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Cross-coupling reactions are widely used for creating new carbon–carbon bonds in chemical syntheses. Using the cross-coupling concept, Wang and colleagues present an organocatalytic strategy for the direct and stereoselective α-arylation of enals that occurs under mild conditions.
Surface characterization of soft materialsin situis challenging due to the importance of non-covalent interactions. Now, a new chemical imaging method is reported that generates images of surface interactions by combining many molecular probe trajectories.
Plasmonic nanostructures and metamaterials can augment the performance of photovoltaic and thermophotovoltaic cells by enhancing their absorption properties. Aydinet al. demonstrate a broadband, ultrathin plasmonic super absorber using crossed trapezoids as part of a metal–insulator–metal stack.
Peatlands are a sink for atmospheric carbon dioxide and make up a large soil carbon reservoir. Here, studies of the interaction between drainage and fire show that long-term carbon emissions will likely exceed rates of carbon uptake, reducing the northern peatland carbon sink.
Advanced rechargeable lithium-ion batteries have potential applications in the renewable energy and sustainable road transport fields. Junget al. have developed a lithium battery that uses pre-existing concepts but has highly competitive energy densities, life span and cycling properties.
Graphene may be used in nanoscale electronics and devices, but the ability to synthesise uniform graphene with well-controlled layer numbers is necessary for these applications. Using a Ni–Mo alloy, this study demonstrates single-layer graphene growth with 100% surface coverage and tolerance to variations in growth conditions.
Heat shock proteins bind to CD91 on antigen presenting cells, resulting in the presentation of chaperoned peptides to T cells. Here, heat shock protein binding is shown to induce phosphorylation of CD91 and stimulate the production of cytokines, thus priming various T-helper cell responses.
Erythropoietin circulates in the blood and is essential for erythropoiesis but its role in metabolic homeostasis has not been examined. Tenget al. show that when the erythropoietin receptor is only expressed in erthyroid cells, mice develop obesity and insulin resistance, suggesting that the receptor has a key role in fat mass accumulation.
APOBEC3 is a DNA editing enzyme that is important for antiviral responses. In this study, Carmi and colleagues show that APOBEC3 editing of retrotransposon sequences in mammalian genomes is widespread, with implications for the evolution of retrotransposons.
Magnetostriction—the property that causes ferromagnetic materials to change shape during the process of magnetization—has a range of technological applications. Here, by varying the presence of structural disorder in textured Co1-xFexfilms, unusually strong magnetostrictive properties are presented.
Hair cells of the inner ear transduce vibrations of the basilar membrane into electrical signals by a process known as mechanotransduction. Recent advances in genetic and molecular tools have led to an improved understanding of mechanotransduction as Peng and colleagues summarize in this Review.
Stomagen is a positive regulator of stomatal development in plants, whereas epidermal patterning factors 1 and 2 are negative regulators. Ohkiet al. present the NMR structure of stomagen and show that the stomagen loop domain is sufficient to positively regulate stomatal development.
Stimulus-responsive hydrogels have previously been developed that display heat-, light-, pH- or redox-induced sol–gel transitions. Nakahataet al. develop a self-healing supramolecular hydrogel based on host–guest polymers in which redox potential can induce a reversible sol–gel phase transition.
Large scale synapse assays can facilitate identification of drug leads. Shiet al. develop a 'synapse microarray' technology that enables sensitive, high-throughput, quantitative screening of synaptogenic events, and use it to identify novel histone deacetylase inhibitors that enhance synaptogenesis.
In multi-component mixtures of self-assembling molecules, small differences in association energy between components can be amplified by nonlinear effects. This theoretical investigation of self-assembling systems rationalizes chiral amplification in cooperative supramolecular copolymerizations.
MicroRNAs bind to the 3′-untranslated region of genes to regulate expression. In this study, an RNA-binding protein, RMB38, is shown to selectively regulate the access of some microRNAs to their targets, and control the expression of some p53 target genes.
Intercalating alkali metals into picene—a hydrocarbon with five linearly fused benzene rings—results in superconducting materials. Now, alkali-metal-doped phenanthrene, which consists of three fused benzene rings, is also found to be superconducting, opening up a broader class of organic superconductors.
Biological digital sensors require the fabrication of modular genetic logic gates. Using thePseudomonas syringae hrpsystem, Wang and colleagues generate AND, NOT and NAND gates, demonstrating the ability to engineer a modular system from biological elements.
In the theory of general relativity time flows at different rates depending on the space–time geometry. Here, a drop in the visibility of a quantum 'clock' interference in a gravitational potential is predicted, which cannot be explained without the general relativistic notion of time.
During cell division, a cytoplasmic bridge—the midbody—forms between the nascent daughter cells, but it has been unclear under which conditions this is retained by a daughter cell or released. Now, Ettinger and colleagues show that midbody-release occurs more frequently in stem cells compared with cancer cells.