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Find out the procedure for RNA isolation, DNase treatment and reverse transcription in our detailed protocol.
By combining the DNA denaturation and bisulfite conversion steps, you can accurately convert unmethylated cytosine into uracil in 30mins.
ChIP is a very powerful technique that allows for the analysis of protein localization on DNA regions in the genome. Watch this on-demand webinar to find out how to optimize and troubleshoot your ChIP experiments.
Find useful information, links and recommended checks and controls to include in your siRNA experiments.
Discover our guide covering some of the latest and most advanced ChIP-based techniques. Including ChIP-loop, ChIA-PET, ChIP-exo and ChIP-BS-seq.
Learn about the most common histone modifications eg H4K4me1, H3K9me3, and H3K27me3 and their readers, writers, and erasers.
See how two new chromatin profiling methods, CUT&RUN and CUT&Tag, overcome many of the drawbacks of conventional ChIP methods with our comprehensive guide.
Find out how to perform native chromatin immunoprecipitation with this detailed step-by-step protocol.
This on-demand webinar explains how to incorporate more advanced aspects of ICC/IHC theory and practice into experiments. Topics include designing and analyzing multi-color imaging experiments.
ChIP tips including cross-linking, chromatin fragmentation, ChIP antibodies, and detection.