review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Andrew J Matamoros | Q88870798 |
P2093 | author name string | Peter W Baas | |
P2860 | cites work | Microtubule dynamic instability | Q79965191 |
Microtubules cut and run | Q81124830 | ||
Taxol facilitates axon regeneration in the mature CNS | Q83421222 | ||
Microtubule stability in the axon: new answers to an old mystery | Q86588681 | ||
Microtubule Organization in the Axon: TRIM46 Determines the Orientation | Q86944230 | ||
Modulation of the dynamic instability of tubulin assembly by the microtubule-associated protein tau | Q24294296 | ||
Tau is enriched on dynamic microtubules in the distal region of growing axons | Q24314155 | ||
Amyloid-β oligomers induce synaptic damage via Tau-dependent microtubule severing by TTLL6 and spastin | Q24337233 | ||
Mitotic motors coregulate microtubule patterns in axons and dendrites | Q24622767 | ||
The chemical complexity of cellular microtubules: tubulin post-translational modification enzymes and their roles in tuning microtubule functions | Q24633494 | ||
Inhibition of a mitotic motor compromises the formation of dendrite-like processes from neuroblastoma cells | Q24681555 | ||
An essential role for katanin in severing microtubules in the neuron | Q24682310 | ||
The MAP2/Tau family of microtubule-associated proteins | Q24805413 | ||
TIPsy tour guides: how microtubule plus-end tracking proteins (+TIPs) facilitate axon guidance | Q26801684 | ||
CLASPs attach microtubule plus ends to the cell cortex through a complex with LL5beta | Q28250713 | ||
Expression of a minus-end-directed motor protein induces Sf9 cells to form axon-like processes with uniform microtubule polarity orientation | Q28257665 | ||
Tubulin polyglutamylation stimulates spastin-mediated microtubule severing | Q28504801 | ||
Axonal growth is sensitive to the levels of katanin, a protein that severs microtubules | Q28565648 | ||
Tau binds to the distal axon early in development of polarity in a microtubule- and microfilament-dependent manner | Q28568174 | ||
Tubulin tyrosination is a major factor affecting the recruitment of CAP-Gly proteins at microtubule plus ends. | Q28585847 | ||
Microtubules released from the neuronal centrosome are transported into the axon | Q71825338 | ||
The cytoskeleton in myelinated axons: a freeze-etch replica study | Q71842310 | ||
Inhibition of microtubule nucleation at the neuronal centrosome compromises axon growth | Q72247927 | ||
Rapid movement of microtubules in axons | Q74774896 | ||
TRIM46 Controls Neuronal Polarity and Axon Specification by Driving the Formation of Parallel Microtubule Arrays | Q28771492 | ||
Promotion of Functional Nerve Regeneration by Inhibition of Microtubule Detyrosination | Q29013578 | ||
Dynamic instability of microtubule growth | Q29547522 | ||
Nucleation of microtubule assembly by a gamma-tubulin-containing ring complex | Q29615059 | ||
Cytoplasmic dynein and dynactin are required for the transport of microtubules into the axon | Q30442127 | ||
Interactions between CLIP-170, tubulin, and microtubules: implications for the mechanism of Clip-170 plus-end tracking behavior. | Q30476317 | ||
Basic fibroblast growth factor elicits formation of interstitial axonal branches via enhanced severing of microtubules | Q30492824 | ||
Phosphorylation in the amino terminus of tau prevents inhibition of anterograde axonal transport. | Q30504709 | ||
Microtubule stabilization reduces scarring and causes axon regeneration after spinal cord injury | Q30513561 | ||
Single-molecule tracking of tau reveals fast kiss-and-hop interaction with microtubules in living neurons | Q30597670 | ||
Microtubule-severing enzymes | Q33653810 | ||
Polarity orientation of microtubules in hippocampal neurons: uniformity in the axon and nonuniformity in the dendrite | Q33666684 | ||
Microtubule-binding drugs offset tau sequestration by stabilizing microtubules and reversing fast axonal transport deficits in a tauopathy model | Q33715257 | ||
prickle modulates microtubule polarity and axonal transport to ameliorate seizures in flies | Q34002617 | ||
Epothilone D Improves Microtubule Density, Axonal Integrity, and Cognition in a Transgenic Mouse Model of Tauopathy | Q34218584 | ||
Microtubules and microtubule-associated proteins | Q34311088 | ||
Microtubule plus-end-tracking proteins: mechanisms and functions. | Q34386396 | ||
Strategies for diminishing katanin-based loss of microtubules in tauopathic neurodegenerative diseases | Q34505647 | ||
Futsch/MAP1B mRNA is a translational target of TDP-43 and is neuroprotective in a Drosophila model of amyotrophic lateral sclerosis | Q34573377 | ||
