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Journal articles on the topic 'Maps'

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Author: Grafiati
Published: 4 June 2021
Last updated: 31 August 2024

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1

Brugg, B., and A. Matus. "PC12 cells express juvenile microtubule-associated proteins during nerve growth factor-induced neurite outgrowth." Journal of Cell Biology 107, no. 2 (August 1, 1988): 643–50. http://dx.doi.org/10.1083/jcb.107.2.643.

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Microtubule-associated proteins (MAPs) are believed to play an important role in regulating the growth of neuronal processes. The nerve growth factor-induced differentiation of PC12 pheochromocytoma cells is a widely used tissue culture model for studying this mechanism. We have found that contrary to previous suggestions, the major MAPs of adult brain, MAP1 and MAP2, are minor components of PC12 cells. Instead two novel MAPs characteristic of developing brain, MAP3 and MAP5, are present and increase more than 10-fold after nerve growth factor treatment; the timing of these increases coinciding with the bundling of microtubules and neurite outgrowth. Immunocytochemical staining showed that MAP3 and MAP5 are initially distributed throughout the cytoplasm. Subsequently MAP5 becomes associated with microtubules in both neurites and growth cones but MAP3 distribution remained diffuse. Thus MAP3 and MAP5, which are characteristic of developing neurons in the juvenile brain, are also induced in PC12 cells during neurite outgrowth in culture. In contrast MAP1, which is characteristic of mature neurons, does not increase during PC12 cell differentiation. These results provide evidence that one set of MAPs is expressed during neurite outgrowth and a different set during the maintenance of neuronal form. It also appears that the PC12 system is an appropriate model for studying the active neurite growth phase of neuronal differentiation but not for neuronal maturation.
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2

O’Shea, Donald C. "Of Macs and Maps." Optical Engineering 48, no. 5 (May 1, 2009): 050101. http://dx.doi.org/10.1117/1.3127130.

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3

Febriyantiningrum, Kuntum, Sriwulan Sriwulan, and Nia Nurfitria. "Karakterisasi Bakteri Rhizosfer Putri Malu (Mimosa pudica) yang Berpotensi sebagai Dekomposer dalam Pembuatan Biourin." Bioscientist : Jurnal Ilmiah Biologi 11, no. 2 (December 30, 2023): 1239. http://dx.doi.org/10.33394/bioscientist.v11i2.8986.

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This research aims to determine the characterization of the rhizosphere bacteria of the roots of Mimosa pudica in its contribution as a decomposer agent that will be used in making of biourine. The research held in June-August 2023, was carried out in several stages, like the preparation stage, the bacterial isolation stage, and observing the macroscopic and microscopic characteristics of the bacteria. The results of the macroscopic and microscopic characteristics obtained during the observations showed that the isolates in the MOL of the roots of Mimosa pudica resembled the characteristics of bacteria from the genera Bacillus (MAP6), Rhizobium (MAP4), Pseudomonas (MAP1, MAP2, MAP3, MAP5, and MAP8), and Klebsiella (MAP7). These four genera are types of soil bacteria that are capable of producing plant hormones that can speed up the process of nutrients absorption and breakdown of organic material in the soil optimally.
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4

Brandt, D. Scott. "Of Road Maps, Treasure Maps, Weather Maps, and Exploration." Academic and Library Computing 8, no. 9 (April 1991): 5–7. http://dx.doi.org/10.1108/eb027460.

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5

Fernandes, Wellington De Oliveira, Felipe Garcia Passos, Jéssica Cerqueira dos Santos, and Marcelo Nunes Pacheco. "Quebrada maps, mobilizando mapas críticos e participativos." Giramundo: Revista de Geografia do Colégio Pedro II 4, no. 8 (June 5, 2020): 65. http://dx.doi.org/10.33025/grgcp2.v4i8.2561.

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6

Urakawa, Hajime. "Harmonic Maps and Biharmonic Maps." Symmetry 7, no. 2 (May 12, 2015): 651–74. http://dx.doi.org/10.3390/sym7020651.

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7

Bjørn, Axelsen, and Jones Michael. "Are all maps mental maps?" GeoJournal 14, no. 4 (June 1987): 447–64. http://dx.doi.org/10.1007/bf02602720.

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8

Chapin, S. J., and J. C. Bulinski. "Non-neuronal 210 × 10(3) Mr microtubule-associated protein (MAP4) contains a domain homologous to the microtubule-binding domains of neuronal MAP2 and tau." Journal of Cell Science 98, no. 1 (January 1, 1991): 27–36. http://dx.doi.org/10.1242/jcs.98.1.27.

