scholarly article | Q13442814 |
review article | Q7318358 |
P50 | author | Frank Bradke | Q23560249 |
Charlotte H Coles | Q57414984 | ||
P2093 | author name string | Charlotte H Coles | |
Frank Bradke | |||
P2860 | cites work | Microtubule-binding proteins CLASP1 and CLASP2 interact with actin filaments | Q24299232 |
Dynamic microtubules regulate dendritic spine morphology and synaptic plasticity | Q24316951 | ||
An EB1-binding motif acts as a microtubule tip localization signal | Q24317437 | ||
ACF7 regulates cytoskeletal-focal adhesion dynamics and migration and has ATPase activity | Q24322612 | ||
Clustering of VASP actively drives processive, WH2 domain-mediated actin filament elongation | Q24655828 | ||
An essential role for katanin in severing microtubules in the neuron | Q24682310 | ||
HDAC signaling in neuronal development and axon regeneration | Q27013969 | ||
Drosophila growth cones advance by forward translocation of the neuronal cytoskeletal meshwork in vivo | Q27302110 | ||
A dynamic formin-dependent deep F-actin network in axons. | Q27309123 | ||
The role of actin turnover in retrograde actin network flow in neuronal growth cones | Q27309175 | ||
Profilin-1 serves as a gatekeeper for actin assembly by Arp2/3-dependent and -independent pathways | Q27314995 | ||
Eps8 regulates axonal filopodia in hippocampal neurons in response to brain-derived neurotrophic factor (BDNF) | Q27330089 | ||
Axonal regeneration. Systemic administration of epothilone B promotes axon regeneration after spinal cord injury | Q27331607 | ||
Mammalian end binding proteins control persistent microtubule growth | Q27653991 | ||
EBs Recognize a Nucleotide-Dependent Structural Cap at Growing Microtubule Ends | Q27678506 | ||
Cytoskeleton in action: lissencephaly, a neuronal migration disorder | Q36672834 | ||
Transglutaminase and polyamination of tubulin: posttranslational modification for stabilizing axonal microtubules | Q36768195 | ||
Networks of polarized actin filaments in the axon initial segment provide a mechanism for sorting axonal and dendritic proteins. | Q36872581 | ||
Spectraplakins promote microtubule-mediated axonal growth by functioning as structural microtubule-associated proteins and EB1-dependent +TIPs (tip interacting proteins). | Q36882258 | ||
Initial neurite outgrowth in Drosophila neurons is driven by kinesin-powered microtubule sliding | Q36913309 | ||
Dynamic localization of G-actin during membrane protrusion in neuronal motility. | Q37016353 | ||
CLIP-170 tracks growing microtubule ends by dynamically recognizing composite EB1/tubulin-binding sites. | Q37023343 | ||
Dynein interacts with the neural cell adhesion molecule (NCAM180) to tether dynamic microtubules and maintain synaptic density in cortical neurons. | Q37201191 | ||
Mechanism for the catastrophe-promoting activity of the microtubule destabilizer Op18/stathmin | Q37409472 | ||
Microtubule assembly, organization and dynamics in axons and dendrites | Q37450792 | ||
Axon initial segment cytoskeleton comprises a multiprotein submembranous coat containing sparse actin filaments | Q37703484 | ||
Microtubule +TIPs at a glance | Q37798624 | ||
Signaling from the living plasma membrane | Q37854177 | ||
The emerging role of forces in axonal elongation. | Q37869980 | ||
Neuronal polarization: the cytoskeleton leads the way. | Q37873901 | ||
Plectin isoforms as organizers of intermediate filament cytoarchitecture | Q37922102 | ||
Insights into the effects of disease-causing mutations in human actins | Q38191504 | ||
Intrinsically disordered tubulin tails: complex tuners of microtubule functions? | Q38259350 | ||
Neurofilament assembly and function during neuronal development. | Q38337684 | ||
MAP2c, but not tau, binds and bundles F-actin via its microtubule binding domain | Q38343473 | ||
Microtubule minus-end-targeting proteins | Q38358773 | ||
An EB1-kinesin complex is sufficient to steer microtubule growth in vitro | Q38431637 | ||
High-Resolution Microtubule Structures Reveal the Structural Transitions in αβ-Tubulin upon GTP Hydrolysis | Q27683920 | ||
The cytoskeleton and neurite initiation | Q27687036 | ||
Structure of the F-actin-tropomyosin complex | Q28253185 | ||
Septins: the fourth component of the cytoskeleton | Q28259172 | ||
Microtubule polymerization dynamics | Q28259930 | ||
