Aminomethyl Salicylaldehydes Lock onto a Surface Lysine by Forming an Extended Intramolecular Hydrogen Bond Network.

The development of electrophilic ligands that rapidly modify specific lysine residues remains a major challenge. Salicylaldehyde-based inhibitors have been reported to form stable imine adducts with the catalytic lysine of protein kinases. However, the targeted lysine in these examples is buried in a hydrophobic environment.

In vivo bioluminescence imaging of labile iron in xenograft models and liver using FeAL-1, an iron-activatable form of D-luciferin.

Dysregulated iron homeostasis underlies diverse pathologies, from ischemia-reperfusion injury to epithelial-mesenchymal transition and drug-tolerant "persister" cancer cell states. Here, we introduce ferrous iron-activatable luciferin-1 (FeAL-1), a small-molecule probe for bioluminescent imaging of the labile iron pool (LIP) in luciferase-expressing cells and animals. We find that FeAL-1 detects LIP fluctuations in cells after iron supplementation, depletion, or treatment with hepcidin, the master regulator of systemic iron in mammalian physiology.

Systematic Study of Heteroarene Stacking Using a Congeneric Set of Molecular Glues for Procaspase-6.

Heteroaromatic stacking interactions are important in drug binding, supramolecular chemistry, and materials science, making protein-ligand model systems of these interactions of considerable interest. Here we studied 30 congeneric ligands that each present a distinct heteroarene for stacking between tyrosine residues at the dimer interface of procaspase-6. Complex X-ray crystal structures of 10 analogs showed that stacking geometries were well conserved, while high-accuracy computations showed that heteroarene stacking energy was well correlated with predicted overall ligand binding energies.

Radical-Mediated Strategies for the Functionalization of Alkenes with Diazo Compounds.

One of the most common reactions of diazo compounds with alkenes is cyclopropanation, which occurs through metal carbene or free carbene intermediates. Alternative functionalization of alkenes with diazo compounds is limited, and a methodology for the addition of the elements of Z-CHR (with Z = H or heteroatom, and CHR originates from N═CR) across a carbon-carbon double bond has not been reported. Here we report a novel reaction of diazo compounds utilizing a radical-mediated addition strategy to achieve difunctionalization of diverse alkenes.

Catalytic Oxidative Cleavage Reactions of Arylalkenes by -Butyl Hydroperoxide - A Mechanistic Assessment.

Oxidative cleavage reactions of arylalkenes by -butyl hydroperoxide that occur by free radical processes provide access to carboxylic acid or ketone products. However, the pathway to these cleavage products is complex, initiated by regioselective oxygen radical addition to the carbon-carbon double bond. Subsequent reactions of the initially formed benzyl radical lead eventually to carbon-carbon cleavage.