scholarly article | Q13442814 |
review article | Q7318358 |
P2093 | author name string | Bulinski JC | |
Chapin SJ | |||
P2860 | cites work | A protein factor essential for microtubule assembly | Q22010837 |
Tau protein binds to microtubules through a flexible array of distributed weak sites | Q24323891 | ||
Widespread cellular distribution of MAP-1A (microtubule-associated protein 1A) in the mitotic spindle and on interphase microtubules | Q24680908 | ||
Organization of microtubules in dendrites and axons is determined by a short hydrophobic zipper in microtubule-associated proteins MAP2 and tau | Q59067304 | ||
Microtubule bundling | Q59068184 | ||
Involvement of mature tau isoforms in the stabilization of neurites in PC12 cells | Q67865402 | ||
The molecular basis for tropomyosin isoform diversity | Q28255290 | ||
MAP1B is encoded as a polyprotein that is processed to form a complex N-terminal microtubule-binding domain | Q28275502 | ||
Multiple isoforms of human microtubule-associated protein tau: sequences and localization in neurofibrillary tangles of Alzheimer's disease | Q28910345 | ||
The distribution of tau in the mammalian central nervous system | Q29622896 | ||
The microtubule binding domain of tau protein. | Q30366199 | ||
The RII subunit of cAMP-dependent protein kinase binds to a common amino-terminal domain in microtubule-associated proteins 2A, 2B, and 2C. | Q34459577 | ||
Brain-specific expression of MAP2 detected using a cloned cDNA probe | Q35043453 | ||
A cloned cDNA encoding MAP1 detects a single copy gene in mouse and a brain-abundant RNA whose level decreases during development | Q35043456 | ||
Association of high-molecular-weight proteins with microtubules and their role in microtubule assembly in vitro | Q35084038 | ||
Tau consists of a set of proteins with repeated C-terminal microtubule-binding domains and variable N-terminal domains | Q35199848 | ||
Modification of microtubule steady-state dynamics by phosphorylation of the microtubule-associated proteins | Q35374134 | ||
Developmentally regulated expression of specific tau sequences | Q35545934 | ||
Motor proteins for cytoplasmic microtubules | Q35870297 | ||
The periodic association of MAP2 with brain microtubules in vitro | Q36200431 | ||
Widespread distribution of a 210,000 mol wt microtubule-associated protein in cells and tissues of primates | Q36202009 | ||
Taxol induces postmitotic myoblasts to assemble interdigitating microtubule-myosin arrays that exclude actin filaments | Q36205188 | ||
A taxol-dependent procedure for the isolation of microtubules and microtubule-associated proteins (MAPs). | Q36205906 | ||
MAP 4: occurrence in mouse tissues | Q36211088 | ||
MAP 4: a microtubule-associated protein specific for a subset of tissue microtubules | Q36212183 | ||
Tau protein function in living cells | Q36216609 | ||
Different forms of microtubule-associated protein 2 are encoded by separate mRNA transcripts | Q36218657 | ||
The microtubule binding domain of microtubule-associated protein MAP1B contains a repeated sequence motif unrelated to that of MAP2 and tau | Q36222301 | ||
Overexpression of tau in a nonneuronal cell induces long cellular processes | Q36532768 | ||
Specific association of an M-phase kinase with isolated mitotic spindles and identification of two of its substrates as MAP4 and MAP1B | Q36746150 | ||
Stabilization of post-translational modification of microtubules during cellular morphogenesis | Q37299733 | ||
Common and distinct tubulin binding sites for microtubule-associated proteins | Q37400525 | ||
Tau protein: an update on structure and function | Q37812393 | ||
Diversity among tubulin subunits: toward what functional end? | Q37938629 | ||
Structure of the bovine tau gene: alternatively spliced transcripts generate a protein family | Q40645947 | ||
Promotion of microtubule assembly in vitro by taxol | Q41461193 | ||
Colocalization of microtubule-associated protein 1A and microtubule-associated protein 2 on neuronal microtubules in situ revealed with double-label immunoelectron microscopy | Q41518612 | ||
Expression of multiple tau isoforms and microtubule bundle formation in fibroblasts transfected with a single tau cDNA. | Q41585811 | ||
Tau protein becomes long and stiff upon phosphorylation: correlation between paracrystalline structure and degree of phosphorylation | Q41588964 | ||
The primary structure and heterogeneity of tau protein from mouse brain | Q48122949 | ||
Microtubule-associated protein MAP2 shares a microtubule binding motif with tau protein | Q48311549 | ||
Distribution of MAP-4 in cells and in adult and developing mouse tissues | Q48405822 | ||
The binding of MAP-2 and tau on brain microtubules in vitro: implications for microtubule structure | Q48412401 | ||
Localization of the tubulin binding site for tau protein | Q48426828 | ||
On the use of heat stability as a criterion for the identification of microtubule associated proteins (MAPs). | Q48434964 | ||
Molecular cloning of microtubule-associated protein 1 (MAP1A) and microtubule-associated protein 5 (MAP1B): identification of distinct genes and their differential expression in developing brain | Q48940297 | ||
Interaction of brain cytoplasmic dynein and MAP2 with a common sequence at the C terminus of tubulin | Q59002583 | ||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 236-243 | |
P577 | publication date | 1992-01-01 | |
P1433 | published in | Cytoskeleton | Q2196987 |
P1476 | title | Microtubule stabilization by assembly-promoting microtubule-associated proteins: a repeat performance | |
