Research articles

Interactions between charge, orbital and lattice degrees of freedom in correlated electron systems have resulted in predictions of new electronic phases of matter. Carlson and Dahmen propose two protocols for detecting disordered electron nematics in condensed matter systems using non-equilibrium methods.

Studies of male genitalia show patterns of divergent evolution, whereas females have been less well studied. Using experimental evolution and quantitative genetic analysis, Simmons and Garcia-Gonzalez show that sexual selection drives the coevolution of female and male genital morphology in the dung beetleOnthophagus taurus.

The construction of three-dimensional hierarchical heterostructures can lead to improved electrochemical properties. Maiet al. synthesize a three-dimensional multicomponent oxide, MnMoO₄/CoMoO₄, which is used to produce a supercapacitor with enhanced performance.

The sigma-2 receptor is used as a biomarker for tumour cell proliferation but its identity is unknown. Using a novel radiolabelled probe, the authors identify progesterone receptor membrane component 1, which is overexpressed in several tumour types, as the putative sigma-2 receptor.

Archaea are microorganisms that use a wide range of carbon and energy sources. Grahamet al. describe an archaeal consortium that can grow at temperatures above 90 °C using crystalline cellulose as a carbon source, with potential applications in enzymatic degradation under extreme conditions.

Ambient levels of the neurotransmitter GABA tonically activate GABA_A. Song et al.show that GABA can have both excitatory and inhibitory effects on hippocampal interneurons and find that low levels of GABA-mediated conductance are excitatory, whereas higher levels result in shunting inhibition.

Hagfish, a group of extant jawless fish, lack true vertebrae, but it is not clear if hagfish lack all vertebrata-like structures. Here the authors report the presence of vertebra-like cartilages in the in-shore hagfish, suggesting that the hagfish underwent secondary reduction of vertebra.

Glucose biofuel cells can be used to produce clean energy from renewable sources, but their use is limited by poor stability and low power output. In this study, bioelectrodes are fabricated using carbon nanotubes and the resulting biofuel cells have improved stability and power.

The unoccupied electronic levels of graphene are modified by corrugation, doping and presence of impurities. Here, the authors map discrete electronic domains within a single graphene sheet using scanning transmission X-ray microscopy and provide insight into the modification of unoccupied levels.

Mutations in the DNA helicaseBLM cause Bloom syndrome, which is characterized by slow replication fork progression and genetic instability. Here, cells lacking BLMare shown to have a defect in cytidine deaminase, which alters the pyrimidine pool and results in replication fork progression with altered velocity.

Nitric oxide can be produced by nitric oxide synthase or by nitrite reduction, but whether the latter occurs inside cells is unknown. Here, the TRPV3 ion channel is shown to induce nitrite-dependent nitric oxide production in keratinocytes, where it has a role in thermosensory behaviour and wound healing.

TRF1 is a telomere binding protein involved in sister telomere cohesion. In this study, the ability of TRF1 to bind to telomeres in mitosis is inhibited by cyclin-dependent kinase 1-mediated phosphorylation, which may facilitate sister telomere resolution during mitosis.

Anyons are particles with fractional statistics that interpolate between bosons and fermions, and are thought to exist in low-dimensional systems. Keilmannet al. propose an experimental system to create anyons in one-dimensional optical lattices using assisted Raman tunnelling.

A bubble at an air–liquid interface can form a liquid jet upon bursting, spraying aerosol droplets into the air. Leeet al. show that jetting is analogous to pinching-off in liquid coalescence, which may be useful in applications that prevent jet formation and in the improved incorporation of aerosols in climate models.

Waveplates are used in optoelectronics to alter the polarization of light, but they do not typically perform achromatically, which is important for applications such as three-dimensional displays. Here, biologically inspired periodically multilayered structures are produced, which function as achromatic visible-light waveplates.

In animals, cryptochrome proteins are thought to be the detectors of the Earth's magnetic field, but humans have not been shown to posess mangetosensing capabilities. Foleyet al. demonstrate that the human cryptochrome protein, CRY2, when expressed in Drosophila melanogastercan mediate magnetoreception in a light-dependent manner.

Light–matter interactions can be used to manipulate magnetization in solids, but light-controlled magnetization vector motion has not been demonstrated. Here, two-dimensional magnetic oscillations in NiO are manipulated with optical pulses leading to vectorial control of magnetization by light.

Optoelectronic devices such as conventional semiconductor lasers are used to study the chaotic behaviour of nonlinear systems. Here chaos is observed for quantum-dot microlasers operating close to the quantum limit with potential for new directions in the study of chaos in quantum systems.

The vomeronasal organ detects pheromones, which are thought to activate TRPC2 channels on the surface of vomeronasal neurons. Using TRPC2 knockout mice, the authors show that urinary pheromones can also activate these neurons via calcium-activated chloride channels, suggesting a TRPC2-independent pathway for sensing pheromones.

Single nanoparticles are known to emit light intermittently, or 'blink', but the mechanisms describing this phenomenon are not fully understood. This study demonstrates that, for small clusters of blinking nanoparticles, the number of particles within a cluster dramatically influences blinking time.