Browse Articles

Cavin proteins are key components of mammalian caveolae and are expressed from four genes in a tissue-specific manner. Gram Hansen et al. demonstrate that caveolae in the endothelia of different tissues are remarkably heterogeneous, and reveal a role for cavin 2 in determining the apparent size of cavin complexes.

The development of materials for the effective removal of oils and solvents from water is of global importance. Here, the authors show that porous, hexagonal boron nitride nanosheets are capable of absorbing many times their own weight in oil while repelling water, and may be cleaned for reuse by heating or burning in air.

Characterizing the acoustic dynamics of glasses at mesoscopic wavelengths is challenging. Here, Ferrante et al. use the broadband picosecond acoustics technique to study attenuation at such length scales, where they find temperature-dependent, fractal frequency behaviour.

With paleovirology it is possible to identify ancient endogenous viral elements within eukaryotic genomes. Here Suh and colleagues report a genomic record of hepatitis endogenizations through bird’s evolution; they find a complete hepatitis genome sequence, the first discovery of a Mesozoic paleovirus genome.

Fabricating semiconductor devices with dimensions below 10 nm presents significant challenges. Here, Liu et al. use controlled electron irradiation to remove atoms in an MoS₂ sheet, creating Mo₅S₄nanoribbons with a uniform width of 0.35 nm and a theoretical band gap of 0.77 eV.

Exciton-polaritons—coupled states of excitons and photons—exhibit interesting properties that may make them suitable as information carriers for optical computing technologies. With this goal in mind, Ballarini et al. demonstrate an all-optical polariton transistor that also operates as a logic gate.

Classical theory predicts that glass dynamics exhibit a singularity at some finite temperature. Zhao et al. test this theory in fossil amber by determining upper bounds of the equilibrium relaxation times, and find no such behaviour even far below the glass transition challenging conventional assumptions.

Multilayer stacks of graphene and related two-dimensional crystals can be tailored to create new classes of functional materials. Britnell et al. report resonant tunnelling of Dirac fermions and tunable negative differential conductance in a graphene-boron nitride-graphene transistor.

The spin-orbit coupling present in certain nonmagnetic/ferromagnetic metal bilayers could enable electrical control of pure spin currents in future spintronic devices. Xiao et al. report the signatures of such coupling, even when the two layers are separated by a third copper layer.

Chiral molecules form one-handed supramolecular assemblies but may be induced to switch to the other handed assembly, although the mechanisms driving these processes are unclear. Here, the authors demonstrate control of the supramolecular assembly handedness via the introduction of achiral counter ions.

If the measurement sensitivity reaches the quantum limit during ultra-sensitive measurements, nanomechanical resonators interact with the detectors. Here the authors exploit this back-action to create and tune self-sustained electromechanical oscillations in a SQUID measurement system.

Light-sensitive proteins are useful tools to control protein localization and gene expression, but are currently limited to excitation with red or blue light. Here Crefcoeur et al. present a novel optogenetic system to induce protein–protein interactions with ultraviolet-B light that does not require exogenous chromophores.

The unusual properties of entangled photons endow them with useful properties for imaging and metrology tasks. This work simulates the use of entangled photons for controlling two-exciton states in Blastochloris viridis, showing their advantages for studying excitation pathways in bacterial reaction centres.

Outer hair cell electromotility contributes to the cochlear amplifier during hearing. Here the authors find that targeted-deletion of the gap junction protein connexin 26 results in reduced electromotility of outer hair cells, reduced cochlear amplification and hearing loss in mice.

Internal modifications in mRNA and non-coding RNA are necessary for modulating various intracellular signalling pathways. In this study, the authors report novel modifications resulting from oxidative RNA demethylation, which regulate RNA–protein interactions affecting gene expression.

Single-molecule force spectroscopy provides useful quantitative information about the properties of macromolecules. Otto and colleagues non-invasively inspect the tension dynamics in a taut strand of DNA, thereby extending the use of single-molecule force spectroscopy to the study of macromolecular dynamics.

Guanine-rich DNA can form four-stranded structures called G-quadruplexes, which are thought to influence DNA replication, transcription and repair; their stability and prevalence in the genome is in need of further elucidation. Here the authors employ an antibody-based approach to sensitively map G-quadruplexes in the genome.

Hierarchically porous metal-organic monoliths are potential materials for mass transfer applications. Here, the authors synthesize metal-organic aerogels via the gelation of metal-organic frameworks, and are able to tune their porosity exploiting the properties of both crystalline and aerogel materials.

Voltage-gated potassium channels cycle between closed and open states through poorly-defined transitions. Pless and colleagues incorporate artificial amino acids into Shaker potassium channels and find that that the negative electrostatic surface potential of Phe481, destabilizes the channel open state.

B cells are thought to divide asymmetrically to generate distinct lineages required for adaptive immunity. Hawkins et al. find that surprisingly, mice lacking components of a complex required for asymmetric cell division display normal responses to vaccination and viral infection.