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A polyclonal antiserum raised against a HeLa cell microtubule-associated protein of Mr 210,000 (210 kD MAP or MAP4), an abundant non-neuronal MAP, was used to isolate cDNA clones encoding MAP4 from a human fetal brain lambda gt11 cDNA expression library. The largest of these clones, pMAP4.245, contains an insert of 4.1 kb and encodes a 245 kD beta-galactosidase fusion protein. Evidence that pMAP4.245 encodes MAP4 sequences includes immunoabsorption of MAP4 antibodies with the pMAP4.245 fusion protein, as well as identity of protein sequences obtained from HeLa 210 kD MAP4 with amino acid sequences encoded by pMAP4.245. The MAP4.245 cDNA hybridizes to several large (approximately 6–9 kb) transcripts on Northern blots of HeLa cell RNA. DNA sequencing of overlapping MAP4 cDNA clones revealed a long open reading frame containing a C-terminal region with three imperfect 18-amino acid repeats; this region is homologous to a motif present in the microtubule (MT)-binding domain of two prominent neuronal MAPs, MAP2 and tau. The pMAP4.245 sequence also encoded a series of unrelated repeats, located in the MAP's projection domain, N-terminal to the MT-binding domain. MAP4.245 fusion proteins bound to MTs in vitro, while fusion proteins that contained only the projection domain repeats failed to bind specifically to MTs. Thus, the major human non-neuronal MAP resembles two neuronal MAPs in its MT-binding domain, while most of the molecule has sequences, and presumably functions, distinct from those of the neuronal MAPs.
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9

Aciole, Douglas de Souza Braga, Anne Albuquerque Filgueira, Thiago Jesus da Silva Xavier, Guilherme Marques Da Cunha, Maria Tereza Mendes Vieira, Ruann Ramires Nunes Paiva, Roberto Lima Santos, and Elineí Araújo-de-Almeida. "Enfoques aos mapas conceituais e ao esqueleto de mapa na aprendizagem sobre biodiversidade / Approaches to concept maps and skeleton concept maps in biodiversity learning." Brazilian Journal of Development 7, no. 12 (December 29, 2021): 116880–94. http://dx.doi.org/10.34117/bjdv7n12-443.

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10

Barua, Rajeev, Walter Lee, Saman Amarasinghe, and Anant Agarwal. "Maps." ACM SIGARCH Computer Architecture News 27, no. 2 (May 1999): 4–15. http://dx.doi.org/10.1145/307338.300980.

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11

Rubin, Eri, Ely Levy, Amnon Barak, and Tal Ben-Nun. "MAPS." ACM Transactions on Architecture and Code Optimization 11, no. 4 (January 9, 2015): 1–22. http://dx.doi.org/10.1145/2680544.

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12

Forest, Marsha, Jack Pearpoint, and John O'Brien. "'MAPS’." Educational Psychology in Practice 11, no. 4 (January 1996): 35–40. http://dx.doi.org/10.1080/0266736960110407.

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13

Bator, Elizabeth, Paul Lewis, and James Ochoa. "Evaluation maps, restriction maps, and compactness." Colloquium Mathematicum 78, no. 1 (1998): 1–17. http://dx.doi.org/10.4064/cm-78-1-1-17.

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14

Bai, Yun-Feng, and Takuo Miwa. "On $p$-Maps and $M$-Maps." Tsukuba Journal of Mathematics 32, no. 1 (June 2008): 179–96. http://dx.doi.org/10.21099/tkbjm/1496165197.

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15

Christensen, J. Daniel, and Mark Hovey. "Phantom maps and chromatic phantom maps." American Journal of Mathematics 122, no. 2 (2000): 275–93. http://dx.doi.org/10.1353/ajm.2000.0011.

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16

Unger, David C. "Maps of War, Maps of Peace." World Policy Journal 19, no. 2 (2002): 1–12. http://dx.doi.org/10.1215/07402775-2002-3001.

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17

Комиссарова, Татьяна, Tatyana Komissarova, Елена Гаджиева, and Elena Gadzhieva. "Tourist maps or maps for tourists?" Universities for Tourism and Service Association Bulletin 10, no. 3 (September 15, 2016): 89–92. http://dx.doi.org/10.12737/21139.

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18

Putnam, Ian F. "Lifting factor maps to resolving maps." Israel Journal of Mathematics 146, no. 1 (December 2005): 253–80. http://dx.doi.org/10.1007/bf02773536.

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19

Levin, Michael. "Bing maps and finite-dimensional maps." Fundamenta Mathematicae 151, no. 1 (1996): 47–52. http://dx.doi.org/10.4064/fm-151-1-47-52.

