| scholarly article | Q13442814 |
| P50 | author | Karen R Armbrust | Q55691543 |
| Damaris N Lorenzo | Q56849316 | ||
| P2093 | author name string | Laura P W Ranum | |
| Thomas S Hays | |||
| Min-gang Li | |||
| Sarah E Mische | |||
| P2860 | cites work | Living synaptic vesicle marker: synaptotagmin-GFP. | Q52599439 |
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| [Beta]IV-spectrin regulates sodium channel clustering through ankyrin-G at axon initial segments and nodes of Ranvier | Q24652657 | ||
| Dynactin is required for bidirectional organelle transport | Q24675857 | ||
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| Drosophila alpha- and beta-spectrin mutations disrupt presynaptic neurotransmitter release | Q28201697 | ||
| Modulation of the neuronal glutamate transporter EAAT4 by two interacting proteins | Q28204174 | ||
| beta III spectrin binds to the Arp1 subunit of dynactin | Q28207523 | ||
| Role of axonal transport in neurodegenerative diseases | Q28284096 | ||
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| BetaIVSigma1 spectrin stabilizes the nodes of Ranvier and axon initial segments | Q28591439 | ||
| Dynactin-Dependent, Dynein-Driven Vesicle Transport in the Absence of Membrane Proteins | Q29299862 | ||
| ER-to-Golgi transport visualized in living cells | Q29547526 | ||
| A Drosophila model of Parkinson's disease | Q29617052 | ||
| Kinesin and dynein superfamily proteins and the mechanism of organelle transport | Q29620418 | ||
| Kinesin-1 and Dynein are the primary motors for fast transport of mitochondria in Drosophila motor axons | Q30477062 | ||
| Direct observation of regulated ribonucleoprotein transport across the nurse cell/oocyte boundary | Q30479493 | ||
| Microtubule interactions with the cell cortex causing nuclear movements in Saccharomyces cerevisiae | Q30481003 | ||
| The genetics of axonal transport and axonal transport disorders | Q33258819 | ||
| Genetic analysis of mutations at the Glued locus and interacting loci in Drosophila melanogaster | Q33948732 | ||
| Cytoplasmic dynein function is essential in Drosophila melanogaster | Q33966810 | ||
| Kinesin mutations cause motor neuron disease phenotypes by disrupting fast axonal transport in Drosophila | Q33968701 | ||
| Search, capture and signal: games microtubules and centrosomes play | Q34124566 | ||
| Microtubules orient the mitotic spindle in yeast through dynein-dependent interactions with the cell cortex. | Q34434485 | ||
| Spectrin mutations cause spinocerebellar ataxia type 5. | Q34486967 | ||
| Dynein at the cortex | Q34495155 | ||
| A molecular genetic analysis of the interaction between the cytoplasmic dynein intermediate chain and the glued (dynactin) complex | Q34775895 | ||
| Dynactin: coordinating motors with opposite inclinations | Q35109220 | ||
| Axons break in animals lacking beta-spectrin | Q36117723 | ||
| A postsynaptic spectrin scaffold defines active zone size, spacing, and efficacy at the Drosophila neuromuscular junction. | Q36119021 | ||
| The role of kinesin and other soluble factors in organelle movement along microtubules | Q36219780 | ||
| An unusual beta-spectrin associated with clustered acetylcholine receptors | Q36220164 | ||
| Golgi spectrin: identification of an erythroid beta-spectrin homolog associated with the Golgi complex. | Q36234832 | ||
| Drosophila as a model for human neurodegenerative disease | Q36312196 | ||
| Interactions and regulation of molecular motors in Xenopus melanophores | Q36324176 | ||
| Coordination of opposite-polarity microtubule motors | Q36325807 | ||
| Kinesin superfamily protein 3 (KIF3) motor transports fodrin-associating vesicles important for neurite building | Q36326311 | ||
| Dynein-mediated cargo transport in vivo. A switch controls travel distance | Q36326978 | ||
| Drosophila beta spectrin functions independently of alpha spectrin to polarize the Na,K ATPase in epithelial cells | Q36327632 | ||
| Axonal transport and neurodegenerative disease | Q36491093 | ||
| Cytoplasmic dynein, the dynactin complex, and kinesin are interdependent and essential for fast axonal transport | Q36935494 | ||
| Organizing the fluid membrane bilayer: diseases linked to spectrin and ankyrin | Q37033360 | ||
