Protocol

Genome-Wide Analysis of DNA Synthesis by BrdU Immunoprecipitation on Tiling Microarrays (BrdU-IP-chip) in Saccharomyces cerevisiae

Molecular and Computational Biology Program, University of Southern California, Los Angeles, CA 90089, USA

¹Corresponding author (oaparici{at}usc.edu).

INTRODUCTION

The incorporation of thymidine analogs, such as 5-bromo-2'-deoxyuridine (BrdU), into newly synthesized DNA is a powerful tool for analysis of DNA replication, repair, and other aspects of DNA metabolism. In Saccharomyces cerevisiae, several assays have been developed to identify chromosomal DNA that has incorporated BrdU. Here we describe an approach that couples BrdU immunoprecipitation with DNA microarrays (BrdU-IP-chip) supplied by Roche NimbleGen to enable the genome-wide identification of BrdU-labeled chromosomal DNA. In this procedure, yeast cells that have been engineered to assimilate BrdU from the growth medium and incorporate it into replicating DNA are grown in the presence of BrdU under experimental conditions. These cells are harvested, the genomic DNA is isolated and randomly sheared, and the BrdU-labeled DNA is then immunoprecipitated. This immunoprecipitated DNA is polymerase chain reaction (PCR)-amplified, labeled with a fluorophore, and cohybridized along with a reference sample (typically total genomic DNA not subject to immunoprecipitation, but amplified and labeled with a different fluorophore) onto DNA microarrays. The data are then normalized, and chromosomal regions of BrdU incorporation (BrdU peaks) are identified. BrdU peak heights can be quantified and compared with BrdU peak heights at different genomic locations or under different experimental conditions (e.g., different mutants or time points). BrdU-IP-chip has many potential applications and has already been used to identify replication origins, make quantitative comparisons of origin firing between strains, and examine replication fork progression.