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Article Abstract
We have constructed and structurally characterized a azurin mutant , where two adjacent tryptophan residues (W124 and W122, indole separation 3.6-4.1 Å) are inserted between the Cu center and a Re photosensitizer coordinated to the imidazole of H126 (Re(H126)(CO)(4,7-dimethyl-1,10-phenanthroline)). Cu oxidation by the photoexcited Re label (*Re) 22.9 Å away proceeds with a ∼70 ns time constant, similar to that of a single-tryptophan mutant (∼40 ns) with a 19.4 Å Re-Cu distance. Time-resolved spectroscopy (luminescence, visible and IR absorption) revealed two rapid reversible electron transfer steps, W124 → *Re (400-475 ps, ≅ 3.5-4) and W122 → W124 (7-9 ns, ≅ 0.55-0.75), followed by a rate-determining (70-90 ns) Cu oxidation by W122 ca. 11 Å away. The photocycle is completed by 120 μs recombination. No photochemical Cu oxidation was observed in , whereas in , the photocycle is restricted to the ReH126W124 unit and Cu remains isolated. QM/MM/MD simulations of indicate that indole solvation changes through the hopping process and W124 → *Re electron transfer is accompanied by water fluctuations that tighten W124 solvation. Our finding that multistep tunneling (hopping) confers a ∼9000-fold advantage over single-step tunneling in the double-tryptophan protein supports the proposal that hole-hopping through tryptophan/tyrosine chains protects enzymes from oxidative damage.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6346393 | PMC |
| http://dx.doi.org/10.1021/acscentsci.8b00882 | DOI Listing |
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