Reconstitution of a microtubule plus-end tracking system in vitro | Q28259992 | ||
Myosin IIb regulates actin dynamics during synaptic plasticity and memory formation | Q28564307 | ||
Cordon-bleu is an actin nucleation factor and controls neuronal morphology | Q28565024 | ||
CLIP-170 and IQGAP1 cooperatively regulate dendrite morphology | Q28565835 | ||
Cytoplasmic dynein and LIS1 are required for microtubule advance during growth cone remodeling and fast axonal outgrowth | Q28569366 | ||
The kinesin-2 family member KIF3C regulates microtubule dynamics and is required for axon growth and regeneration | Q28572574 | ||
Arp2/3 complex is important for filopodia formation, growth cone motility, and neuritogenesis in neuronal cells | Q28576273 | ||
The Rho-specific GEF Lfc interacts with neurabin and spinophilin to regulate dendritic spine morphology | Q28594950 | ||
Dynamic instability of microtubule growth | Q29547522 | ||
Conserved microtubule-actin interactions in cell movement and morphogenesis | Q29615212 | ||
A nucleator arms race: cellular control of actin assembly | Q29616146 | ||
Structural and molecular interrogation of intact biological systems | Q29616195 | ||
Spinophilin facilitates dephosphorylation of doublecortin by PP1 to mediate microtubule bundling at the axonal wrist. | Q30479752 | ||
Coordination of microtubule and microfilament dynamics by Drosophila Rho1, Spire and Cappuccino | Q30480159 | ||
Dynamic behavior of GFP-CLIP-170 reveals fast protein turnover on microtubule plus ends | Q30481430 | ||
Myosin II activity facilitates microtubule bundling in the neuronal growth cone neck | Q30483711 | ||
Coordination of actin filament and microtubule dynamics during neurite outgrowth | Q30484871 | ||
Microtubule plus-end tracking by CLIP-170 requires EB1. | Q30485488 | ||
Quantitative analysis of microtubule dynamics during adhesion-mediated growth cone guidance | Q30490287 | ||
Growth cone-like waves transport actin and promote axonogenesis and neurite branching. | Q30493874 | ||
The spectraplakin Short stop is an actin-microtubule cross-linker that contributes to organization of the microtubule network | Q30494498 | ||
The actin nucleating Arp2/3 complex contributes to the formation of axonal filopodia and branches through the regulation of actin patch precursors to filopodia | Q30503395 | ||
Cortical dynein controls microtubule dynamics to generate pulling forces that position microtubule asters | Q30506063 | ||
Microtubule stabilization reduces scarring and causes axon regeneration after spinal cord injury | Q30513561 | ||
Pathway of actin filament branch formation by Arp2/3 complex revealed by single-molecule imaging | Q30533275 | ||
Rocket launcher mechanism of collaborative actin assembly defined by single-molecule imaging | Q30538297 | ||
The intricate relationship between microtubules and their associated motor proteins during axon growth and maintenance | Q30558304 | ||
An assay to image neuronal microtubule dynamics in mice | Q30587931 | ||
Lattice light-sheet microscopy: imaging molecules to embryos at high spatiotemporal resolution | Q30620935 | ||
Mechanical coupling between transsynaptic N-cadherin adhesions and actin flow stabilizes dendritic spines | Q30621932 | ||
Exome-wide rare variant analysis identifies TUBA4A mutations associated with familial ALS. | Q35906336 | ||
Drebrin controls neuronal migration through the formation and alignment of the leading process. | Q35973902 | ||
Arp2/3 complex-dependent actin networks constrain myosin II function in driving retrograde actin flow | Q36062086 | ||
Differences in the organization of actin in the growth cones compared with the neurites of cultured neurons from chick embryos | Q36207966 | ||
The Ig superfamily cell adhesion molecule, apCAM, mediates growth cone steering by substrate-cytoskeletal coupling. | Q36255245 | ||
Regulated actin cytoskeleton assembly at filopodium tips controls their extension and retraction | Q36316633 | ||
High actin concentrations in brain dendritic spines and postsynaptic densities | Q36325303 | ||
Microtubule stabilization specifies initial neuronal polarization | Q36446628 | ||
Microtubule behavior in the growth cones of living neurons during axon elongation | Q36530386 | ||
