Newest Articles
Regulators of JMY’s actin nucleation activityThe actin regulator JMY creates filament networks that move membranes during autophagy. Hu and Mullins find that JMY is normally inhibited by interaction with the STRAP protein, but upon starvation, JMY is recruited away from STRAP and activated by LC3.
Cytohesin-1 regulates HGF-dependent cell migrationSplice variants of the Arf6 guanine exchange factor cytohesin-1 display differential affinity for PI(4,5)P2 and PI(3,4,5)P3. Ratcliffe et al. show that the specific lipid binding of the diglycine variant of cytohesin-1 is needed for HGF-dependent cell migration and establishment of the leading edge, thereby regulating cancer cell migration following activation of the proto-oncogenic receptor tyrosine kinase Met.
Regulation of mitochondrial ultrastructure by FAM92A1Wang et al. demonstrate that the novel Bin-Amphiphysin-Rvs (BAR) domain protein FAM92A1 possesses membrane-remodeling activity essential for mitochondrial ultrastructure. The findings uncover a role for BAR domain protein as a critical organizer of the mitochondrial inner membrane that is indispensable for mitochondrial function.
Axonal transport of actinChakrabarty et al. propose a model in which slow axonal transport of actin can occur by a biased polymerization of actin filaments along the axon shaft without the involvement of microtubules (MTs) or MT-based motors. These dynamics are distinct from polymer sliding—the canonical mechanism thought to convey cytoskeletal cargoes in slow transport.
DIP-2 inhibits neurite growth and axon regenerationNeuronal morphology is maintained over long animal lifespans. Noblett et al. show that in Caenorhabditis elegans, DIP-2 acts to inhibit neurite outgrowth during aging and after axotomy, indicating that the maintenance of neuronal morphology and inhibition of axon regeneration may share a common mechanism.
3D genomic architecture, including neocentromere organizationAlthough centromeres usually associate with heterochromatic repetitive sequences, such repetitive sequences are not detected around neocentromeres. Nishimura et al. performed systematic 4C analysis of cells containing differently positioned neocentromeres and demonstrate that these neocentromeres commonly associate with distant heterochromatin-rich regions at the 3D level.
Keratin-dependent regulation of cell migration and adhesionKeratin 6 (K6) isoforms are induced in wound-proximal keratinocytes after injury to skin. Paradoxically, absence of K6 isoforms leads to faster directional cell migration. Wang et al. report that K6 promotes collective keratinocyte migration by interacting with desmoplakin and myosin IIA and stabilizing cell adhesion.
Current Issue
November 5, 2018
Volume 217, No. 11
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Reviews & Opinions
- Microtubule-severing enzymes: From cellular functions to molecular mechanism
McNally and Roll-Mecak review the molecular mechanism of microtubule-severing enzymes and their diverse roles in processes ranging from cell division to ciliogensis and morphogenesis.
- Modulating apical–basal polarity by building and deconstructing a Yurt
Perez-Vale and Peifer highlight new work from Gamblin et al. revealing how apical–basal polarity is controlled by Yurt oligomerization.
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Prachee Avasthi discusses new work showing that only a subset of microtubule doublets are used for intraflagellar transport in trypanosomes.