Newest Articles
Age mosaicism within nuclei of postmitotic cellsToyama et al. monitor the replacement of long-lived components of nuclear pore complexes (NPCs) and nucleosomes in postmitotic cells. They describe age mosaicism at the level of chromatin organization and find that NPCs are maintained by piecemeal replacement in postmitotic nondividing cells but by entire complex replacement in an ESCRT-dependent manner in nondividing, starved quiescent cells.
Structure of actin cortex in membrane blebsChikina et al. show preferential initiation of blebbing at local cytoskeleton weaknesses at filopodial bases when blebbing is induced by Arp2/3 complex inhibition. They also use correlative platinum replica electron microscopy to characterize actin cytoskeleton architecture in blebs at different stages of their expansion–retraction cycle.
Kinesin-8 for kinetochore–microtubule associationKinesin-8 motor proteins control chromosome alignment in a variety of species, but the specific biochemical activity responsible is unclear. Edzuka and Goshima find that Drosophila kinesin-8 (Klp67A) exhibits both microtubule plus end–stabilizing and –destabilizing activities in vitro. In cells, Klp67A, and likely human kinesin-8 (KIF18A) as well, stabilize the kinetochore–microtubule attachment during mitosis.
ATP13A2 regulates autophagosome–lysosome fusionMutations in ATP13A2 cause Kufor-Rakeb syndrome, an atypical form of Parkinson’s disease. Wang et al. characterize the phenotypes of ATP13A2-deficient animals and cells and show that ATP13A2 recruits HDAC6 to lysosomes to deacetylate cortactin, modulating autophagosome–lysosome fusion and autophagy.
Regulation of mitochondrial tethering in meiosisOrganelle tethers stabilize contact sites between organelles, yet cellular architecture is dynamically remodeled during cellular differentiation. Sawyer et al. demonstrate that a conserved CDK-like kinase, Ime2, promotes cellular remodeling through destruction of mitochondria–plasma membrane contact sites in yeast gametogenesis.
Quantification of heterogeneity among growth conesTo better understand Rho GTPase signaling in neurite outgrowth, Bagonis et al. overcome persisting algorithmic limitations that have, thus far, stymied comprehensive studies of morphological variation among growth cones. They introduce Growth Cone Analyzer—a versatile computer vision tool for the quantification of filopodia-rich cell morphologies.
BARs drive membrane fission via protein crowdingCylindrical protein scaffolds are thought to stabilize membrane tubules, preventing membrane fission. In contrast, Snead et al. find that when scaffold proteins assemble, bulky disordered domains within them become acutely concentrated, generating steric pressure that destabilizes tubules, driving fission.
Current Issue
December 3, 2018
Volume 217, No. 12
Submit your Research
Reviews & Opinions
- Going the distance: Neocentromeres make long-range contacts with heterochromatin
McNulty and Sullivan preview work from the Fukagawa laboratory revealing 3D interactions between neocentromeres and distant heterochromatin-rich regions.
- Protein phosphatases in the regulation of mitosis
Nilsson reviews the essential role of phosphoprotein phosphatases in the regulation of controlled dephosphorylation during cell division.
Most Read
Advertisement
Taniguchi et al. review recent advances in stem cell–based models to investigate early human post-implantation development