| A presynaptic giant ankyrin stabilizes the NMJ through regulation of presynaptic microtubules and transsynaptic cell adhesion | Q37234122 | ||
| A monoclonal antibody against kinesin inhibits both anterograde and retrograde fast axonal transport in squid axoplasm | Q37685739 | ||
| Gal4 in the Drosophila female germline | Q42465549 | ||
| Axonal accumulation of synaptic markers in APP transgenic Drosophila depends on the NPTY motif and is paralleled by defects in synaptic plasticity. | Q42509021 | ||
| Growing dendrites and axons differ in their reliance on the secretory pathway | Q42572163 | ||
| Dynein binds to beta-catenin and may tether microtubules at adherens junctions. | Q43754950 | ||
| Disruption of Axonal Transport by Loss of Huntingtin or Expression of Pathogenic PolyQ Proteins in Drosophila | Q44607268 | ||
| CREB-binding protein modulates repeat instability in a Drosophila model for polyQ disease | Q45304348 | ||
| Dynactin is necessary for synapse stabilization. | Q45991021 | ||
| A modified minimal hemolymph-like solution, HL3.1, for physiological recordings at the neuromuscular junctions of normal and mutant Drosophila larvae | Q46374604 | ||
| Presynaptic spectrin is essential for synapse stabilization | Q46511174 | ||
| Drosophila ankyrin 2 is required for synaptic stability | Q46624693 | ||
| Disruption of axonal transport and neuronal viability by amyloid precursor protein mutations in Drosophila. | Q46959740 | ||
| The microtubule motor cytoplasmic dynein is required for spindle orientation during germline cell divisions and oocyte differentiation in Drosophila. | Q47071524 | ||
| RNA-mediated neurodegeneration caused by the fragile X premutation rCGG repeats in Drosophila | Q47071910 | ||
| Dual modes of endoplasmic reticulum-to-Golgi transport in dendrites revealed by live-cell imaging. | Q48251594 | ||
| Reiterative use of the EGF receptor triggers differentiation of all cell types in the Drosophila eye. | Q52551521 | ||
| P4510 | describes a project that uses | ImageJ | Q1659584 |
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Drosophila | Q312154 |
| neurodegeneration | Q1755122 | ||
| spinocerebellar ataxia type 5 | Q18553532 | ||
| P1104 | number of pages | 16 | |
| P304 | page(s) | 143-158 | |
| P577 | publication date | 2010-04-01 | |
| P1433 | published in | Journal of Cell Biology | Q1524550 |
| P1476 | title | Spectrin mutations that cause spinocerebellar ataxia type 5 impair axonal transport and induce neurodegeneration in Drosophila | |
| P478 | volume | 189 |
| Q33632254 | A KCNC3 mutation causes a neurodevelopmental, non-progressive SCA13 subtype associated with dominant negative effects and aberrant EGFR trafficking |
| Q46249608 | A Novel Homozygous Mutation in SPTBN2 Leads to Spinocerebellar Ataxia in a Consanguineous Family: Report of a New Infantile-Onset Case and Brief Review of the Literature. |
| Q91753966 | A dual role for βII-spectrin in axons |
| Q36587721 | A human β-III-spectrin spinocerebellar ataxia type 5 mutation causes high-affinity F-actin binding. |
| Q34156654 | Ankyrin-B interactions with spectrin and dynactin-4 are required for dystrophin-based protection of skeletal muscle from exercise injury |
| Q47072846 | Annexin B9 binds to β(H)-spectrin and is required for multivesicular body function in Drosophila |
| Q93494968 | Ataxia's double hit |
| Q34323333 | Autosomal dominant cerebellar ataxia type III: a review of the phenotypic and genotypic characteristics |
| Q34083706 | Beta-III spectrin mutation L253P associated with spinocerebellar ataxia type 5 interferes with binding to Arp1 and protein trafficking from the Golgi. |
| Q89605708 | Cargo hold and delivery: Ankyrins, spectrins, and their functional patterning of neurons |
| Q45022084 | Case of infantile onset spinocerebellar ataxia type 5. |
| Q38915057 | Cerebellar ataxias: β-III spectrin's interactions suggest common pathogenic pathways |
| Q27346248 | Cytoplasmic capes are nuclear envelope intrusions that are enriched in endosomal proteins and depend upon βH-spectrin and Annexin B9 |
| Q46111698 | Diverse mitotic functions of the cytoskeletal cross-linking protein Shortstop suggest a role in Dynein/Dynactin activity |
