Difference Gel Electrophoresis (DIGE) [electronic resource] : Methods and Protocols / edited by Rainer Cramer, Reiner Westermeier.

Totowa, NJ : Humana Press, 2012.
Methods in Molecular Biology, Methods and Protocols, 1064-3745 ; 854
Springer Protocols (Springer-12345)
Methods in Molecular Biology, Methods and Protocols, 1064-3745 ; 854
1 online resource (XIII, 401 pages) : 73 illustrations, 34 illustrations in color.
Life sciences.
Local subjects:
Life Sciences.
Protein Science.
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Protein analysis is increasingly becoming a cornerstone in deciphering the molecular mechanisms of life. Proteomics, the large-scale and high-sensitivity analysis of proteins, is already pivotal to the new life sciences such as Systems Biology and Systems Medicine. Proteomics, however, relies heavily on the past and future advances of protein purification and analysis methods.  DIGE, being able to quantify proteins in their intact form, is one of a few methods that can facilitate this type of analysis and still provide the protein isoforms in an MS-compatible state for further identification and characterization with high analytical sensitivity. Differential Gel Electrophoresis: Methods and Protocols introduces the concept of DIGE and its advantages in quantitative protein analysis. It provides detailed protocols and important notes on the practical aspects of DIGE with both generic and specific applications in the various areas of Quantitative Proteomics. Divided into four concise sections, this detailed volume opens with the basics of DIGE, the technique and its practical details with a focus on the planning of a DIGE experiment and its data analysis. The next section introduces various DIGE methods from those employed by scientists world-wide to more novel methods, providing a glance at what is on the horizon in the DIGE world.  The volume closes with an overview of the wide range of DIGE applications from Clinical Proteomics to Animal, Plant, and Microbial Proteomics applications. Written in the highly successful Methods in Molecular Biology™ series format, chapters contain introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and notes on troubleshooting and avoiding known pitfalls. Authoritative and accessible, Differential Gel Electrophoresis: Methods and Protocols can be used by novices with some background in biochemistry or molecular biology as well as by experts in Proteomics who would like to deepen their understanding of DIGE and its employment in many hyphenations and application areas.  With its many protocols, applications, and methodological variants, it is also a unique reference for all who seek fundamental details on the working principle of DIGE and ideas for possible future uses of DIGE in novel analytical approaches.
DIGE: Past and Future
The Basics of 2D DIGE
Multifluorescence 2D Gel Imaging and Image Analysis
Assessing Signal-to-Noise in Quantitative Proteomics: Multivariate Statistical Analysis in DIGE Experiments
Analysis of Proteins Using DIGE and MALDI Mass Spectrometry
Synthesis and Validation of Cyanin-Based Dyes for DIGE
2D DIGE Saturation Labeling for Minute Sample Amounts
Proteomic Analysis of Redox-Dependent Changes Using Cysteine-Labeling 2D DIGE
Analysis of Protein Post-Translational Modifications Using DIGE-Based Proteomics
Comparative Analyses of Protein Complexes by Blue Native DIGE
2D DIGE Analysis of Protein Extracts from Muscle Tissue
Combination of Highly Efficient Hexapeptide Ligand Library-Based Sample Preparation with 2D DIGE for the Analysis of the Hidden Human Serum/Plasma Proteome
2D DIGE Analysis of Serum after Fractionation by ProteoMinerTM Beads
Study Design in DIGE-Based Biomarker Discovery
Comparative 2D DIGE Analysis of the Depleted Serum Proteome for Biomarker Discovery
Differential Gel-Based Proteomic Approach for Cancer Biomarker Discovery Using Human Plasma
2D DIGE for the Analysis of RAMOS Cells Sub-Proteomes
Application of Saturation Labeling in Lung Cancer Proteomics
Proteomic Profiling of the Epithelial-Mesenchymal Transition Using 2D DIGE
Method for Protein Subfractionation of Cardiovascular Tissues before DIGE Analysis
Application of DIGE and Mass Spectrometry in the Study of Type 2 Diabetes Mellitus (T2DM) Mouse Models
Evaluating the Efficacy of Subcellular Fractionation of Blast Cells Using Live Cell Labeling and 2D DIGE
DIGE Analysis of Plant Tissue Proteomes Using a Phenolic Protein Extraction Method
Native DIGE of Fluorescent Plant Protein Complexes
An Overview of 2D DIGE Analysis of Marine (Environmental) Bacteria
Application of 2D DIGE in Animal Proteomics.
Cramer, Rainer. editor.
Westermeier, Reiner. editor.
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10.1007/978-1-61779-573-2 doi
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