Post-translational modification and regulation of actin | Q36625586 | ||
The formin mDia2 stabilizes microtubules independently of its actin nucleation activity | Q36625798 | ||
Actin-microtubule coordination at growing microtubule ends | Q30629472 | ||
Retrograde flow rate is increased in growth cones from myosin IIB knockout mice | Q30886604 | ||
Posttranslational modifications of tubulin and the polarized transport of kinesin-1 in neurons. | Q33647021 | ||
Microtubule-severing enzymes | Q33653810 | ||
Polarity orientation of microtubules in hippocampal neurons: uniformity in the axon and nonuniformity in the dendrite | Q33666684 | ||
The role of local actin instability in axon formation | Q33855372 | ||
Adenomatous polyposis coli protein nucleates actin assembly and synergizes with the formin mDia1. | Q33950254 | ||
The tubulin code: molecular components, readout mechanisms, and functions | Q34062557 | ||
Focal loss of actin bundles causes microtubule redistribution and growth cone turning | Q34130640 | ||
Filopodia and actin arcs guide the assembly and transport of two populations of microtubules with unique dynamic parameters in neuronal growth cones | Q34137487 | ||
Three-dimensional imaging of the unsectioned adult spinal cord to assess axon regeneration and glial responses after injury. | Q34242950 | ||
MACF1 regulates the migration of pyramidal neurons via microtubule dynamics and GSK-3 signaling | Q34308268 | ||
Actin, spectrin, and associated proteins form a periodic cytoskeletal structure in axons | Q34317568 | ||
Directed microtubule growth, +TIPs, and kinesin-2 are required for uniform microtubule polarity in dendrites. | Q34558363 | ||
The growth cone cytoskeleton in axon outgrowth and guidance. | Q34577996 | ||
Structural and molecular remodeling of dendritic spine substructures during long-term potentiation. | Q34798295 | ||
Helical buckling of actin inside filopodia generates traction | Q34925957 | ||
Profilin regulates F-actin network homeostasis by favoring formin over Arp2/3 complex | Q34945496 | ||
The trip of the tip: understanding the growth cone machinery. | Q34976234 | ||
Phenotypic spectrum of the tubulin-related disorders and functional implications of disease-causing mutations. | Q35000461 | ||
Miniaturization of two-photon microscopy for imaging in freely moving animals | Q35004365 | ||
Muskelin regulates actin filament- and microtubule-based GABA(A) receptor transport in neurons. | Q35004756 | ||
Unleashing formins to remodel the actin and microtubule cytoskeletons | Q35016805 | ||
Developmental mechanism of the periodic membrane skeleton in axons | Q35111250 | ||
Post-translational modifications of tubulin: pathways to functional diversity of microtubules | Q35132313 | ||
Microtubule minus-end binding protein CAMSAP2 controls axon specification and dendrite development | Q35183547 | ||
STED nanoscopy of actin dynamics in synapses deep inside living brain slices | Q35187676 | ||
Piccolo regulates the dynamic assembly of presynaptic F-actin | Q35533808 | ||
Mical links semaphorins to F-actin disassembly | Q35548452 | ||
Two functionally distinct sources of actin monomers supply the leading edge of lamellipodia | Q35565717 | ||
Differential interactions of the formins INF2, mDia1, and mDia2 with microtubules | Q35579815 | ||
Actin and microtubules in cell motility: which one is in control? | Q35794356 | ||
Dual-objective STORM reveals three-dimensional filament organization in the actin cytoskeleton. | Q35832415 | ||
Membrane tension, myosin force, and actin turnover maintain actin treadmill in the nerve growth cone | Q35866817 | ||
GSK3 controls axon growth via CLASP-mediated regulation of growth cone microtubules | Q38617811 | ||
Active remodeling of cortical actin regulates spatiotemporal organization of cell surface molecules. | Q39334584 | ||
Cytoskeletal dynamics and nerve growth | Q39584247 | ||
In vitro reconstitution of the functional interplay between MCAK and EB3 at microtubule plus ends | Q39654450 | ||
Microtubule-targeting-dependent reorganization of filopodia | Q39789594 | ||
Mouse ACF7 and drosophila short stop modulate filopodia formation and microtubule organisation during neuronal growth | Q39830440 | ||
Formin proteins of the DAAM subfamily play a role during axon growth. | Q39909551 | ||
