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Recent key developments in the exploration of kagome materials are reviewed, including fundamental concepts of a kagome lattice, realizations of Chern and Weyl topological magnetism, flat-band many-body correlations, and unconventional charge-density waves and superconductivity.
Anatomical, cellular and molecular immune interactions at the borders of the central nervous system control homeostatic brain function and can lead to neurological or psychiatric diseases, representing potential therapeutic targets.
The processes that distributed life-forming volatile elements throughout the early Solar System and how they then became incorporated into planetary building blocks are reviewed.
Analysis of the East Antarctic Ice Sheet response to past warm periods and current observations of change highlight the importance of satisfying the Paris Climate Agreement to avoid a multi-metre contribution to sea level over the next few centuries.
A Review on inflammatory memory in non-immune cells of different epithelia and neurons, and the potential mechanisms controlling these epigenetic memories and their implications in human health and disease.
Recent progress in computational enzyme design, active site engineering and directed evolution are reviewed, highlighting methodological innovations needed to deliver improved designer biocatalysts.
Oceanic plate carbon reservoirs are reconstructed and the fate of subducted carbon is tracked using thermodynamic modelling, challenging previous views and providing boundary conditions for future carbon cycle models.
Recent theoretical and experimental progress in identifying and understanding magnetic topological materials is reviewed, highlighting the antiferromagnetic topological insulator MnBi2Te4 and the ferromagnetic Weyl semimetal Co3Sn2S2, and future research directions are discussed.
The essential properties of moiré materials and the progress and latest developments in the field are reviewed, and their fabrication and physics are discussed from a reproducibility perspective.
The COVID Human Genetic Effort examines the molecular, cellular and immunological determinants of the various SARS-CoV-2-related disease manifestations by searching for causal errors of immunity.