Proton-Coupled Electron Transfer from Tyrosine in the Interior of a de novo Protein : Mechanisms and Primary Proton Acceptor

• Proton-coupled electron transfer (PCET) from tyrosine produces a neutral tyrosyl radical (Y-center dot) that is vital to many catalytic redox reactions. To better understand how the protein environment influences the PCET properties of tyrosine, we have studied the radical formation behavior of Y-32 in the alpha Y-3 model protein. The previously solved alpha Y-3 solution NMR structure shows that Y-32 is sequestered similar to 7.7 +/- 0.3 angstrom below the protein surface without any primary proton acceptors nearby. Here we present transient absorption kinetic data and molecular dynamics (MD) simulations to resolve the PCET mechanism associated with Y-32 oxidation. Y-32(center dot). was generated in a bimolecular reaction with [Ru(bpy)(3)](3+) formed by flash photolysis. At pH > 8, the rate constant of Y-32(center dot). formation (k(P)(CET)) increases by one order of magnitude per pH unit, corresponding to a proton-first mechanism via tyrosinate (PTET). At lower pH < 7.5, the pH dependence is weak and shows a previously measured KIE approximate to 2.5, which best fits a concerted mechanism. k(PC)(ET) is independent of phosphate buffer concentration at pH 6.5. This provides clear evidence that phosphate buffer is not the primary proton acceptor. MD simulations show that one to two water molecules can enter the hydrophobic cavity of alpha Y-3 and hydrogen bond to Y-32, as well as the possibility of hydrogen-bonding interactions between Y-32 and E-13, through structural fluctuations that reorient surrounding side chains. Our results illustrate how protein conformational motions can influence the redox reactivity of a tyrosine residue and how PCET mechanisms can be tuned by changing the pH even when the PCET occurs within the interior of a protein.

Ämnesord

NATURVETENSKAP  -- Kemi -- Fysikalisk kemi (hsv//swe)

NATURAL SCIENCES  -- Chemical Sciences -- Physical Chemistry (hsv//eng)

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