Abstract
The “quantitative” ChIP, a tool commonly used to study protein-DNA interactions in cells and tissue, is a difficult assay often plagued with technical error. We present, herein, the process required to merge multiple protocols into a quick, reliable and easy method and an approach to accurately quantify ChIP DNA prior to performing PCR. We demonstrate that high intensity sonication for at least 30 min is required for full cellular disruption and maximum DNA recovery because ChIP lysis buffers fail to lyse formaldehyde-fixed cells. In addition, extracting ChIP DNA with chelex-100 yields samples that are too dilute for evaluation of shearing efficiency or quantification via nanospectrophotometry. However, DNA extracted from the Mock-ChIP supernatant via the phenol-chloroform-isoamyl alcohol (PCIA) method can be used to evaluate DNA shearing efficiency and used as the standard in a fluorescence-based microplate assay. This enabled accurate quantification of DNA in chelex-extracted ChIP samples and normalization to total DNA concentration prior to performing real-time PCR (rtPCR). Thus, a quick ChIP assay that can be completed in nine bench hours over two days has been validated along with a rapid, accurate and repeatable way to quantify ChIP DNA. The resulting rtPCR data more accurately depicts treatment effects on protein-DNA interactions of interest.
Highlights
Molecular biologists commonly use the chromatin immunoprecipitation (ChIP) assay is a tool to study protein-DNA interactions in healthy and diseased biological systems
DNA by sonication required an understanding of how cell density, sonication time, sonication intensity, and freezing formaldehydefixed cells affected cell integrity, DNA shearing efficiency and total DNA recovery
Numerous Chromatin Immunoprecipitation (ChIP) protocols recommend shearing DNA at a starting density of 107 cells/ml; when cultured cells are treated with growth stimulants or inhibitors over time, the number of cells harvested per treatment varies
Summary
Molecular biologists commonly use the chromatin immunoprecipitation (ChIP) assay is a tool to study protein-DNA interactions in healthy and diseased biological systems. The assay method contains: 1) a fixation step designed to fuse the protein-DNA interactions of interest in place; 2) a series of cell lysis steps intended to separate and wash away extraneous cellular components (cellular membranes, cytoplasmic proteins and RNA) while retaining the nuclear chromatin compartment; 3) a form of chromatin fragmentation, be it mechanical or enzymatic; 4) a mode of antibody-protein-chromatin complex precipitation (protein A/G coated-agarose or magnetic beads); and 5) a precipitated DNA purification step [12]. Most methods include protease inhibitors in the immunoprecipitation (IP) buffer and, depending on the targets of interest, some include phosphatase or other specific enzymatic inhibitors [4,7]. The assay can be cumbersome and fraught with ample opportunity to introduce technical error
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