Mol Cell Proteomics       Date:  2003-11-06       Impact factor: 5.911

3.  Application of fast Fourier transform cross-correlation for the alignment of large chromatographic and spectral datasets.

Authors:  Jason W H Wong; Caterina Durante; Hugh M Cartwright
Journal:  Anal Chem       Date:  2005-09-01       Impact factor: 6.986

4.  Proteomics in the forefront of cancer biomarker discovery.

Authors:  Sudhir Srivastava; Rashmi-Gopal Srivastava
Journal:  J Proteome Res       Date:  2005 Jul-Aug       Impact factor: 4.466

5.  Perspective: a program to improve protein biomarker discovery for cancer.

Authors:  Ruedi Aebersold; Leigh Anderson; Richard Caprioli; Brian Druker; Leland Hartwell; Richard Smith
Journal:  J Proteome Res       Date:  2005 Jul-Aug       Impact factor: 4.466

Review 6.  Protein biomarker discovery and validation: the long and uncertain path to clinical utility.

Authors:  Nader Rifai; Michael A Gillette; Steven A Carr
Journal:  Nat Biotechnol       Date:  2006-08       Impact factor: 54.908

7.  Prediction of error associated with false-positive rate determination for peptide identification in large-scale proteomics experiments using a combined reverse and forward peptide sequence database strategy.

Authors:  Edward L Huttlin; Adrian D Hegeman; Amy C Harms; Michael R Sussman
Journal:  J Proteome Res       Date:  2007-01       Impact factor: 4.466

8.  Regression analysis for comparing protein samples with 16O/18O stable-isotope labeled mass spectrometry.

Authors:  J E Eckel-Passow; A L Oberg; T M Therneau; C J Mason; D W Mahoney; K L Johnson; J E Olson; H R Bergen
Journal:  Bioinformatics       Date:  2006-09-05       Impact factor: 6.937

9.  Extending top-down mass spectrometry to proteins with masses greater than 200 kilodaltons.

Authors:  Xuemei Han; Mi Jin; Kathrin Breuker; Fred W McLafferty
Journal:  Science       Date:  2006-10-06       Impact factor: 47.728

10.  Statistical analysis of relative labeled mass spectrometry data from complex samples using ANOVA.

Authors:  Ann L Oberg; Douglas W Mahoney; Jeanette E Eckel-Passow; Christopher J Malone; Russell D Wolfinger; Elizabeth G Hill; Leslie T Cooper; Oyere K Onuma; Craig Spiro; Terry M Therneau; H Robert Bergen
Journal:  J Proteome Res       Date:  2008-01-04       Impact factor: 4.466
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  11 in total

1.  A regularized Hotelling's T2 test for pathway analysis in proteomic studies.

Authors:  Lin S Chen; Debashis Paul; Ross L Prentice; Pei Wang
Journal:  J Am Stat Assoc       Date:  2011-12       Impact factor: 5.033

2.  3D biomaterial matrix to support long term, full thickness, immuno-competent human skin equivalents with nervous system components.

Authors:  Sarah E Lightfoot Vidal; Kasey A Tamamoto; Hanh Nguyen; Rosalyn D Abbott; Dana M Cairns; David L Kaplan
Journal:  Biomaterials       Date:  2018-04-24       Impact factor: 12.479

Review 3.  Improving protein identification from tandem mass spectrometry data by one-step methods and integrating data from other platforms.

Authors:  Sinjini Sikdar; Ryan Gill; Susmita Datta
Journal:  Brief Bioinform       Date:  2015-07-03       Impact factor: 11.622

4.  Variance component analysis of a multi-site study for the reproducibility of multiple reaction monitoring measurements of peptides in human plasma.

Authors:  Jessie Q Xia; Nell Sedransk; Xingdong Feng
Journal:  PLoS One       Date:  2011-01-26       Impact factor: 3.240

5.  Freeze-dried plasma proteins are stable at room temperature for at least 1 year.

Authors:  Jaimie Dufresne; Trung Hoang; Juliet Ajambo; Angelique Florentinus-Mefailoski; Peter Bowden; John Marshall
Journal:  Clin Proteomics       Date:  2017-10-27       Impact factor: 3.988

6.  Variance component analysis to assess protein quantification in biomarker validation: application to selected reaction monitoring-mass spectrometry.

Authors:  Amna Klich; Catherine Mercier; Laurent Gerfault; Pierre Grangeat; Corinne Beaulieu; Elodie Degout-Charmette; Tanguy Fortin; Pierre Mahé; Jean-François Giovannelli; Jean-Philippe Charrier; Audrey Giremus; Delphine Maucort-Boulch; Pascal Roy
Journal:  BMC Bioinformatics       Date:  2018-03-01       Impact factor: 3.169

7.  The plasma peptides of sepsis.

Authors:  Thanusi Thavarajah; Claudia C Dos Santos; Arthur S Slutsky; John C Marshall; Pete Bowden; Alexander Romaschin; John G Marshall
Journal:  Clin Proteomics       Date:  2020-07-02       Impact factor: 3.988

8.  The plasma peptidome.

Authors:  Jaimie Dufresne; Pete Bowden; Thanusi Thavarajah; Angelique Florentinus-Mefailoski; Zhuo Zhen Chen; Monika Tucholska; Tenzin Norzin; Margaret Truc Ho; Morla Phan; Nargiz Mohamed; Amir Ravandi; Eric Stanton; Arthur S Slutsky; Claudia C Dos Santos; Alexander Romaschin; John C Marshall; Christina Addison; Shawn Malone; Daren Heyland; Philip Scheltens; Joep Killestein; Charlotte Teunissen; Eleftherios P Diamandis; K W M Siu; John G Marshall
Journal:  Clin Proteomics       Date:  2018-12-01       Impact factor: 3.988

Review 9.  Statistical methods for quantitative mass spectrometry proteomic experiments with labeling.

Authors:  Ann L Oberg; Douglas W Mahoney
Journal:  BMC Bioinformatics       Date:  2012-11-05       Impact factor: 3.169

10.  The plasma peptides of ovarian cancer.

Authors:  Jaimie Dufresne; Pete Bowden; Thanusi Thavarajah; Angelique Florentinus-Mefailoski; Zhuo Zhen Chen; Monika Tucholska; Tenzin Norzin; Margaret Truc Ho; Morla Phan; Nargiz Mohamed; Amir Ravandi; Eric Stanton; Arthur S Slutsky; Claudia C Dos Santos; Alexander Romaschin; John C Marshall; Christina Addison; Shawn Malone; Daren Heyland; Philip Scheltens; Joep Killestein; Charlotte E Teunissen; Eleftherios P Diamandis; K W Michael Siu; John G Marshall
Journal:  Clin Proteomics       Date:  2018-12-21       Impact factor: 3.988
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