ISBN-13: 9781493960002 / Angielski / Miękka / 2016 / 262 str.
ISBN-13: 9781493960002 / Angielski / Miękka / 2016 / 262 str.
This Methods in Molecular Biology(TM) book offers protocols and updated methods with a particular focus on MS-based methods of protein and peptide quantification and the analysis of posttranslational modifications as well as descriptions of system biology methods.
1. Large-Scale Characterization of the Murine Cardiac Proteome
Jake Cosme, Andrew Emili, and Anthony O. Gramolini
2. Determining Protein Concentrations of the Human Ventricular Proteome
Arjen Scholten and Albert J.R. Heck
3. Multidimensional Protein Identification Technology for Direct-Tissue Proteomics of Heart
Dario Di Silvestre, Francesca Brambilla, and Pier Luigi Mauri
4. Global Protein Quantification of Mouse Heart Tissue Based on the SILAC Mouse
Anne Konzer, Aaron Ruhs, Thomas Braun, and Marcus Krüger
5. Global Proteomic Profiling and Enrichment Maps of Dilated Cardiomyopathy
Ruth Isserlin, Daniele Merico, and Andrew Emili
6. Characterization of the Human Myocardial Proteome in Dilated Cardiomyopathy by Label-Free Quantitative Shotgun Proteomics of Heart Biopsies
Elke Hammer, Katrin Darm, and Uwe Völker
7. Systems Proteomics of Healthy and Diseased Chromatin
Haodong Chen, Emma Monte, Thomas M. Vondriska, and Sarah Franklin
8. Proteomic Analysis of Interstitial Aortic Valve Cells Acquiring a Pro-Calcific Profile
Millioni Renato, Elisa Bertacco, Cinzia Franchin, Giorgio Arrigoni, and Marcello Rattazzi
9. Differential Protein Expression Analysis of Degenerative Aortic Stenosis by Itraq Labeling
Sergio Alonso-Orgaz, Tatiana Martin-Rojas, Enrique Calvo, Juan Antonio López, Fernando Vivanco, and Maria G. Barderas
10. Characterization of Zebrafish Cardiac Proteome Using On Line PH Gradient SCX -RP HPLC MS/MS Platform
Jiang Zhang, Kevin A. Lanham, Warren Heideman, Richard E. Peterson, and Lingjun Li
11. Proteomic Analysis of Brain Mitochondrial Proteome and Mitochondrial Complexes
Ana Lopez-Campistrous and Carlos Fernandez-Patron
12. Oxidative Modifications of Mitochondria Complex II
Liwen Zhang, Patrick T. Kang, Chwen-Lih Chen, Kari B. Green-Church, and Yeong-Renn Chen
13. Detection of O-GLCNAC Modifications on Cardiac Myofilament Proteins
Genaro A. Ramirez-Correa, Isabel Martinez Ferrando, Gerald Hart, and Anne Murphy
14. Quantification of Mitochondrial S-Nitrosylation by CYSTMT6 Switch Assay
Christopher I. Murray, Hea Seung Chung, Helge Uhrigshardt, and Jennifer E. Van Eyk
15. Identification of Thioredoxin Target Protein Networks in Cardiac Tissues of a Transgenic Mouse
Cexiong Fu, Tong Liu, Andrew M. Parrott, and Hong Li
16. Using Pure Protein to Build a Multiple Reaction Monitoring Mass Spectrometry Assay for Targeted Detection and Quantitation
Eric Grote, Qin Fu, Weihua Ji, Xiaoqian Liu, and Jennifer E. Van Eyk
17. A Sequential Extraction Methodology for Cardiac Extracellular Matrix Prior to Proteomics Analysis
Javier Barallobre-Barreiro, Athanasios Didangelos, Xiaoke Yin, Nieves Doménech, and Manuel Mayr
18. Optimized Method for Identification of the Proteomes Secreted by Cardiac Cells
Miroslava Stastna and Jennifer E. Van Eyk
19. Secretome of Human Aortic Valves
Fernando de la Cuesta, Gloria Alvarez-Llamas, Felix Gil-Dones, Veronica M. Darde, Enrique Calvo, Juan Antonio Lopez, Fernando Vivanco, and Maria G. Barderas
20. A Comparative Study of Immunodepletion and Equalization Methods for Aortic Stenosis Human Plasma
Felix Gil Dones, Verónica M. Darde, Fernando Vivanco, and María G. Barderas