INF1 is a novel microtubule-associated formin | Q39936118 | ||
Actin branching in the initiation and maintenance of lamellipodia | Q40026854 | ||
Tau protects microtubules in the axon from severing by katanin. | Q40300939 | ||
The Role of Microtubule-Associated Protein 2c in the Reorganization of Microtubules and Lamellipodia during Neurite Initiation | Q40624045 | ||
Acetylation of microtubules influences their sensitivity to severing by katanin in neurons and fibroblasts | Q41377311 | ||
Cytoplasmic actin in neuronal processes as a possible mediator of synaptic plasticity | Q41397830 | ||
Organization of actin networks in intact filopodia | Q41625141 | ||
Nanoscale segregation of actin nucleation and elongation factors determines dendritic spine protrusion. | Q41712150 | ||
Reconstitution of a hierarchical +TIP interaction network controlling microtubule end tracking of dynein | Q42152363 | ||
Regulation of microtubule motors by tubulin isotypes and post-translational modifications | Q42760701 | ||
Rac1 regulates neuronal polarization through the WAVE complex | Q43059450 | ||
Nerve growth cone lamellipodia contain two populations of actin filaments that differ in organization and polarity | Q43108576 | ||
Growth cone turning induced by direct local modification of microtubule dynamics. | Q44205874 | ||
Drosophila pod-1 crosslinks both actin and microtubules and controls the targeting of axons | Q44408232 | ||
A molecular clutch between the actin flow and N-cadherin adhesions drives growth cone migration. | Q45731262 | ||
ADF/cofilin-mediated actin retrograde flow directs neurite formation in the developing brain. | Q45905953 | ||
Tubulin tyrosination navigates the kinesin-1 motor domain to axons | Q46045444 | ||
Context-specific requirements of functional domains of the Spectraplakin Short stop in vivo | Q46106752 | ||
Navigational errors made by growth cones without filopodia in the embryonic Xenopus brain | Q46185887 | ||
Filopodia are required for cortical neurite initiation. | Q46891046 | ||
Arp2/3 is a negative regulator of growth cone translocation | Q47248887 | ||
Accumulation of anchored proteins forms membrane diffusion barriers during neuronal polarization. | Q48274256 | ||
Fluorogenic probes for live-cell imaging of the cytoskeleton | Q48306982 | ||
Mixed microtubules steer dynein-driven cargo transport into dendrites | Q48317864 | ||
iDISCO: a simple, rapid method to immunolabel large tissue samples for volume imaging. | Q48449431 | ||
Nanoscopy in a living mouse brain | Q48678903 | ||
A Proteome-wide screen for mammalian SxIP motif-containing microtubule plus-end tracking proteins | Q48770657 | ||
Lifeact mice for studying F-actin dynamics. | Q50561523 | ||
STED nanoscopy reveals the ubiquity of subcortical cytoskeleton periodicity in living neurons. | Q50598032 | ||
Mechanical and geometrical constraints control kinesin-based microtubule guidance. | Q50624069 | ||
Doublecortin association with actin filaments is regulated by neurabin II. | Q50781807 | ||
Targeting of the F-actin-binding protein drebrin by the microtubule plus-tip protein EB3 is required for neuritogenesis. | Q51948942 | ||
Abnormal bundling and accumulation of F-actin mediates tau-induced neuronal degeneration in vivo. | Q52675363 | ||
Motor proteins regulate force interactions between microtubules and microfilaments in the axon. | Q53682963 | ||
Kinetic-structural analysis of neuronal growth cone veil motility | Q57974762 | ||
Myosin drives retrograde F-actin flow in neuronal growth cones | Q71017050 | ||
Rapid movement of microtubules in axons | Q74774896 | ||
Role of actin filaments in the axonal transport of microtubules | Q81152589 | ||
Ena/VASP Is Required for neuritogenesis in the developing cortex | Q81565765 | ||
Myosin II functions in actin-bundle turnover in neuronal growth cones | Q82661954 | ||
Activity-dependent dynamic microtubule invasion of dendritic spines | Q82816764 | ||
P433 | issue | 15 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | microtubule | Q189933 |
P304 | page(s) | R677-91 | |
P577 | publication date | 2015-08-01 | |
P1433 | published in | Current Biology | Q1144851 |
P1476 | title | Coordinating neuronal actin-microtubule dynamics | |
P478 | volume | 25 |
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