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Undulating flight, an efficient mode of locomotion in flying birds, can theoretically also result in efficient locomotion in water. Here we demonstrate gait patterns resembling undulating flight in four marine vertebrate species comprising sharks and pinnipeds.
The neuronal mechanisms responsible for thermal seeking behaviour inCaenorhabditis. elegansare not fully understood. In this study, the sensory neuron AFD is shown to be involved in the responses to both cold and warm temperatures by transmitting inhibitory and excitatory signals to the interneuron AIY.
Understanding how the high-energy physics of Mott-like excitations affects condensate formation is a key challenge in high-temperature superconductivity. Giannettiet al. clarify the relationship of many-body CuO2excitations and the onset of superconductivity using a new optical pump supercontinuum-probe technique.
Upon agonist binding, ionotropic glutamate receptors are activated and then become desensitized, but the detailed molecular events of this process are unclear. Here, molecular dynamics simulations are used to probe how conformational changes of the ligand-binding domain are transmitted to the transmembrane domain.
Hydro-responsive plant movements have provided inspiration for the design of adaptive materials. Harringtonet al. investigate the hydration-dependent unfolding of ice plant seed capsules and find an origami-like folding pattern, which could aid the development of biomimetic folding structures.
It is believed that infants map observed actions onto their own representation of the action, a hypothesis known as direct matching. By observing the gaze of infants and their grasping response, experimental evidence is provided to support the direct matching theory.
Encapsulating molecules within supramolecular frameworks for potential biological application is challenging. Bhatiaet al. incorporate a fluorescent polymer within an icosahedral DNA nanocapsule, and show that it can be used to target specific cells in vivoand map pH spatially and temporally.
The ability of synthetic amyloid β-protein to bind to prion proteins and alter synaptic plasticity has been previously reported. Here the relevance of this binding is investigated in brains of Alzheimer's disease patients and the interaction is shown to be blocked by antibodies to two distinct regions of prion proteins.
α-fetoprotein is used as a biomarker of hepatocellular cancer but the mechanisms that lead to its elevated expression are unknown. Kojimaet al.show that microRNA122 and CUX1 are important for the regulation of α-fetoprotein and suggest that loss of microRNA122 leads to more aggressive liver cancer.
Many synthetic DNA nanomachines have been developed and demonstratedin vitro, but their use in living organisms has not been reported. Now, a DNA nanomachine, the I-switch, is used to map spatiotemporal pH changes associated with endosomal maturation within coelomocytes of Caenorhabditis elegans.
Nanoparticles continue to find research and industrial applications, but no single technique exists to characterise their physical properties. Now, an analytical ultracentrifugation method is described which allows the simulataneous determination of nanoparticle size, density and molecular weight distribution.
Optical nanoantennas can be used for spectroscopic investigations at previously unattainable dimensions. Schumacheret al.describe time-resolved antenna-enhanced ultrafast nonlinear optical spectroscopy and determine the transient absorption signal of a single gold nanoparticle.
Metal-based nanostructures offer a solution to scale down photonics to the nanoscale. Sorgeret al. directly demonstrate waveguiding of ultra-small propagating waves at visible and near-infrared frequencies using NSOM imaging, with the potential for nanoscale photonic applications such as bio-sensing.
Bose–Einstein condensation of excitons in thermal equilibrium is a predicted quantum statistical phenomenon that has been difficult to observe. Yoshiokaet al. cool trapped excitons to sub-Kelvin temperatures and show that condensation manifests itself as a relaxation explosion as has been observed for atomic hydrogen.
Migratory segregation presents a hypothesized barrier to gene flow among seabirds, but its mechanisms are unclear. Rayneret al. find that migratory habitat specialization, associated with breeding asynchrony and philopatry, restricts gene flow between two seabird populations migrating across the Pacific Ocean.
TGFβ can function as both a tumour suppressor and tumour promoter under different cellular contexts. Here, the cleavage product of the TGFβ type I receptor is shown to be generated in a TGFβ-dependent manner, and can induce the expression of genes involved in tumour cell invasion.
Aminoacyl-transfer RNA synthetases are conserved between bacteria and eukaryotes; however, bacterial enzymes cannot acylate eukaryote tRNAs. Now, fusion of a human and bacterial enzyme is shown to overcome the species barrier and confer tRNA specificity during both codon selection and proofreading on the ribosome.
Complex diseases such as multiple sclerosis have both genetic and environmental components. This study demonstrates that variants of genes implicated in multiple sclerosis, and alterations in cellular metabolism and vitamin D3 levels, alterN-glycosylation, a post-translational modification causal of the disease in mice.
Circadian rhythm is controlled by the suprachiasmatic nucleus and the mechanisms that control the rhythm are largely undiscovered. In this study, a G protein regulator, RGS16, is shown to be involved in the production of cyclic AMP that is required for the suprachiasmatic nucleus to maintain rhythm
Increasing the nutritional content of plant crops and the identification of iron transporters in rice would facilitate the improvement of rice varieties. In this study, the authors identify a mitochondrial iron transporter in rice — MIT — and suggest that this gene is important for rice growth and development.