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Short peptides are among the most intriguing building blocks in nanotechnology, but it would be very challenging to experimentally study the properties of large numbers of different sequences. Now, a computational analysis of all 8,000 possible tripeptides has been used to identify those with interesting self-assembly behaviour.
The photoinduced production of hydrogen from HCl is an attractive alternative to water splitting. Insights into this challenging reaction have now been gained using photocrystallography, which provides a snapshot of the structural changes occurring during the elimination of chlorine from a dinuclear rhodium catalyst.
DNA self-assembly has previously been used to create channel-like structures that can penetrate through lipid bilayer membranes. However, such assemblies have not been shown to cause cell death before. Now a DNA nanopore has been shown to exert a cytotoxic effect when administered to cells.
A combined experimental and theoretical study of the biosynthesis of a family of antibacterial natural products has uncovered some of the finer details of unusual stereoselectivity observed in a peptide cyclization.
Developing cleaner chemical processes often involves sophisticated flow-chemistry equipment that is not available in many economically developing countries. For reactions where it is the data that are important rather than the physical product, the networking of chemists across the internet to allow remote experimentation offers a viable solution to this problem.
The maximum attainable capacity of the Li–O2 battery is limited by the passivation of its cathode by electronically insulating Li2O2. It is now shown that electrolyte additives, which activate solution-mediated growth of Li2O2, make it possible to circumvent this fundamental limitation, leading to design rules for additive selection.
Amines are essential in a number of research areas, but a general, selective and step-efficient synthesis has been elusive. Now, the use of a single copper catalyst to transform alkynes into enamines, α-chiral branched alkylamines, and linear alkylamines is described. These transformations have been applied in the preparation of a selection of current pharmaceutical agents.
The mammalian oocyte cell cycle is regulated by massive zinc fluxes which culminate in coordinated ejections of ~1010 zinc ions at fertilization. Four single-cell physiochemical approaches (live-cell fluorescence imaging, scanning transmission electron microscopy with energy dispersive spectroscopy, X-ray fluorescence microscopy and tomography) reveal that these ‘zinc sparks’ originate from thousands of cortical vesicles which each release ~106 zinc ions.
Creating chemical systems that can model living systems is far from easy. However, the evolution of oil droplets in water through the application of artificial selective pressure to produce droplets with dramatically different — yet specific — behaviours, is an encouraging step in this direction.
Peptides that self-assemble into nanostructures are of interest for many applications, including ones relevant to cosmetics, food, biomedicine and nanotechnology. Now, computational tools have been developed that enable peptide sequence space to be rapidly searched for supramolecular properties and this approach has been used to identify unprotected tripeptide hydrogelators.
