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The histone methyltransferase Ezh2 is thought to have a dual function both as a tumour suppressor and an oncogene. Using mouse models with Ezh2 gain-of-function, Herrera-Merchanet al. show that Ezh2 expression in HSCs severely compromises hematopoietic function, leading to myeloproliferative disease.
Inward rectifier potassium channels are regulated by a range of ligands that act on a common gate, but the structural details of gating are unclear. Here, the molecular motions associated with gating of KirBac1.1 channels are assessed using small molecule fluorescent probes attached to introduced cysteines.
A dual-contrast agent has been developed for combined ultrasound and photoacoustic imaging. This agent uses vaporization for ultrasound contrast enhancement and photoacoustic signal generation, providing significantly higher signals than thermal expansion, the most commonly used photoacoustic mechanism.
Multivalent display of integrin antagonists enhances their efficacy, but current synthetic scaffolds used to display ligands are limited in range and precision. Englundet al. develop a new scaffold to study the multivalent effects of integrin antagonists across wide ranges of ligand number, density, and 3D arrangement.
Hereditary haemorrhagic telangiectasia (HTT) is caused by mutations in TGFβ/bone morphogenetic protein signalling genes. Here, Benzinouet al. show that variants of PTPN14, a gene within a mouse Tgfb1 modifier locus, associate with pulmonary arteriovenous malformation in HTT patients, shedding light on the molecular aetiology of this disease.
Tokamak plasmas suffer from magnetohydrodynamic instabilities, driven by gradients in current density or pressure, but techniques to control them are power-hungry and reduce reactor efficiency. Here, an efficient method to control such instabilities using asymmetric ion populations is demonstrated at JET.
The origin and maintenance of non-parental infanticide is a puzzling phenomenon in wild animal populations. This study of infanticide in a population of bank voles confirms negative frequency-dependent selection in nature and shows potential benefits of this apparently harmful behaviour.
Self-assembly through molecular recognition events is used in the production of functionalized materials. This study shows that macroscopic gel assembly can be regulated through photoisomerization of an azobenzene moiety that interacts differently with two host molecules.
RNA can be silenced in a sequence-specific manner but whether proteins can silence RNA in this way is unknown. Now, Yamaguchi and colleagues show that an enzyme isolated fromHaloquadra walsbyi cleaves 7-base-pair sequences in Escherichia coli, and this high sequence specificity permits the silencing of targeted genes.
The elastic limit represents the maximum stress and strain a material can withstand and is well characterized in many crystalline solids, yet remains elusive for metallic glasses. Here, this limit is investigated in submicron metallic glass structures and is found to be twice as high as that of bulk samples.
Quantum mechanics predicts that objects can simultaneously exist in a superposition of two states. Kneeet al.propose and demonstrate experimentally a protocol which fully confirms this prediction, by testing the so-called Leggett–Garg inequality in a non-invasive manner.
Fluctuations of the electrical current in nanoscale devices reveal important details of the physical processes occurring inside them. Using a quantum point contact placed in its vicinity, Ubbelohde et al. measure the electrical fluctuations in a single-electron transistor, and determine the dynamical features of the transport.
Metal‐organic framework (MOFs) with metal‐carboxylate cluster vertices and long, branched organic linkers are highly porous. Anet al. develop an alternative route to MOFs in which metal‐biomolecule clusters are used as vertices to construct a mesoporous MOF.
Albumin transport proteins circulate in the blood and are protected from degradation by interaction with the neonatal Fc receptor. Andersenet al. investigate the albumin binding site of the neonatal Fc receptor and find pH sensitive ionic networks at the binding interface.
The function of adult stem cells is diminished with age but the role this dysfunction plays in the aging process is unknown. Here, the injection of muscle-derived stem/progenitor cells from young mice rescues symptoms in progeroid mice and is shown to regenerate tissues independent of engraftment.
Experience-dependent plasticity and functional adaptation are thought to be restricted to the central nervous and immune systems. This study shows that long-lasting experience-dependent plasticity is a key feature of endocrine cell networks, allowing improved tissue function and hormone output following repeat demand.
Engineered biofilms have applications in biorefineries. Here, Honget al. engineer bacteria to produce a combination of dispersal proteins and quorum sensing factors, and show that one dispersing bacterium can eliminate a biofilm formed by a colonizing bacterium.
Studying carrier multiplication in materials is important to understand their transport properties and interaction with light. Hiroriet al. show that intense terahertz pulses can generate electron-hole pairs in GaAs quantum wells that then emit infrared light, contrary to the effect with a DC field.
Ferroelectric materials are characterized by a spontaneous polarization, which in practical applications is manipulated by an electric field. This study examines how defects affect the switching with atomic resolution, by usingin situaberration-corrected transmission electron microscopy.
When materials change temperature as a result of the application of pressure or a change in the magnetization, they are said to display a barocaloric or magnetocaloric effect, respectively. This study reports a substantial barocaloric effect in the giant magnetocaloric material LaFe11.33Co0.47Si1.2.