15. Identification of Thioredoxin Target Protein Networks in Cardiac Tissues of a Transgenic Mouse
Cexiong Fu, Tong Liu, Andrew M. Parrott, and Hong Li
16. Using Pure Protein to Build a Multiple Reaction Monitoring Mass Spectrometry Assay for Targeted Detection and Quantitation
Eric Grote, Qin Fu, Weihua Ji, Xiaoqian Liu, and Jennifer E. Van Eyk
17. A Sequential Extraction Methodology for Cardiac Extracellular Matrix Prior to Proteomics Analysis
Javier Barallobre-Barreiro, Athanasios Didangelos, Xiaoke Yin, Nieves Doménech, and Manuel Mayr
18. Optimized Method for Identification of the Proteomes Secreted by Cardiac Cells
Miroslava Stastna and Jennifer E. Van Eyk
19. Secretome of Human Aortic Valves
Fernando de la Cuesta, Gloria Alvarez-Llamas, Felix Gil-Dones, Veronica M. Darde, Enrique Calvo, Juan Antonio Lopez, Fernando Vivanco, and Maria G. Barderas
20. A Comparative Study of Immunodepletion and Equalization Methods for Aortic Stenosis Human Plasma
Felix Gil Dones, Verónica M. Darde, Fernando Vivanco, and María G. Barderas
15. Identification of Thioredoxin Target Protein Networks in Cardiac Tissues of a Transgenic Mouse
Cexiong Fu, Tong Liu, Andrew M. Parrott, and Hong Li
16. Using Pure Protein to Build a Multiple Reaction Monitoring Mass Spectrometry Assay for Targeted Detection and Quantitation
Eric Grote, Qin Fu, Weihua Ji, Xiaoqian Liu, and Jennifer E. Van Eyk
17. A Sequential Extraction Methodology for Cardiac Extracellular Matrix Prior to Proteomics Analysis
Javier Barallobre-Barreiro, Athanasios Didangelos, Xiaoke Yin, Nieves Doménech, and Manuel Mayr
18. Optimized Method for Identification of the Proteomes Secreted by Cardiac Cells
Miroslava Stastna and Jennifer E. Van Eyk
19. Secretome of Human Aortic Valves
Fernando de la Cuesta, Gloria Alvarez-Llamas, Felix Gil-Dones, Veronica M. Darde, Enrique Calvo, Juan Antonio Lopez, Fernando Vivanco, and Maria G. Barderas
20. A Comparative Study of Immunodepletion and Equalization Methods for Aortic Stenosis Human Plasma
Felix Gil Dones, Verónica M. Darde, Fernando Vivanco, and María G. Barderas
The use of proteomics to study complex diseases such as cardiovascular disease, the leading cause of death in developed countries, has grown exponentially in recent years. Proteomics is a rapidly expanding investigation platform in cardiovascular medicine and is becoming integrated and incorporated into cardiovascular research. The proteomics field continues to develop with major improvements in mass spectrometry instrumentation, methodology and data analysis. Heart Proteomics: Methods and Protocols complies a selection of techniques and methods that target the numerous processes implicated in the pathophysiology of heart. Chapters cover protocols and updated methods in the heart proteomic area with a particular focus on MS-based methods of protein and peptide quantification and the analysis of posttranslational modifications as well as descriptions of system biology approaches, which provide a better understanding of normal and pathological processes. Written in the successful Methods in Molecular Biology™ series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible protocols, and notes on troubleshooting and avoiding known pitfalls.
Authoritative and easily accessible, Heart Proteomics: Methods and Protocols is a representative selection of methods that will prove to be a useful resource for experienced proteomics practitioners and newcomers alike.
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