FLASH PHOTOLYSIS OF RIBONUCLEASE A

Abstract— Flash photolysis spectra show that ultraviolet irradiation of RNase (Λ > 250 nm) at pH 11.5 generates the hydrated electron and a long-lived transient with absorption maxima at 390 nm and 410 nm, attributed to the phenoxyl type radical from tyrosyl residues. Comparison of the initial yields with flash photolysis spectra obtained from aqueous tyrosine and mixtures of the chromophoric amino acids indicates that 3–4 tyrosyl residues are photoionized in the primary act. This process is almost completely quenched at pH 1–9, even though the p -alanylphenoxyl radical is obtained with tyrosine over this pH range and the accompanying electron is observed at pH 7. The negative result is not altered by denaturation of RNase with 8 M urea or heating to 70°C, suggesting that a primary chain interaction is responsible for the suppression of tyrosyl residue photolysis. This mechanism is supported by flash photolysis spectra of small peptides, showing that the initial radical yield from tyrosylglycylglycine is strongly quenched compared to tyrosine when the phenolic group is protonated. Comparion of this work with published results on fluorescence and inactivation quantum yields indicates that photochemical electron ejection from RNase in alkaline solutions takes place in the dissociable residues and does not contribute to loss of enzymic activity.