Disclosing novel melanogenesis pathways: Formation of unexpected biphenyl-type dimers through radical-radical coupling by solid-state oxidation of the melanin biosynthetic precursor 5,6-dihydroxyindole.

Investigation of the oxidation pathway of 5,6-dihydroxyindole (DHI), one of the main biosynthetic precursors of the brown-to-black skin and hair melanin pigments, represents a promising approach for the elucidation of the structure of these pigments in biological systems. We report herein the exploration of DHI oxidation chemistry under conditions so far poorly investigated, i.e.

The interaction of thiocyanate with peptides-A computational study.

According to the Hofmeister series, thiocyanate is the strongest "salting in" anion. In fact, it has a strong denaturant activity against the native state of globular proteins. A molecular level rationalization of the Hofmeister series is still missing, and therefore the denaturant activity of thiocyanate also awaits a robust explanation.

Modeling Multi-Step Organic Reactions: Can Density Functional Theory Deliver Misleading Chemistry?

Many organic reactions are characterized by a complex mechanism with a variety of transition states and intermediates of different chemical natures. Their correct and accurate theoretical characterization critically depends on the accuracy of the computational method used. In this work, we study a complex ambimodal cycloaddition with five transition states, two intermediates, and three products, and we ask whether density functional theory (DFT) can provide a correct description of this type of complex and multifaceted reaction.

Barrier Heights for Diels-Alder Transition States Leading to Pentacyclic Adducts: A Benchmark Study of Crowded, Strained Transition States of Large Molecules.

Theoretical characterization of reactions of complex molecules depends on providing consistent accuracy for the relative energies of intermediates and transition states. Here we employ the DLPNO-CCSD(T) method with core-valence correlation, large basis sets, and extrapolation to the CBS limit to provide benchmark values for Diels-Alder transition states leading to competitive strained pentacyclic adducts. We then used those benchmarks to test a diverse set of wave function and density functional methods for the absolute and relative barrier heights of these transition states.