Effects of kinesin-5 inhibition on dendritic architecture and microtubule organization | Q34786053 | ||
Post-translational modifications of tubulin: pathways to functional diversity of microtubules | Q35132313 | ||
Hooks and comets: The story of microtubule polarity orientation in the neuron. | Q35151743 | ||
Microtubule minus-end binding protein CAMSAP2 controls axon specification and dendrite development | Q35183547 | ||
Tau stabilizes microtubules by binding at the interface between tubulin heterodimers | Q35764234 | ||
Writing and Reading the Tubulin Code | Q35837105 | ||
The microtubule-stabilizing agent, epothilone D, reduces axonal dysfunction, neurotoxicity, cognitive deficits, and Alzheimer-like pathology in an interventional study with aged tau transgenic mice | Q35875920 | ||
The Amyloid Precursor Protein of Alzheimer's Disease Clusters at the Organelle/Microtubule Interface on Organelles that Bind Microtubules in an ATP Dependent Manner | Q35905454 | ||
γ-Tubulin complexes in microtubule nucleation and beyond | Q36000709 | ||
Progressive and spatially differentiated stability of microtubules in developing neuronal cells | Q36084980 | ||
Three microtubule severing enzymes contribute to the "Pacman-flux" machinery that moves chromosomes | Q36118138 | ||
Axonal tubulin and axonal microtubules: biochemical evidence for cold stability | Q36211137 | ||
Changes in microtubule polarity orientation during the development of hippocampal neurons in culture | Q36222341 | ||
Individual microtubules in the axon consist of domains that differ in both composition and stability | Q36223418 | ||
Microtubule nucleation and release from the neuronal centrosome | Q36232712 | ||
The transport properties of axonal microtubules establish their polarity orientation | Q36233137 | ||
Actomyosin-based retrograde flow of microtubules in the lamella of migrating epithelial cells influences microtubule dynamic instability and turnover and is associated with microtubule breakage and treadmilling | Q36273880 | ||
Role of cytoplasmic dynein in the axonal transport of microtubules and neurofilaments | Q36321524 | ||
The microtubule-severing proteins spastin and katanin participate differently in the formation of axonal branches | Q36536560 | ||
Advances in the pathogenesis of Alzheimer's disease: focusing on tau-mediated neurodegeneration | Q36688393 | ||
Vertebrate Fidgetin Restrains Axonal Growth by Severing Labile Domains of Microtubules | Q36814744 | ||
Inhibition of the Motor Protein Eg5/Kinesin-5 in Amyloid β-Mediated Impairment of Hippocampal Long-Term Potentiation and Dendritic Spine Loss | Q36852481 | ||
Stathmin 1/2-triggered microtubule loss mediates Golgi fragmentation in mutant SOD1 motor neurons | Q36986580 | ||
Beyond taxol: microtubule-based treatment of disease and injury of the nervous system | Q37200301 | ||
Motor-dependent microtubule disassembly driven by tubulin tyrosination | Q37267631 | ||
Effects of tubulin acetylation and tubulin acetyltransferase binding on microtubule structure | Q37473084 | ||
Pathogenic mutation of spastin has gain-of-function effects on microtubule dynamics | Q37526116 | ||
Therapeutic strategies for tau mediated neurodegeneration | Q37550818 | ||
Neuronal polarization and the cytoskeleton | Q37925185 | ||
A novel role for retrograde transport of microtubules in the axon | Q37983531 | ||
Kinesin superfamily proteins and the regulation of microtubule dynamics in morphogenesis | Q38263021 | ||
Neuronal stathmins: a family of phosphoproteins cooperating for neuronal development, plasticity and regeneration | Q38275591 | ||
Microtubule minus-end-targeting proteins | Q38358773 | ||
Linking microtubules to Parkinson's disease: the case of parkin. | Q38409508 | ||
Stability properties of neuronal microtubules | Q38737712 | ||
Invited review: Microtubule severing enzymes couple atpase activity with tubulin GTPase spring loading. | Q38796151 | ||
Microtubule-associated protein 1b (MAP1b) is concentrated in the distal region of growing axons | Q39406516 | ||
Mutant huntingtin interacts with {beta}-tubulin and disrupts vesicular transport and insulin secretion | Q39821495 | ||
Tau protects microtubules in the axon from severing by katanin. | Q40300939 | ||
Organization of organelles and membrane traffic by microtubules | Q40529188 | ||
Acetylation of microtubules influences their sensitivity to severing by katanin in neurons and fibroblasts | Q41377311 | ||
It cuts two ways: microtubule loss during Alzheimer disease | Q41972657 | ||
Microtubule minus-end stabilization by polymerization-driven CAMSAP deposition | Q42428372 | ||
Corrigendum: Neurodegeneration and microtubule dynamics: death by a thousand cuts | Q42559152 | ||
