The interaction between the GGCC-specific Bsp RI DNA methyltransferase (M. Bsp RI) and substrate DNA was studied with footprinting techniques using a DNA fragment that was unmodified on both strands. Footprinting with DNase I revealed an approximately 14 bp protected region. Footprinting with dimethylsulfate detected major groove interactions with the guanine bases of the recognition sequence. Reaction with 1,10-phenanthroline-copper did not show protection, suggesting that minor groove interactions play little role in sequence-specific recognition by M. Bsp RI. Hydroxyl radical footprinting revealed a protected stretch of 6 nt. The hydroxyl radical footprint of M. Bsp RI differs markedly from the the footprint reported for the Hha I and Sss I methyltransferases. The pattern of protection from dimethylsulfate and hydroxyl radicals suggests that the interactions of M. Bsp RI with DNA are similar to those detected in the co-crystal structure of the Hae III methyltransferase.