| Q47070552 | Drosophila Acyl-CoA synthetase long-chain family member 4 regulates axonal transport of synaptic vesicles and is required for synaptic development and transmission. |
| Q38948778 | Drosophila Neuronal Injury Follows a Temporal Sequence of Cellular Events Leading to Degeneration at the Neuromuscular Junction |
| Q39094614 | Dystrophin and Spectrin, Two Highly Dissimilar Sisters of the Same Family |
| Q64929461 | Erythrocyte membrane in the evaluation of neurodegenerative disorders. |
| Q57987145 | GDAP2 mutations implicate susceptibility to cellular stress in a new form of cerebellar ataxia |
| Q37269826 | Genetic studies of spectrin in the larval fat body of Drosophila melanogaster: evidence for a novel lipid uptake apparatus |
| Q42564559 | Glial-derived prodegenerative signaling in the Drosophila neuromuscular system |
| Q38537122 | Importance of gene dosage in controlling dendritic arbor formation during development |
| Q46110975 | Knockdown of acid-sensing ion channel 1a (ASIC1a) suppresses disease phenotype in SCA1 mouse model |
| Q38071648 | Mechanisms underlying synaptic vulnerability and degeneration in neurodegenerative disease |
| Q30452184 | Methods to assay Drosophila behavior |
| Q41634350 | Methods to identify and analyze gene products involved in neuronal intracellular transport using Drosophila. |
| Q35841751 | Microtubule stability, Golgi organization, and transport flux require dystonin-a2-MAP1B interaction. |
| Q27330120 | Mitosis in neurons: Roughex and APC/C maintain cell cycle exit to prevent cytokinetic and axonal defects in Drosophila photoreceptor neurons |
| Q33935986 | Mutant β-III spectrin causes mGluR1α mislocalization and functional deficits in a mouse model of spinocerebellar ataxia type 5. |
| Q35756675 | Neuronal dystonin isoform 2 is a mediator of endoplasmic reticulum structure and function |
| Q30540170 | Normal dynactin complex function during synapse growth in Drosophila requires membrane binding by Arfaptin |
| Q37710413 | Organelle transport in cultured Drosophila cells: S2 cell line and primary neurons. |
| Q36907760 | PATHOLOGIES OF AXONAL TRANSPORT IN NEURODEGENERATIVE DISEASES |
| Q30834818 | Periodic actin structures in neuronal axons are required to maintain microtubules |
| Q34173421 | Prioritizing disease candidate genes by a gene interconnectedness-based approach |
| Q46614637 | Regulation and dysregulation of axon infrastructure by myelinating glia. |
| Q42320996 | Schwannomin-interacting Protein 1 Isoform IQCJ-SCHIP1 Is a Multipartner Ankyrin- and Spectrin-binding Protein Involved in the Organization of Nodes of Ranvier. |
| Q38342169 | Selected recent in vivo studies on chemical measurements in invertebrates |
| Q36867723 | Spectrin Breakdown Products (SBDPs) as Potential Biomarkers for Neurodegenerative Diseases |
| Q27314007 | Spectrin tetramer formation is not required for viable development in Drosophila |
| Q24616347 | Spectrin-based skeleton as an actor in cell signaling |
| Q45072281 | Structural basis for high-affinity actin binding revealed by a β-III-spectrin SCA5 missense mutation |
| Q55558814 | Tenectin recruits integrin to stabilize bouton architecture and regulate vesicle release at the Drosophila neuromuscular junction. |
| Q27311512 | The Microtubule Regulatory Protein Stathmin Is Required to Maintain the Integrity of Axonal Microtubules in Drosophila |
| Q28241892 | The p25 subunit of the dynactin complex is required for dynein-early endosome interaction |
| Q37867604 | The synaptic cytoskeleton in development and disease. |
| Q34063783 | Transgene rescue identifies an essential function for Drosophila beta spectrin in the nervous system and a selective requirement for ankyrin-2-binding activity |
| Q36031082 | β-III spectrin is critical for development of purkinje cell dendritic tree and spine morphogenesis |
| Q47701820 | β-III-spectrin spinocerebellar ataxia type 5 mutation reveals a dominant cytoskeletal mechanism that underlies dendritic arborization |
| Q92823963 | βII-spectrin promotes mouse brain connectivity through stabilizing axonal plasma membranes and enabling axonal organelle transport |
| Q36561930 | βIII spectrin regulates the structural integrity and the secretory protein transport of the Golgi complex |
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