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In a recent study, Bong et al. identify a polarized distribution of contact sites between the endoplasmic reticulum and plasma membrane in migrating cells, whereby higher density of contacts in the back of the cells prevents the formation of additional migration fronts.
Many proteins in the mouse ovary are extremely stable; they enhance proteostasis and limit protein aggregation, thereby supporting the maintenance of the long-lived oocytes.
Verheyen and Gottardi revisit two seminal papers by the Basler, Peifer and Clevers labs elucidating the role of nuclear β-catenin in Wnt signal transduction through its interaction with TCF at Wnt target genes.
Stephanie Moon discusses findings that revealed that ribosome stalling can lead to the suppression of translation initiation in the brain, delaying the onset of neurodegeneration.
This Review discusses the complex mechanisms of wound healing — cell migration, matrix remodelling, inflammation and angiogenesis — and the contributions of different cell types, including immune cells, to this process. It also highlights new methodologies that could inform future therapies to prevent scarring and repair chronic wounds.
Fibroblasts undergo transient activation into myofibroblasts to restore homeostasis to injured tissues. This Review explores the influence of mechanical cues and epigenetic modifications on (myo)fibroblast activation and memory and discusses potential therapeutic prevention of persistent myofibroblast activation in fibrosis.
Recent combinations of structure-based and sequence-based calculations and machine learning tools have dramatically improved protein engineering and design. Although designing complex protein structures remains challenging, these methods have enabled the design of therapeutically relevant activities, including vaccine antigens, antivirals and drug-delivery nano-vehicles.
Tissues undergo changes in their mechanical and material properties through alterations in cytoskeleton organization, extracellular matrix adhesion and cell–cell connectivity. These mechanical state transitions orchestrate cell proliferation and movement and tissue growth during development, in adult tissue repair and in disease contexts.