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The spontaneous resolution of racemic mixtures can occur when the molecules are confined in a crystal lattice, on surfaces or in other well-ordered assemblies. Now, mirror symmetry breaking within an isotropic liquid of achiral molecules has been observed. These liquids show strong chiral amplification and provide a possible mode of emergence of chirality in prebiotic fluids.
Disulfide bonds formed between two cysteine residues are important in the folding and stability of proteins. Now, unnatural amino acids with side-chains that contain two thiol groups are described. Incorporation of these dithiol amino acids into a serine protease inhibitor and a nicotinic acetyl choline receptor antagonist is shown to increase their inhibitory activity.
The relationship between electron-transfer properties and the structure of molecular electronics is still not fully understood. Now, a rigid and flat molecular wire has been shown to significantly enhance the rate of electron transfer compared with conventional flexible molecular wires. This enhancement is attributable to both conjugation-induced electronic coupling and inelastic electron tunnelling-enabled electron–vibration coupling.
A discovery approach termed activity-directed synthesis is described; it exploits arrays of reactions whose outcome is critically dependent on the conditions used, and prioritizes reactions that yield bioactive product mixtures. The discovery of both bioactive small molecules and associated synthetic routes thus occurs in parallel.
Enantiomerically pure head-to-head-to-tail triple-stranded helicates synthesized using a subcomponent self-assembly approach possess high anticancer activities against cancer cell lines without significant damage to DNA and with low toxicity to bacteria.
Halogen bonding connects a wide range of subjects — from materials science to structural biology, from computation to crystal engineering, and from synthesis to spectroscopy. The 1st International Symposium on Halogen Bonding explored the state of the art in this fast-growing field of research.
Directed evolution is a powerful tool for the development of improved enzyme catalysts. Now, a method that enables an enzyme, its encoding DNA and a fluorescent reaction product to be encapsulated in a gel bead enables the application of directed evolution in an ultra-high-throughput format.
Benjamin King and Dieter Schlüter, the corresponding authors of two Articles in this issue that describe single-crystal characterization of two-dimensional polymers, talk to Nature Chemistry about the background, challenges and prospects of their work.
Intense laser fields can apply strong forces to molecules, distorting molecular potentials. Now, these effects have been used to precisely control the branching ratios of a polyatomic photodissociation reaction.
They might not be fundamental constants of nature, but atomic weights are one of the foundations on which modern chemistry is built, explains Juris Meija.
This Review draws an analogy between acid–base catalysis and redox catalysis. The 'electron is a catalyst' paradigm unifies mechanistically an assortment of synthetic transformations that otherwise have little or no apparent relationship. Various radical cascades catalysed by the electron are discussed.
The oxygen reduction reaction limits fuel cell performance and currently requires costly electrocatalysts with high platinum content to achieve adequate power densities. Now a silver–cobalt surface alloy electrocatalyst has been developed for the oxygen reduction reaction that is stable in alkaline electrolytes and is more economical than traditional platinum-based materials.
Anion transporters that disrupt cellular ion homeostasis could represent a new approach for generating therapeutic lead compounds. Now, two pyridine diamide-strapped calix[4]pyrroles have been shown to induce coupled chloride anion and sodium cation transport in liposomal models and cells. These compounds promote cell death by increasing intracellular chloride and sodium ion concentrations.