Making more microtubules by severing: a common theme of noncentrosomal microtubule arrays? | Q42704977 | ||
Regulation of microtubule motors by tubulin isotypes and post-translational modifications | Q42760701 | ||
STOP (stable-tubule-only-polypeptide) is preferentially associated with the stable domain of axonal microtubules | Q44728921 | ||
Stabilization of hyperdynamic microtubules is neuroprotective in amyotrophic lateral sclerosis | Q46977479 | ||
Alpha-tubulin from early-diverging eukaryotic lineages and the evolution of the tubulin family | Q48057474 | ||
Changes in microtubule number and length during axon differentiation. | Q48126326 | ||
Linking amyloid-β and tau: amyloid-β induced synaptic dysfunction via local wreckage of the neuronal cytoskeleton | Q48788749 | ||
Lewy- and Alzheimer-type pathologies in midbrain and cerebellum across the Lewy body disorders spectrum | Q48949617 | ||
End binding protein-1 (EB1) complements microtubule-associated protein-1B during axonogenesis | Q48955330 | ||
Alzheimer's disease hyperphosphorylated tau sequesters normal tau into tangles of filaments and disassembles microtubules. | Q52200995 | ||
Atlas stumbled: kinesin light chain-1 variant E triggers a vicious cycle of axonal transport disruption and amyloid-β generation in Alzheimer's disease. | Q52654990 | ||
Motor deficit in a tauopathy model is induced by disturbances of axonal transport leading to dying-back degeneration and denervation of neuromuscular junctions. | Q52662727 | ||
The roles of microtubule-associated proteins in brain morphogenesis: a review | Q56057667 | ||
Analysis of microtubule number and length in cytoskeletons of cultured chick sensory neurons | Q70375381 | ||
Serial analysis of microtubules in cultured rat sensory axons | Q71008212 | ||
P433 | issue | Pt 3 | |
P304 | page(s) | 217-225 | |
P577 | publication date | 2016-06-27 | |
P1433 | published in | Brain Research Bulletin | Q4955784 |
P1476 | title | Microtubules in health and degenerative disease of the nervous system | |
P478 | volume | 126 |
Q55172664 | Altered Regulation of KIAA0566, and Katanin Signaling Expression in the Locus Coeruleus With Neurofibrillary Tangle Pathology. |
Q59808645 | An Integrated Cytoskeletal Model of Neurite Outgrowth |
Q46985283 | Axonal Degeneration in Tauopathies: Disease Relevance and Underlying Mechanisms |
Q93132180 | Drosophila Tau Negatively Regulates Translation and Olfactory Long-Term Memory, But Facilitates Footshock Habituation and Cytoskeletal Homeostasis |
Q41071847 | Dysregulation of Microtubule Stability Impairs Morphofunctional Connectivity in Primary Neuronal Networks |
Q99234044 | Enhancing microtubule stabilization rescues cognitive deficits and ameliorates pathological phenotype in an amyloidogenic Alzheimer's disease model |
Q42371467 | Extracellular truncated tau causes early presynaptic dysfunction associated with Alzheimer's disease and other tauopathies |
Q47848083 | Local Nucleation of Microtubule Bundles through Tubulin Concentration into a Condensed Tau Phase |
Q57455852 | Microtubule Dynamics, Kinesin-1 Sliding, and Dynein Action Drive Growth of Cell Processes |
Q51736398 | Microtubule defects in mesenchymal stromal cells distinguish patients with Progressive Supranuclear Palsy. |
Q55001034 | Modeling the neuron as a nanocommunication system to identify spatiotemporal molecular events in neurodegenerative disease. |
Q41548065 | Nanoparticle Delivery of Fidgetin siRNA as a Microtubule-based Therapy to Augment Nerve Regeneration. |
Q39149919 | Neurobiology of axonal transport defects in motor neuron diseases: Opportunities for translational research? |
Q33603289 | Rabies Virus Infection Induces Microtubule Depolymerization to Facilitate Viral RNA Synthesis by Upregulating HDAC6. |
Q90407398 | Reduced TUBA1A tubulin causes defects in trafficking and impaired adult motor behavior |
Q58795487 | Repositioning Microtubule Stabilizing Drugs for Brain Disorders |
Q92810825 | RhoA-GTPase Modulates Neurite Outgrowth by Regulating the Expression of Spastin and p60-Katanin |
Q33559303 | Roles of tau protein in health and disease |
Q47846671 | Stabilization of dynamic microtubules by mDia1 drives Tau-dependent Aβ1-42 synaptotoxicity |
Q39279950 | TDP-43 and Cytoskeletal Proteins in ALS. |
Q48277293 | Tau-based fluorescent protein fusions to visualize microtubules. |
Q55438744 | The Role of the Microtubule Cytoskeleton in Neurodevelopmental Disorders. |
Q47880463 | The impact of cytoskeletal organization on the local regulation of neuronal transport. |
Q91188527 | dTACC restricts bouton addition and regulates microtubule organization at the Drosophila neuromuscular junction |
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