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This Comment discusses erroneous reporting of mass spectrometry analyses of lipids in mammalian samples, and provides recommendations for how to avoid it.
This study finds that microtubules act as a mechanostat during cell migration, becoming mechanically reinforced in response to compression to protect the nucleus and coordinate contractility.
Paul Nurse discusses how a 1971 paper by Culotti and Hartwell inspired him to investigate the cell cycle in fission yeast, and how these genetics studies led to the discovery of cyclin-dependent kinases.
Endosomes function as sorting stations that segregate cargo proteins into endosomal carriers, enabling their distribution to subcellular target compartments. Increasingly detailed structural insights have revealed how proteins, such as sorting nexins, assemble on endosomal membranes to form a coat that facilitates the formation and detachment of tubular carriers.
Recently developed RNA structure profiling methods are transforming our understanding of static and dynamic facets of RNA structures at single-cell and single-molecule resolution. These data have revealed new roles for structures in RNA biogenesis and function, and guide drug design against viral RNAs and for treatment of genetic diseases.
Sphingolipids are a heterogeneous group of lipids with important roles in membrane form and function, cell signalling, and development. This Review discusses the regulation of sphingolipid metabolism at the subcellular and organismal levels and explores the therapeutic potential of targeting sphingolipids in human diseases.
Nicotinamide adenine dinucleotide (NAD+) has essential roles in metabolism and can be readily supplemented, potentially to benefit human health. This Review discusses recent insights into the roles of the microbiome and cellular compartments in regulating NAD+ metabolism, and the promise and pitfalls of NAD+ supplementation.