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Identification of mangostins as potent BK channel activators links natural xanthones to vascular smooth muscle relaxation, providing a mechanistic basis for their reported antihypertensive effects.

The first all-atom models of the mycobacterial outer membrane reveal how lipid organization and asymmetry generate a structurally heterogeneous barrier that underlies its unique permeability properties.

Multi-omic and bioenergetic profiling in a HER2-driven mouse model of mammary cancer reveals that reduced mitochondrial content does not limit tumor respiratory capacity, which is instead dramatically elevated compared to benign mammary tissue.

A conserved neuropeptidergic circuit directly links internal glucose levels to sweet taste sensitivity, providing a central mechanism for coupling metabolic state to feeding behavior.

Salivary effectors from whiteflies and planthoppers have convergently evolved to undermine RLP4-mediated plant immunity.

Downregulation of the electron transfer flavoprotein dehydrogenase drives pro-tumorigenic metabolic programs via stimulating the mechanistic Target of Rapamycin Complex 1 signaling across a broad spectrum of cancers.

Theoretical and computational analyses demonstrate that cell intercalation within epithelial cell layers is analogous to the unbinding of topological defects in hexatic liquid crystals, offering a framework for calculating cellular forces and velocities during collective migration.

Allocating space, materials and energy to an eye's optics and photoreceptor array is a major factor in eye design that explains obvious differences between simple eyes and compound eyes.

Human stem cell-derived adherent cortical organoids in 384-well plates provide a reproducible, long-term cortical organoid platform with neurons, glia, and robust network activity, enabling scalable disease modeling and therapeutic screening.

In aging gerbils, compromised temporal fine structure perception is explained by a more prominent representation in auditory nerve fibers of temporal fluctuations of the signal envelope, rather than by synaptopathy.