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Nucleosomes, Histones & Chromatin Part A (Methods in Enzymology): 512: Volume 512
Author(s): Carl Wu (Author)
- Publisher: Academic Press
- Publication Date: 11 Oct. 2012
- Edition: 1st
- Language: English
- Print length: 342 pages
- ISBN-10: 0123919401
- ISBN-13: 9780123919403
Book Description
This new volume of “Methods in Enzymology” continues the legacy of this premier serial by containing quality chapters authored by leaders in the field. The first of 2 volumes covering Nucleosomes, Histones & Chromatin and has chapters on Methods applied to the study of Protein Arginine Methylation, High resolution identification of intra- and interchromosomal DNA interactions by 4C technology, and Peptide arrays to interrogate the binding specificity of chromatin-binding proteins. This title continues the legacy of this premier serial by containing quality chapters authored by leaders in the field. This is the first of 2 volumes covering Nucleosomes, Histones & Chromatin. It provides chapters on Methods applied to the study of Protein Arginine Methylation, High resolution identification of intra – and interchromosomal DNA interactions by 4C technology, and Peptide arrays to interrogate the binding specificity of chromatin-binding proteins.
Editorial Reviews
Review
The first of 2 volumes covering nucleosomes, histones and chromatin, it has chapters on methods applied to the study of protein arginine methylation, high-resolution identification of intra- and interchromosomal DNA interactions by 4C technology, and peptide arrays to interrogate the binding specificity of chromatin-binding proteins.
From the Back Cover
This new volume of Methods in Enzymology continues the legacy of this premier serial by containing quality chapters authored by leaders in the field. The first of 2 volumes covering Nucleosomes, Histones & Chromatin and has chapters on Methods applied to the study of Protein Arginine Methylation, High resolution identification of intra- and interchromosomal DNA interactions by 4C technology, and Peptide arrays to interrogate the binding specificity of chromatin-binding proteins.
