Abstract
Enzymes that modify DNA are faced with significant challenges in specificity for both substrate binding and catalysis. We describe how single hydrogen bonds between M.HhaI, a DNA cytosine methyltransferase, and its DNA substrate regulate the positioning of a peptide loop which is approximately 28 A away. Stopped-flow fluorescence measurements of a tryptophan inserted into the loop provide real-time observations of conformational rearrangements. These long-range interactions that correlate with substrate binding and critically, enzyme turnover, will have broad application to enzyme specificity and drug design for this medically relevant class of enzymes.
Highlights
DNA methyltransferases bind to a particular DNA sequence, stabilize the target base into an extrahelical position within the enzyme active site, and transfer the methyl moiety from AdoMet to the DNA (7)
Correct positioning of this loop is essential for catalysis because C81, the active site nucleophile that attacks the target cytosine base at the C6 position, is ϳ9.6 Å away in the loop-open conformer (Fig. 1A)
Using stopped-flow fluorescence spectroscopy to monitor the environment of tryptophan (Trp) residues inserted into the catalytic loop, we recently observed reorganization of this loop upon DNA binding in the absence of cofactor using the M.HhaI mutants W41F, W41F/K91W, and W41F/E94W (12)
Summary
DNA methyltransferases bind to a particular DNA sequence, stabilize the target base into an extrahelical position within the enzyme active site, and transfer the methyl moiety from AdoMet to the DNA (7). Controlling the Loop Position from 28 Å Away—When mixed with NS DNA and either AdoMet or AdoHcy, no loop closure was observed in M.HhaI (Fig. 2B) (12).
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