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20

Hutchinson, Joan P. "Coloring Ordinary Maps, Maps of Empires, and Maps of the Moon." Mathematics Magazine 66, no. 4 (October 1, 1993): 211. http://dx.doi.org/10.2307/2690733.

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21

Hutchinson, Joan P. "Coloring Ordinary Maps, Maps of Empires, and Maps of the Moon." Mathematics Magazine 66, no. 4 (October 1993): 211–26. http://dx.doi.org/10.1080/0025570x.1993.11996124.

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22

Alaminos, J., J. Extremera, Š. Špenko, and A. R. Villena. "Stability of commuting maps and Lie maps." Studia Mathematica 213, no. 1 (2012): 25–48. http://dx.doi.org/10.4064/sm213-1-3.

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23

PAN, Jianzhong, and Moo Ha Woo. "Phantom maps and injectivity of forgetful maps." Journal of the Mathematical Society of Japan 54, no. 1 (January 2002): 197–214. http://dx.doi.org/10.2969/jmsj/1191593960.

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24

Crampes, Michel, Sylvie Ranwez, Jean Villerd, Filip Velickovski, Chris Mooney, Andrew Emery, and Nicholas Mille. "Concept Maps for Designing Adaptive Knowledge Maps." Information Visualization 5, no. 3 (June 22, 2006): 211–24. http://dx.doi.org/10.1057/palgrave.ivs.9500127.

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Concept Maps (CMaps) are an excellent method to visually represent and interact with a knowledge domain. A Knowledge Map (KMap) is a further complicated instance of a CMap, containing many instances of concepts and concept relations that add to the complexity of a visual representation. Adaptivity is also a key requirement for KMaps that we will demonstrate through practical example. This paper presents both a method, called ‘Domain-View-Controller’ (DVC) and a software environment specifically designed to create adaptive KMaps from CMaps. These tools give professional knowledge designers the means for specifying the domain knowledge of end users, allowing them to build well-organized adaptive KMaps with partial automated assistance. This paper also presents a scheme for the fully automated process of creating KMaps from domain specifications, giving end users the ability to display complex knowledge without having the expertise of knowledge engineers. The paper focuses on a real-world example from the domain of music to illustrate the underlying principles.
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25

Buzzard, Gregery T., and Sergei Merenkov. "Maps conjugating holomorphic maps in C^n." Indiana University Mathematics Journal 52, no. 5 (2003): 1135–46. http://dx.doi.org/10.1512/iumj.2003.52.2424.

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26

Yang, Chaojun, and Fangyan Lu. "Surjective Jordan maps and Jordan triple maps." Linear Algebra and its Applications 535 (December 2017): 1–11. http://dx.doi.org/10.1016/j.laa.2017.08.022.

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27

Beer, Gerald, and Devidas Pai. "Proximal maps, prox maps and coincidence points." Numerical Functional Analysis and Optimization 11, no. 5-6 (January 1990): 429–48. http://dx.doi.org/10.1080/01630569008816382.

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28

PLEWE, TILL. "Localic triquotient maps are effective descent maps." Mathematical Proceedings of the Cambridge Philosophical Society 122, no. 1 (July 1997): 17–43. http://dx.doi.org/10.1017/s0305004196001648.

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Triquotient maps of topological spaces were introduced by E. Michael as a natural generalization of both open and proper surjections. We introduce the notion of localic triquotient map. Our main result is that localic triquotient maps are effective descent maps. This generalizes the corresponding results for proper surjections (J. Vermeulen) and open surjections (A. Joyal and M. Tierney). Further results concern stability of triquotiency under various operations, for instance, arbitrary products and filtered (inverse) limits. Among the applications are a new constructive proof of Tychonoff's theorem, and a new result on stability of open surjections under filtered limits.
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29

Furukawa, Katsuhisa. "Duality with expanding maps and shrinking maps, and its applications to Gauss maps." Mathematische Annalen 358, no. 1-2 (August 30, 2013): 403–32. http://dx.doi.org/10.1007/s00208-013-0965-7.

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30

Sahin, B. "Holomorphic Riemannian Maps." Zurnal matematiceskoj fiziki, analiza, geometrii 10, no. 4 (December 25, 2014): 422–30. http://dx.doi.org/10.15407/mag10.04.422.

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31

Rezende, Luiza Carneiro de, and Ana Carolina Batista Vieira. "Geogle Maps." Terrae Didatica 17 (February 12, 2021): e021003. http://dx.doi.org/10.20396/td.v17i00.8661509.

