DNA translocation of ATP-dependent chromatin remodeling factors revealed by high-resolution optical tweezers -- Unzipping single DNA molecules to study nucleosome structure and dynamics -- Monitoring conformational dynamics with single-molecule fluorescence energy transfer: applications in nucleosome remodeling -- 4C technology: protocols and data analysis -- A torrent of data: mapping chromatin organization using 5C and high-throughput sequencing -- Genome-wide mapping of nucleosomes in yeast using paired-end sequencing -- Measuring genome-wide nucleosome turnover using CATCH-IT -- DNA methyltransferase accessibility protocol for individual templates by deep sequencing -- Genome-wide In Vitro reconstition of yeast chromatin with In Vivo-like nucleosome positioning -- Genome-wide mapping of nucleosome positions in yeast using high-resolution MNase ChIP-Seq -- Preparation of Drosophila tissue culture cells from different stages of the cell cycle for chromatin immunoprecipitation using centrifugal counterflow elutriation and fluorescence-activated cell sorting -- Genome-wide polyadenylation site mapping -- Genome-wide mapping of nucleosome occupanc, histone modifications, and gene expression using next-generation sequencing technology -- A chemical approach to mapping nucleosomes at base pair resolution in yeast.
Summary:
Covers nucleosomes, histones and chromatin, with 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.
This resource is supported by the Institute of Museum and Library Services under the provisions of the Library Services and Technology Act as administered by State Library of Iowa.