Solution conformation of EcoRI restriction endonuclease changes upon binding of cognate DNA and Mg2+ cofactor

EcoRI endonuclease has two tryptophans at positions 104 and 246 on the prot ein surface. A single tryptophan mutant containing Trp246 and a single cyst eine labeling site at the N-terminus was used to determine the position of the N-terminus in the protein structure. The N-termini of EcoRI endonucleas e are essential for tight binding and catalysis yet are not resolved in any of the crystal structures. Resonance energy transfer was used to measure t he distance from Trp246 donor to IAEDANS or MIANS accepters at Cys3. The di stance is 36 Angstrom in apoenzyme, decreasing to 26 Angstrom in the DNA co mplex. Molecular modeling suggests that the N-termini are located at the di mer interface formed by the loops comprising residues 221-232. Protein conf ormational changes upon binding of cognate DNA and cofactor Mg2+ were monit ored by tryptophan fluorescence of the single tryptophan mutant and wild-ty pe endonuclease. The fluorescence decay of Trp246 is a triple exponential w ith lifetimes of 7, 3.5, and 0.7 ns. The decay-associated spectra of the 7- and 3.5-ns components have emission maxima at similar to 345 and similar t o 338 nm in apoenzyme, which shift to similar to 340 and similar to 348 nm in the DNA complex. The fluorescence quantum yield of the single tryptophan mutant drops 30% in the DNA complex, as compared to 10% for wild-type endo nuclease. Fluorescence changes of Trp 104 upon binding of DNA were inferred by comparison of the decay-associated spectra of wild type and single tryp tophan mutant. Fluorescence changes are related to changes in proximity and orientation of quenching functional groups in the tryptophan microenvironm ents, as seen in the crystal structures.