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Frustrated magnetic systems typically have multiple ground state configurations. While such multistability is common in amorphous materials, periodic mechanical systems have long range elastic interactions that tend to lead to a long-range ordered ground state. Herein, Sirote-Katz, Shohat et al. introduce periodic mechanical systems that have many disordered metastable states.
How the hippocampus selects relevant events that are worth remembering is debated. Here, authors show midbrain dopamine neurons projecting to the hippocampus provide a teaching signal triggering NeoHebbian LTP and contextual learning.
The brain networks orchestrating conscious recognition of auditory sequences are not well understood. Here, the authors reveal hierarchical processing from auditory cortices to hippocampus and cingulate gyrus, enhancing our understanding of predictive coding in memory.
Here the authors isolate monoclonal antibody HmAb64 from a healthy volunteer who received an experimental polyvalent DNA prime-protein boost HIV vaccine, and show that it’s specific for the CD4 binding site and neutralizes cross-subtype HIV isolates including several tier-2 viruses.
OsMAPK6 and CLG1, respectively, target GW6a for phosphorylation and ubiquitylation to favor the substrate stabilization using a different mechanism from prior reports, and the corresponding genetic axes operate non-additively to regulate seed size.
Trace amounts of strong acid can suppress Zn corrosion and promote uniform Zn deposition. Here, the authors use HTFSI to create a hydrophobic micro-environment at the Zn-electrolyte interface, enabling high efficiency and cycling stability.
The first three-dimensional spatial analysis of global marine conservation achievements and fisheries footprint reveals 3D conservation gaps and an underrepresentation of high protection levels across all depths while the 3D footprint of fisheries covers all depths.
In open-field-line magnetic plasma traps, the attainable cross-field voltage drops are limited by the tolerances of the solid materials of the vacuum vessel. Here, the authors demonstrate the possibility of equilibria that isolate large voltage drops to the interior of the plasma, circumventing this limit.
Natural materials exhibit compelling functionalities owing to their irregular architectures, but the study on irregular architected materials is elusive. Here the authors report a generative computational framework to virtually grow irregular materials with optimized properties that match target stress distributions, facilitating tissue support for orthopedic femur restoration.
It is challenging to design tough structures based on energy absorbing efficiency owing to the difficulties in modeling non-linear deformation. Here, the authors report a human-monitored self-driving lab and discover structural motifs with high energy absorbing efficiencies up to 75.2%.
How the cortex forms spatially structured modules during development is poorly understood. Here, the authors show that activity in early developing cortex is self-organized though local-excitation and lateral inhibition.
Néel spin-orbit torques arise due to charge currents in some antiferromagnets, and have sparked interest as a possible pathway for achieving electrical control of antiferromagnetic order. While the driving of antiferromagnetic order by Néel spin-orbit torques is now experimentally well established, the inverse process, where magnetic excitations in an antiferromagnetic drive a charge current is not reported. Here Huang, Liao, Qiu, and coauthors observe this inverse process in an Mn2Au thin film.
Protein corona formation on the surface of liposome nanocarriers can decrease the efficiency of intracellular delivery. Here, the authors develop antifouling membrane-fusogenic liposomes for effective intracellular delivery in vivo.
Preventive interventions often require strategies to identify high-risk individuals. Here, the authors illustrate the potential utility of medical history in predicting the onset risk for thousands of diseases across clinical specialties including COVID-19.
Data-driven detection of governing rules and trends in dynamics of nonautonomous systems usually requires a significant amount of measured data. The authors propose an operator-theoretic technique for identifying trends and persistent cycles using data from a single measured trajectory, relevant for the analysis of climate dynamics.
Adhesives require a balance between cohesion and interfacial adhesion, which can be challenging to achieve. Here the authors report the polymerisation of a protic ionic liquid-based monomer, with internal and external non-covalent interactions contributing to both cohesion and adhesion.
Amino acids availability is normally a limitation for protein synthesis and can determine cancer progression and therapy response. Here, the authors show that MYC-associated cancer has a dependency on tryptophan not because of translation regulation, but Indole 3-Pyruvate synthesis.
Identifying biomarkers associated with risk of severe COVID-19 disease could inform clinical management. Here, the authors identify a long noncoding RNA associated with severe disease using data from three European countries, and validate their finding in data from Canada.
Individuals differ in how they weight probability and reward information when making risky choices. Here, the authors use magnetoencephalography to test whether such variation is related to how information is neurally represented during choice evaluation.
Traditional scintillators face challenges in achieving fast response and avoiding afterglow. Guzelturk et al. report colloidal quantum shell heterostructures with bright multiexciton emission, enabling efficient, fast, and robust scintillation for high-resolution and high-speed X-ray imaging.