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Lobopodians include stem-group arthropods and panarthropods, and date back to the early Cambrian. Ou et al. describe specimens of the early Cambrian lobopodian Onychodictyon ferox, revealing new head structures such as modified appendages, eyes, a terminal mouth and a sucking pharynx.
Polymer-based actuators, which deform in response to external stimuli, may advance the understanding of biological movement or realization of soft robotics. Here, Harada et al. report a photo-responsive supramolecular hydrogel that displays expansion–contraction abilities owing to host–guest interactions.
Combination of p- and n-doped graphene is important in optoelectronic applications, but spatially selective doping of graphene is challenging. This work reports large-scale growth of graphene monolayers with spatially modulation doping and built-in single-crystalline p–n junctions.
The coupling of magnetism and ferroelectricity is of relevance for applications such as sensing, but occurs only rarely in bulk materials. The large magnetically induced ferroelectric polarization observed here in CaMn7O12establishes a new approach to achieve a strong magnetoelectric coupling.
In Müllerian mimicry two or more harmful species share a similar appearance for mutual benefit. This study identifies a large Müllerian mimicry complex in North American velvet ants, where 65 species mimic each other through shared colour patterns gained as the result of independent evolution.
Nanowires with sharp interfaces between two different semiconducting materials could lead to useful nanoelectronic and nanophotonic structures. Hocevar et al.develop a method to integrate a gallium arsenide section in silicon nanowires with atomically sharp interfaces and no dislocations.
Luminescent proteins are important tools for biomedical imaging but tend to emit fairly little light. Saito et al.. describe a brighter version of a bioluminescent protein that can visualize intracellular dynamics of various signalling molecules with high spatial and temporal resolution.
The 3D self-assembly of nanocrystals could generate materials with unique optical and electronic properties. Barrowet al. report the DNA-mediated assembly of symmetrical 3D gold tetrahedra, pentamers and hexamers, and elucidate their plasmon modes.
T-bet and GATA3 regulate differentiation of T cells into Th1 or Th2 cell fates, but little is known about their functional interaction outside of the IFNγ and Il4/Il5/Il13 loci. Kanhere et al. map these factors across the genome in human T cells, revealing unappreciated breadth of function and interplay between them.
Endothelin-1 regulates cardiovascular development by acting on neural crest cells. Here endothelin-1-deficient mice are studied, revealing that preotic neural crest cells differentiate into coronary artery smooth muscle cells through endothelin-1-dependent mechanisms.
The mammalian transcription factors Oct4 and Pou2 are implicated in germ cell pluripotency induction and maintenance. Tapia and colleagues find that axolotl Pou2 and Oct4 reprogram mouse and human fibroblasts to a pluripotent state, suggesting ancestral Oct4 and Pou2 gene function is evolutionarily conserved.
Rivers receive more terrestrial carbon than they transport to the ocean, leaving carbon stored along the way. Here, with an estimate of carbon storage in the headwater rivers of the Rocky Mountains, the authors show that broad valley bottoms with old-growth forest store most of the above- and below-ground carbon.
Free-electron lasers enable diffractive imaging of single nanostructures, but algorithms, such as correlation analyses, are needed to determine their diffraction volume from accumulated data. Starodub et al.present such a method for X-ray diffractive imaging of nanometre-scale polystyrene dimers.
Epigenetic modifications are thought to affect the accessibility of DNA, but it is not clear whether this is a universal effect. These authors map DNA accessibility inArabidopsis thalianaand find that, in contrast to fruitflies, H3K9 dimethylation reduces accessibility in a DNA methylation-dependent manner.
Organic electronic materials are promising candidates for applications in which flexible electronic devices are required. Yiet al. demonstrate a high-performance, flexible organic transistor based on solution-processed small molecules that can be fabricated with a simple, low-cost process.
Back pain and sciatica are often caused by intervertebral disc degeneration. Sakai and colleagues identify a subset of nucleus pulposus progenitor cells from the intervertebral disc and show that loss of these progenitor cells correlates with ageing and intervertebral disc degeneration.
Proteins are integrated into cellular membranes either co-translationally through Sec/SRP or post-translationally by chaperones. These authors show that an integration-dedicated chaperone inE. coli, MPIase, is a glycolipid and facilitates protein insertion into the inner membrane of the bacterium.
Hydrogels are water-containing polymer networks that have been applied in various biological settings. Burdick and Murphy review recent advances in the development of dynamic hydrogels whose properties and mechanics change in response to biological signals.
ErbB2 is a receptor tyrosine kinase that localizes to the plasma membrane. Dinget al. now show that ErbB2 also localizes to mitochondria, where it regulates mitochondrial respiratory function and resistance to cancer chemotherapy.
Heterogeneous composite materials, which are potentially useful for flexible electronics, are widespread in nature but synthetic examples are rare. Here, a site-specific hierarchical approach is used to fabricate composites with extreme local variations in elastic modulus and which are reversibly stretchable.