Dendrites 2016
DOI: 10.1007/978-4-431-56050-0_3
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Microtubule Organization and Microtubule-Associated Proteins (MAPs)

Abstract: Dendrites have a unique microtubule organization. In vertebrates, dendritic microtubules are organized in antiparallel bundles, oriented with their plus ends either pointing away or toward the soma. The mixed microtubule arrays control intracellular trafficking and local signaling pathways, and are essential for dendrite development and function. The organization of microtubule arrays largely depends on the combined function of different microtubule regulatory factors or generally named microtubule-associated … Show more

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Cited by 11 publications
(15 citation statements)
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References 448 publications
(418 reference statements)
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“…Tau is known to localize to microtubule bundles in vivo, suggesting a role in organizing microtubule bundles. Although the mouse knockout of tau shows little phenotype, the double-knockout Tau/MAP1b has severe phenotypes ( Takei et al, 2000 ; Tortosa et al, 2016 ) and the deletion of tau results in upregulation of another MAP, MAP2, suggesting a compensatory mechanism ( Ma et al, 2014 ). A manuscript under review looking at the expression of GFP-tau constructs in neurons suggests that they also form higher-order assemblies in vivo (S.W., B. Eftekharzadeh, K. Tepper, K.M.…”
Section: Discussionmentioning
confidence: 99%
“…Tau is known to localize to microtubule bundles in vivo, suggesting a role in organizing microtubule bundles. Although the mouse knockout of tau shows little phenotype, the double-knockout Tau/MAP1b has severe phenotypes ( Takei et al, 2000 ; Tortosa et al, 2016 ) and the deletion of tau results in upregulation of another MAP, MAP2, suggesting a compensatory mechanism ( Ma et al, 2014 ). A manuscript under review looking at the expression of GFP-tau constructs in neurons suggests that they also form higher-order assemblies in vivo (S.W., B. Eftekharzadeh, K. Tepper, K.M.…”
Section: Discussionmentioning
confidence: 99%
“…Given the large number of functions performed by MAPs, it is not surprising that they are also involved in various pathological conditions (reviewed in [136] [34,144,145], and research has focussed on tau aggregation as the key event in their pathogenesis. However, it is likely that the initial events are rather early perturbations of the physiological functions of MAPs.…”
Section: Implications Of Maps In Pathologiesmentioning
confidence: 99%
“…A complex regulatory network coupling the tubulin code to a hypothetical MAP code could thus create a broad variety of microtubule identities that coordinate cytoskeletal functions in cells. Indeed, different MAPs show distinct subcellular localisations in neurons, which correlates with their specific contributions to a variety of neuronal functions [136].…”
Section: Concluding Remarks and Future Directions: The Emerging Rolesmentioning
confidence: 99%
“…Tau is known to localize to microtubule bundles in vivo, suggesting a role in organizing microtubule bundles. Although the mouse knockout of tau shows little phenotype, the double-knockout Tau/MAP1b has severe phenotypes (Takei et al, 2000;Tortosa et al, 2016) and the deletion of tau results in upregulation of another MAP, MAP2, suggesting a compensatory mechanism (Ma et al, 2014). A manuscript under review looking at the expression of GFP-tau constructs in neurons suggests that they also form higher-order assemblies in vivo (S.W., B.…”
Section: Discussionmentioning
confidence: 99%