Methylation Interference Assay

doi:10.1101/pdb.prot4812

Cite as: Cold Spring Harb. Protoc.; 2007; doi:10.1101/pdb.prot4812

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Methylation Interference Assay

Michael Carey and Stephen T. Smale

This protocol was adapted from "Theory, Characterization, and Modeling of DNA Binding by Regulatory Transcription Factors," Chapter 13, in Transcriptional Regulation in Eukaryotes: Concepts, Strategies, and Techniques, 1st edition, by Michael Carey and Stephen T. Smale. Cold Spring Harbor Laboratory Press, Cold Spring Harbor, NY, USA, 2000.

INTRODUCTION

Methylation interference (and methylation protection) is themajor technique for studying the interaction of proteins withmajor-groove guanines, although it also detects adenines inthe minor groove and cytosines in single-stranded DNA. It isone of the highest-resolution methods for measuring the basesinvolved in sequence-specific recognition by proteins. A ³²P-end-labeledDNA containing a recognition site is methylated (on averageonce per DNA molecule) by dimethyl sulfate (DMS) and then proteinis allowed to bind. Certain methylation modifications preventthe protein from binding because they are at positions wherethe protein comes into close proximity with the DNA. Most modifications,however, have no effect on binding. The bound and unbound DNAmolecules are separated using the electrophoretic mobility shiftassay (or filter binding, immunoprecipitation, or any othersuitable technique). The unbound fraction will be enriched inDNA molecules containing modifications at positions that interferewith protein binding. In contrast, the bound fraction will containmodifications that do not interfere with binding of the protein.Methylation weakens the nucleotide and makes it susceptibleto piperidine-induced depurination. This leads, in turn, toscission of the DNA backbone. The cleaved fragments are fractionatedon a sequencing gel alongside chemical sequencing ladders toidentify the affected positions.

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