Nucleosomes, Histones and Chromatin Part B
List price: $121.00
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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 volume covers Nucleosomes, Histones & Chromatin and has chapters on Dynamic mapping of histone-DNA interactions in nucleosomes by unzipping single molecules of DNA, Digital DNase technology, and Genome-wide Analysis of Chromatin Transition.Contains quality chapters authored by leaders in the field.The volume covers Nucleosomes, Histones & Chromatin.Has chapters on Dynamic mapping of histone-DNA interactions in nucleosomes by unzipping single molecules of DNA, Digital DNase technology, and Genome-wide Analysis of Chromatin Transition.
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All the information you need in one place! Each Study Brief is a summary of one specific subject; facts, figures, and explanations to help you learn faster.
List price: $121.00
Copyright year: 2012
Publisher: Elsevier Science & Technology
Publication date: 10/19/2012
Size: 6.50" wide x 9.50" long x 1.00" tall
|Quantitative affinity measurements for chromatin binding modules and their cognate marks-- pull-downs/ITC/FP/SPR|
|Modified Lysine Analogs for the study of chromatin modifying enzymes and nucleosome structure|
|Map the exact polydenylation site of mRNA transcripts|
|Analysis of the mechanism of chromatin remodeling by|
|Dynamic mapping of histone-DNA interactions in nucleosomes by unzipping single molecules of DNA|
|Mechanisms of ATP-dependent chromatin remodelling revealed by high-resolution optical tweezers|
|Enzymatic analysis of the Tet proteins by TLC and mass spectrometry|
|Investigating histone modifications using quantitative mass spectrometry|
|Single-molecule studies of chromatin remodeling|
|Genome-wide mapping of nucleosomes, chromatin modifications and chromatin-modifying enzymes|
|Digital DNase technology|
|Genome-wide Analysis of Chromatin Transitions; Integration of Static and Dynamic Approaches|
|Mapping the transcription machinery on the yeast genome|