P478 | volume | 23 |
Q48082060 | A calmodulin-sensitive interaction between microtubules and a higher plant homolog of elongation factor-1 alpha |
Q36235827 | Analysis of MAP 4 function in living cells using green fluorescent protein (GFP) chimeras |
Q52595444 | Annexins A2 and A6 interact with the extreme N-terminus of tau and thereby contribute to tau's axonal localization. |
Q72407316 | Assembly and bundling of marginal band microtubule protein: role of tau |
Q36233350 | Assembly of flagellar radial spoke proteins in Chlamydomonas: identification of the axoneme binding domain of radial spoke protein 3 |
Q40367128 | Cell cycle-dependent phosphorylation and microtubule binding of tau protein stably transfected into Chinese hamster ovary cells. |
Q34322292 | Cellular microtubules heterogeneous in their content of microtubule-associated protein 4 (MAP4). |
Q43027848 | Cloning and sequencing of tubulin cDNAs from Artemia franciscana: evidence for differential expression of alpha- and beta-tubulin genes |
Q46255414 | Comparative Proteomics Analyses of Pollination Response in Endangered Orchid Species Dendrobium Chrysanthum |
Q24672791 | Cyclin B interaction with microtubule-associated protein 4 (MAP4) targets p34cdc2 kinase to microtubules and is a potential regulator of M-phase microtubule dynamics |
Q52015317 | Developmental regulation of cardiac MAP4 protein expression. |
Q44430566 | Different protofilament-dependence of the microtubule binding between MAP2 and MAP4 |
Q40665458 | Domains of tau protein, differential phosphorylation, and dynamic instability of microtubules |
Q39114790 | Dynamic microtubule ends are required for growth cone turning to avoid an inhibitory guidance cue. |
Q34211943 | Expression and distribution of distinct variants of E-MAP-115 during proliferation and differentiation of human intestinal epithelial cells |
Q36954386 | Hydrostatic pressure sensation in cells: integration into the tensegrity model |
Q52204170 | In situ dephosphorylation of tau by protein phosphatase 2A and 2B in fetal rat primary cultured neurons. |
Q42825263 | Influence of phosphorylation on isoform composition and function of a microtubule-associated protein from developing Artemia |
Q52198996 | Isolation of a 90-kD Microtubule-Associated Protein from Tobacco Membranes. |
Q48212118 | Localization of tau and other proteins of isolated marginal bands |
Q36756446 | Luteinizing hormone receptor activation in ovarian granulosa cells promotes protein kinase A-dependent dephosphorylation of microtubule-associated protein 2D. |
Q35909198 | MAPping the eukaryotic tree of life: structure, function, and evolution of the MAP215/Dis1 family of microtubule-associated proteins |
Q24643461 | Mapmodulin: a possible modulator of the interaction of microtubule-associated proteins with microtubules |
Q47819119 | Mechanisms of trafficking in axons and dendrites: implications for development and neurodegeneration |
Q41249254 | Microinjection of intact MAP-4 and fragments induces changes of the cytoskeleton in PtK2 cells |
Q24313123 | Microtubule-associated protein/microtubule affinity-regulating kinase (p110mark). A novel protein kinase that regulates tau-microtubule interactions and dynamic instability by phosphorylation at the Alzheimer-specific site serine 262 |
Q47333156 | Modulation of microtubule shape in vitro by high molecular weight microtubule associated proteins MAP1A, MAP1B, and MAP2. |
Q26781649 | Neurodegeneration and microtubule dynamics: death by a thousand cuts |
Q42855049 | Overexpression of tau protein inhibits kinesin-dependent trafficking of vesicles, mitochondria, and endoplasmic reticulum: implications for Alzheimer's disease |
Q28278995 | Phosphorylation of microtubule-associated proteins MAP2 and MAP4 by the protein kinase p110mark. Phosphorylation sites and regulation of microtubule dynamics |
Q37573270 | Presence of a carboxy-terminal pseudorepeat and disease-like pseudohyperphosphorylation critically influence tau's interaction with microtubules in axon-like processes. |
Q41037925 | Production and utilization of detyrosinated tubulin in developing Artemia larvae: evidence for a tubulin-reactive carboxypeptidase |
Q28662243 | Proteomic analysis of the low mutation rate of diploid male gametes induced by colchicine in Ginkgo biloba L |
Q73269840 | Purification and characterization of a new, ubiquitously distributed class of microtubule-associated protein with molecular mass 250 kDa |
Q40810030 | Regulation of microtubule dynamic instability |
Q34387412 | Regulation of microtubule-associated proteins. |
Q36236466 | Removal of MAP4 from microtubules in vivo produces no observable phenotype at the cellular level |
Q36817219 | Structural principles of tau and the paired helical filaments of Alzheimer's disease |
Q36927149 | The Mr 140,000 intermediate chain of Chlamydomonas flagellar inner arm dynein is a WD-repeat protein implicated in dynein arm anchoring |
Q73689032 | The interaction of TOGp with microtubules and tubulin |
Q41129963 | The murine coronavirus as a model of trafficking and assembly of viral proteins in neural tissue |
Q36768195 | Transglutaminase and polyamination of tubulin: posttranslational modification for stabilizing axonal microtubules |
Q36382992 | XMAP from Xenopus eggs promotes rapid plus end assembly of microtubules and rapid microtubule polymer turnover. |
Q34271357 | XMAP215 regulates microtubule dynamics through two distinct domains. |
Search more.