Browse Articles

Mice lacking the anti-inflammatory cytokine IL-10 can develop colitis, which depends on inappropriate responses to commensal bacteria. Hoshiet al. now show that these responses are driven by colonic mononuclear phagocytes, providing insight to the initiating events, which may underlie inflammatory bowel disease.

Identifying molecules that bind to RNA is difficult because information about RNA–ligand interactions is limited. Tran and Disney report a solution-based screening method that can probe large numbers of RNA motif-small molecule interactions to identify privileged RNA structures and chemical spaces that interact.

One of the five IL-17 receptors, IL-17RD lacks a motif thought to be required for downstream signalling. Melletet al. show that IL-17RD tunes IL-17A-dependent signalling; in its absence, MAPK signalling and neutrophil recruitment are impaired, but NF-κB activation is enhanced.

Trapped ions and atoms coexist at different temperatures in mixed systems, and cooling of ions through collisions with atoms is required for the mixture to stabilize. Raviet al. study these effects using rubidium atoms and ions, and find a collisional cooling mechanism leading to stability of the mixture.

Nanoporous zeotypes have applications as catalysts and in gas separation, but they are usually produced as moderately dense silicates and aluminosilicates with relatively low capacities for gas uptake. Here, zeotype structures are reported with very low densities and high total specific pore volumes.

The keeled sternum is a distinct skeletal element in extant birds. In this study, specimens of juvenile extinct birds—Enantiornithes—from the Early Cretaceous show a unique sequence of development in the sternum, suggesting differences between living birds and this extinct clade.

The ability of oleaginous fungi to produce lipids for biofuels remains untapped, in part due to a lack of genetic information required to engineer industrial strains. Zhuet al. present the genome of R. toruloides, and identify transcriptomic and proteomic changes associated with lipid production.

The degree of polydispersity of colloidal suspensions is known to have consequences for their physical properties. Kuritaet al. present a general method for determining the sizes of individual particles, and thus the polydispersity, using only the coordinates of the centre positions of spherical particles.

Epimerization of carbohydrates to rare sugars yields products that have potential applications as anti-viral drugs or chiral building blocks. Here, Sn-Beta zeolite in the presence of sodium tetraborate is shown to catalyze the selective epimerization of aldoses in aqueous media.

Platinum is used as a cathode in fuel cells but undergoes dissolution during potential changes, hindering commercial application in electric vehicles. Sasakiet al.report a new class of stable electrocatalysts that consist of platinum monolayers on palladium–gold alloy nanoparticles.

Mutations in human angiogenin are implicated in the progression of amyotrophic lateral sclerosis. Thiyagarajan and colleagues show that structural differences between angiogenin variants affect neuronal survival, and the ability to induce stress granules in neuronal cell lines.

Interactions of cells with extracellular matrix are important in normal physiology and cancer metastasis. Here, an extracellular matrix molecule array is developed and used to show that conserved changes in adhesive properties are associated with metastasis, including binding to fibronectin in combination with galectin-3, galectin-8 or laminin.

Self-assembly of DNA can provide access to a range of nanoscale structures, but assembly using magnesium has been considered essential. Martin and Dietz report conditions that allow the assembly of templated, multi-layer DNA structures in the presence of monovalent ions, rather than magnesium.

Spider webs consist of scaffolding silk, which supports the cobweb, and gumfoot silk, which can detach easily from the web upon contact with prey. Here, these different mechanical demands are shown to be met by silk attachments of two distinct architectures using the same pyriform silk secretions.

Strain in Si nanostructures is used to achieve higher carrier mobility, making these devices candidates for the next generation of transistors. Minamisawaet al. fabricate silicon nanowires subject to elastic tensile strain up to 4.5%, exceeding the limit achievable with the use of SiGe virtual substrates.

Linear magnetoresistance is a phenomenon observed in many material systems and could be used in magnetic field sensors. This paper uncovers its microscopic origin showing how it arises from multiple scattering of electrons by low-mobility islands within an inhomogeneous high-mobility semiconductor.

Flexible electronic devices are widely considered to have significant potential for a range of applications. Here the authors present a bendable and transparent memory based on graphene electrical contacts and silica as the memory element.

Cavity optomechanics can exploit optical forces to achieve all-optical signal processing, but most schemes are limited to a narrow wavelength range. Using a cavity optomechanical design system with two optical channels, Liet al. show broadband readout and all-optical amplification of radio-frequency signals.

Autoreactive T cells are eliminated as they encounter self-antigens during transit through the thymus. Uedaet al. reveal that mice lacking the Hippo homologue Mst1 develop autoimmunity as a result of impaired integrin-dependent T cell migration through this negatively selective niche.

Endothelial cells provide a vital barrier system to the passage of water and ions but not large plasma proteins. Using fluorescently labelled dextrans, the authors show that regions of high or low adherens junction density differentially restrict the passage of molecules up to 70 kDa in size.