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Modern female horses are genetically diverse but male horses are relatively homogenous. Lippoldet al. sequence the Y chromosome of nine ancient horses and detect diversity in the ancestral paternal lineage, demonstrating ancient Y-chromosomal DNA sequencing can provide insights into evolution.
At extreme temperature and pressure, materials can form new dense phases with unusual physical properties. Here, laser-induced microexplosions are used to produce a superdense, stable, body-centred-cubic form of aluminium, which was previously predicted to exist at pressures above 380GPa.
Pluripotent stem cells can be generated from the somatic cells of humans and are a useful model to study disease. Here, pluripotent stem cells are made from a patient with familial Parkinson's disease, and the resulting neurons exhibit elevated levels of α-synuclein, recapitulating the molecular features of the patient's disease.
Drosophila melanogaster larvae demonstrate chemotaxis towards odours but their navigation mechanism is poorly understood. Using computer-vision tracking, Gomez-Marinet al.show that larvae ascend odour gradients using an active sampling strategy that is analogous to sniffing in vertebrates.
Rotational motion and torsional strain affects DNA replication, transcription and repair. Lipfertet al. have developed a new technique that uses freely orbiting magnetic tweezers to measure equilibrium fluctuations and determine the twist of tethered nucleic acid molecules.
Zebra finches are passerine birds, but their phylogenetic relationship with non-passerine birds remains controversial. By examining retroposon insertion loci in avian genomes, the authors reveal that parrots are the closest relatives of passerines, which may have implications for understanding the evolution of birdsong.
DNA origami involves the folding of long single-stranded DNA into designed structures that may aid the development of useful nanomechanical DNA devices. In this study, DNA origami pliers and forceps are shown to undergo conformational changes on single-molecule binding.
High-power mechanical energy harvesting could be an alternative to batteries, but efficient energy conversion technology has been missing. Here, a novel mechanical-to-electrical energy conversion method is described that is based on reverse electrowetting and is uniquely suited for high-power energy harvesting.
An electron pocket exists in the Fermi-surface of the high temperature superconductor YBa2Cu3Oy, but its origin is unknown. Here, YBa2Cu3Oy and La1.8−xEu0.2SrxCuO4 are both shown to exhibit Fermi-surface reconstruction, and in the latter, this is due to stripe order, suggesting that the same mechanism exists in YBa2Cu3Oy.
Composites of carbon nanotubes and superconductors provide technologically important new, or improved, functionalities. Here, with a chemical solution approach, well-aligned carbon nanotube forests embedded in a superconducting NbC matrix are shown to effectively enhance the superconducting properties of NbC.
The development of practical photonic quantum technologies will be aided by the spatial control of entangled photons. Lenget al. achieve on-chip spatial control of entangled photons by using domain engineering, rather than by using external optical elements.
Chromatin is rendered silent by epigenetic marks when in proximity to telomeres, and, in yeast, this effect requires the histone-modifying enzyme Sir2. In this study, the human Sir2 family member SIRT6 is shown to modulate the telomere position effect in human cells.
How retinoganglion cell axons project correctly to the superior colliculus is poorly understood. Here, projections are shown to require EphB1, EphB2 and ephrin-B1 to terminate in the medial superior colliculus, while ephrin-B2 is essential for the mapping of both dorsal and ventral axons.
The development of new organic semiconductors with high mobility and air stability will facilitate their widespread application. In this Article,in silicoscreening of extended oligothiophenes leads to the synthesis of a high performance semiconductor.
Small endothermic animals often drop their body temperature—a process known as heterothermy—to conserve energy. This study demonstrates heterothermy in king penguin chicks (Aptenodytes patagonicus), a finding unexpected for such large birds, but which may account for the chicks’ fasting capacity of five months.
Antisocial punishment, where non-cooperators punish cooperators, is a puzzling empirical phenomenon missing from most theoretical models. Here, antisocial punishment is added to an optional public goods game, revealing that evolution favours antisocial punishment and punishment does not promote cooperation.
How microtubules are organized correctly in plant cells is not well understood. Ambroseet al. use 4D imaging and computer modelling to show that sharp cell edges induce microtubule depolymerization and that the microtubule-associated protein CLASP mitigates this process to modulate array organization.
RNA editing is important in regulating neuronal excitability, and a specific editing event has been shown to alter the permeation pathway of voltage-gate potassium channels. Gonzalezet al.find that the tip of the channel's inactivation gate makes a direct hydrophobic interaction with the edited position.
Being able to determine the wetting properties of individual nanoparticles would aid the preparation of particles with controlled surface properties. Isaet al. develop an in situ freeze-fracture shadow-casting method and use this to determine structural and thermodynamic properties of various 10 nm particles at fluid interfaces.
The second order correlation functiong(2) is used to test quantum correlation properties of light. Here, two-photon counting is used to measure g(2)and an extrabunching effect is demonstrated, providing evidence that two-photon counting is an appropriate method for measuring light beam photon correlations.