Bioorthogonal chemistries enable researchers to interrogate biomolecules in living systems.
These reactions are highly selective and biocompatible, and can be performed in many …

Conspectus Chemical tools are transforming our understanding of biomolecules and living
systems. Included in this group are bioorthogonal reagents–functional groups that are inert …

Described is the spatiotemporally controlled labeling and patterning of biomolecules in live
cells through the catalytic activation of bioorthogonal chemistry with light, referred to as …

Conspectus Membranes are multifunctional supramolecular assemblies that encapsulate
our cells and the organelles within them. Glycerophospholipids are the most abundant …

The fidelity of signal transduction requires spatiotemporal control of the production of
signaling agents. Phosphatidic acid (PA) is a pleiotropic lipid second messenger whose …

Described is a general method for the installation of a minimal 6-methyltetrazin-3-yl group
via the first example of a Ag-mediated Liebeskind–Srogl cross-coupling. The attachment of …

Abstract Inverse electron demand Diels–Alder reactions between s‐tetrazines and strained
dienophiles have numerous applications in fluorescent labeling of biomolecules. Herein, we …

Bioorthogonal chemistry is widely used in biological systems and has been trialed in
patients, attracting a lot of attention in this century. Tetrazine-based bioorthogonal reactions …

Phosphatidic acid (PA) is both a central phospholipid biosynthetic intermediate and a
multifunctional lipid second messenger produced at several discrete subcellular locations …

A photochemical synthesis of AgNO3 complexes of trans-cycloheptene (TCH) and trans-1-
sila-4-cycloheptene (Si-TCH) derivatives is described. A low temperature flow photoreactor …