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As Geociências são uma área de conhecimento não muito aprofundada no ensino básico e, por isto, alguns equívocos ainda são feitos ao tentar explicar fenômenos relacionados a esta ciência. O projeto Geogle Maps foi criado com o intuito de incentivar o ensino e a popularização das Geociências utilizando um dispositivo acessível à maioria da população, o smartphone. Uma página no Instagram foi criada para mostrar exemplos de como os aplicativos Google Maps e Google Earth, compatíveis com quase todos os celulares, podem auxiliar no ensino de Geociências. As imagens de satélite permitem observar, por exemplo, limites de placas tectónicas. A visualização 3D permite caracterizar diferentes relevos. O Street View permite observar feições menores, como estruturas sedimentares, ígneas, rúpteis e dúcteis. São diversas as possibilidades e o projeto encoraja o leitor a buscar outras formas de utilizar os aplicativos no ensino de Geociências.
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32

Mehta, Heeket, Pratik Kanani, and Priya Lande. "Google Maps." International Journal of Computer Applications 178, no. 8 (May 15, 2019): 41–46. http://dx.doi.org/10.5120/ijca2019918791.

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33

Sommerville, Matthew. "Whether Maps." Afterimage 18, no. 5 (December 1, 1990): 10–13. http://dx.doi.org/10.1525/aft.1990.18.5.10.

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34

Dawidowicz, Andrzej. "Spherical maps." Fundamenta Mathematicae 127, no. 3 (1987): 187–96. http://dx.doi.org/10.4064/fm-127-3-187-196.

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35

Kelly, Jan. "Maori Maps." Cartographica: The International Journal for Geographic Information and Geovisualization 36, no. 2 (July 1999): 1–30. http://dx.doi.org/10.3138/w126-qw63-n413-816w.

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36

Cartwright, William. "Emotion maps." Abstracts of the ICA 1 (July 15, 2019): 1–2. http://dx.doi.org/10.5194/ica-abs-1-38-2019.

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<p><strong>Abstract.</strong> My perspective of Emotion Maps is not maps of emotions or the emotions evoked by spaces mapped or by mapping emotions evoked through the process of moving through a space. But – it is what we experience as ‘emotional uplifting’, when we view a cartographic artefact, whereby we elevate that artefact from a tool to communicate about geography to a piece of art. This is based on the premise of ‘Emotional Architecture’ proposed by by Mathias Goéritz in 1953 to describe an architecture elevated to art for the purpose of inspiring emotion (Loiseau, 2017). This led me to thinking about whether there are any maps that also inspire emotion.</p><p> As rightly noted by a reviewer of this contribution (and thank you to reviewers for considering this paper and your welcomed reviews), what I am probably addressing is ‘aesthetic pleasure’. However, in order to ‘fit’ with Goéritz’s Emotional Architecture concept, I have stayed with my original title. </p><p>As my research background is not in the area of Art and Cartography, I acknowledge that here I tread on dangerous ground. The reason for undertaking this research was to ascertain whether certain cartographic products may, when viewed, inspire viewers and uplift their emotions. This proposition needed to be tested by assessing a selection of cartographic artefacts against one Art theory. The theory papers from the era that was applied is Warehouse Theory.</p>
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37

Ramsey, Basil, and Roberta Gottesman. "Musical Maps." Musical Times 133, no. 1793 (July 1992): 348. http://dx.doi.org/10.2307/1002564.

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38

Harkness, Timandra. "Making maps." Significance 13, no. 4 (August 2016): 42–43. http://dx.doi.org/10.1111/j.1740-9713.2016.00941.x.

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39

Speckmann, B., and K. Verbeek. "Necklace Maps." IEEE Transactions on Visualization and Computer Graphics 16, no. 6 (November 2010): 881–89. http://dx.doi.org/10.1109/tvcg.2010.180.

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40

Tarini, Marco, Kai Hormann, Paolo Cignoni, and Claudio Montani. "PolyCube-Maps." ACM Transactions on Graphics 23, no. 3 (August 2004): 853–60. http://dx.doi.org/10.1145/1015706.1015810.

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41

Balmforth, N. J., E. A. Spiegel, and C. Tresser. "Checkerboard maps." Chaos: An Interdisciplinary Journal of Nonlinear Science 5, no. 1 (March 1995): 216–26. http://dx.doi.org/10.1063/1.166071.

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42

"Maps of maps." Kybernetes 36, no. 7/8 (August 14, 2007). http://dx.doi.org/10.1108/k.2007.06736gaf.003.

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43

"96/03855 MACS makes maps of contamination." Fuel and Energy Abstracts 37, no. 4 (July 1996): 270. http://dx.doi.org/10.1016/0140-6701(96)90388-4.

