Institute of Organic Chemistry and Biochemistry of the CAS

Scientific collaboration saving millions of lives around the world is set to continue

23 October 2023

The ongoing cooperation between IOCB Prague and the American pharmaceutical company Gilead Sciences builds on a glorious history which gave the world medicines that are helping…

A mysterious blue molecule will help make better use of light energy

19 September 2023

Researchers at IOCB Prague are the first to describe the causes of the behavior of one of the fundamental aromatic molecules, which fascinates the scientific world not only with…

Scientists continue to push the boundaries of imaging techniques and reveal the mysterious world of…

29 August 2023

Scientists from the IOCB Prague, the Institute of Physics of the Czech Academy of Sciences, and Palacký University Olomouc, have once again successfully uncovered the mysteries of…

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Molecular Rotor Workshop 2023

2 November — 3 November 2023, IOCB…

NOV

Liblice 2023 – 57th Advances in Organic,…

9 November — 11 November 2023,…

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Excursions for English-speaking school classes …

10 November 2023, IOCB Prague,…

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Lecture: Milan Kivala

13 November 2023, IOCB Prague

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Experimental Evidence and Mechanistic Description of the Phenolic H-Transfer to the Cu<sub>2</sub>O<sub>2</sub> Active Site of oxy-Tyrosinase

Experimental Evidence and Mechanistic Description of the Phenolic H-Transfer to the Cu₂O₂ Active Site of oxy-Tyrosinase

I. Kipouros A. Stańczak E. M. Dunietz J. W. Ginsbach M. Srnec L. Rulíšek E. I. Solomon

Journal of the American Chemical Society 2023: Early View

Tyrosinase is a ubiquitous coupled binuclear copper enzyme that activates O₂ toward the regioselective monooxygenation of monophenols to catechols via a mechanism that remains only partially defined. Here, we present new mechanistic insights into the initial steps of this monooxygenation reaction by employing a pre-steady-state, stopped-flow kinetics approach that allows for the direct measurement of the monooxygenation rates for a series of para-substituted monophenols by oxy-tyrosinase. The obtained biphasic Hammett plot and the associated solvent kinetic isotope effect values provide direct evidence for an initial H-transfer from the protonated phenolic substrate to the Cu₂O₂ core of oxy-tyrosinase. The correlation of these experimental results to quantum mechanics/molecular mechanics calculations provides a detailed mechanistic description of this H-transfer step. These new mechanistic insights revise and expand our fundamental understanding of Cu₂O₂ active sites in biology.

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Superanionic DNA: enzymatic synthesis of hypermodified DNA bearing four different anionic substituents at all four nucleobases

N. Kuprikova M. Ondruš L. Bednárová M. Riopedre Fernández L. Poštová Slavětínská V. Sýkorová M. Hocek

Nucleic Acids Research 2023: Early View

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Porphene and porphite as porphyrin analogs of graphene and graphite

T. F. Magnera P. I. Dron J. P. Bozzone M. Jovanovic I. Rončević E. Tortorici W. Bu E. M. Miller C. T. Rogers J. Michl

Nature Communications 14: 6308 (2023)

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Regular Arrays of Rod-Shaped Molecular Photoswitches: Synthesis, Preparation, Characterization, and Selective Photoswitching within Mono- and Bilayer Systems

L. Severa C. Santos Hurtado I. Rončević M. Mašát G. Bastien J. R. Štoček M. Dračínský V. Houska E. Kaletová D. J. Garza I. Císařová K. L. A. Cimatu Z. Bastl J. Kaleta

Chemistry - A European Journal 2023: Early View

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