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44

Nishida, Kohei, Kosuke Matsumura, Miki Tamura, Takuto Nakamichi, Keiya Shimamori, Masahiro Kuragano, Arif Md Rashedul Kabir, et al. "Effects of three microtubule-associated proteins (MAP2, MAP4, and Tau) on microtubules’ physical properties and neurite morphology." Scientific Reports 13, no. 1 (May 31, 2023). http://dx.doi.org/10.1038/s41598-023-36073-9.

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AbstractThe physical properties of cytoskeletal microtubules have a multifaceted effect on the expression of their cellular functions. A superfamily of microtubule-associated proteins, MAP2, MAP4, and tau, promote the polymerization of microtubules, stabilize the formed microtubules, and affect the physical properties of microtubules. Here, we show differences in the effects of these three MAPs on the physical properties of microtubules. When microtubule-binding domain fragments of MAP2, tau, and three MAP4 isoforms were added to microtubules in vitro and observed by fluorescence microscopy, tau-bound microtubules showed a straighter morphology than the microtubules bound by MAP2 and the three MAP4 isoforms. Flexural rigidity was evaluated by the shape of the teardrop pattern formed when microtubules were placed in a hydrodynamic flow, revealing that tau-bound microtubules were the least flexible. When full-length MAPs fused with EGFP were expressed in human neuroblastoma (SH-SY5Y) cells, the microtubules in apical regions of protrusions expressing tau were straighter than in cells expressing MAP2 and MAP4. On the other hand, the protrusions of tau-expressing cells had the fewest branches. These results suggest that the properties of microtubules, which are regulated by MAPs, contribute to the morphogenesis of neurites.
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45

Cuveillier, Camille, Benoit Boulan, Charlotte Ravanello, Eric Denarier, Jean-Christophe Deloulme, Sylvie Gory-Fauré, Christian Delphin, Christophe Bosc, Isabelle Arnal, and Annie Andrieux. "Beyond Neuronal Microtubule Stabilization: MAP6 and CRMPS, Two Converging Stories." Frontiers in Molecular Neuroscience 14 (May 5, 2021). http://dx.doi.org/10.3389/fnmol.2021.665693.

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The development and function of the central nervous system rely on the microtubule (MT) and actin cytoskeletons and their respective effectors. Although the structural role of the cytoskeleton has long been acknowledged in neuronal morphology and activity, it was recently recognized to play the role of a signaling platform. Following this recognition, research into Microtubule Associated Proteins (MAPs) diversified. Indeed, historically, structural MAPs—including MAP1B, MAP2, Tau, and MAP6 (also known as STOP);—were identified and described as MT-binding and -stabilizing proteins. Extensive data obtained over the last 20 years indicated that these structural MAPs could also contribute to a variety of other molecular roles. Among multi-role MAPs, MAP6 provides a striking example illustrating the diverse molecular and cellular properties of MAPs and showing how their functional versatility contributes to the central nervous system. In this review, in addition to MAP6’s effect on microtubules, we describe its impact on the actin cytoskeleton, on neuroreceptor homeostasis, and its involvement in signaling pathways governing neuron development and maturation. We also discuss its roles in synaptic plasticity, brain connectivity, and cognitive abilities, as well as the potential relationships between the integrated brain functions of MAP6 and its molecular activities. In parallel, the Collapsin Response Mediator Proteins (CRMPs) are presented as examples of how other proteins, not initially identified as MAPs, fall into the broader MAP family. These proteins bind MTs as well as exhibiting molecular and cellular properties very similar to MAP6. Finally, we briefly summarize the multiple similarities between other classical structural MAPs and MAP6 or CRMPs.In summary, this review revisits the molecular properties and the cellular and neuronal roles of the classical MAPs, broadening our definition of what constitutes a MAP.
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46

"Maps." Gradhiva, no. 33 (February 2, 2022): 4–5. http://dx.doi.org/10.4000/gradhiva.6285.

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47

"Maps." Regional Trends 41, no. 1 (June 2009): 146–52. http://dx.doi.org/10.1057/rt.2009.23.

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48

"Maps." Regional Trends 42, no. 1 (June 2010): 112–18. http://dx.doi.org/10.1057/rt.2010.21.

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49

"Maps." Past & Present 238, suppl_13 (November 1, 2018): xii—xxi. http://dx.doi.org/10.1093/pastj/gty038.

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50

"Maps." Whitehall Papers 77, no. 1 (December 2011): viii—ix. http://dx.doi.org/10.1080/02681307.2011.640842.

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