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Gallo, G., 2011. The cytoskeletal and signaling mechanisms of axon collateral branching. Dev.
Neurobiol. 71, 201-220.
Gallo, G., Letourneau, P.C., 1999. Different contributions of microtubule dynamics
and transport to the growth of axons and collateral sprouts. J. Neurosci. 19, 3860-
3873.
Gallo, G., Letourneau, P.C., 2000. Neurotrophins and the dynamic regulation of the neuronal
cytoskeleton. J. Neurobiol. 44, 159-173.
Gao, F.B., 2007. Molecular and cellular mechanisms of dendritic morphogenesis. Curr. Opin.
Neurobiol. 17, 525-532.
Georges, P.C., Hadzimichalis, N.M., Sweet, E.S., Firestein, B.L., 2008. The yin-yang
of dendrite morphology: unity of actin and microtubules. Mol. Neurobiol. 38,
270-284.
Geraldo, S., Khanzada, U.K., Parsons, M., Chilton, J.K., Gordon-Weeks, P.R., 2008. Targeting
of the F-actin-binding protein drebrin by the microtubule plus-tip protein EB3 is
required for neuritogenesis. Nat. Cell Biol. 10, 1181-1189.
Gehler, S., Shaw, A.E., Sarmiere, P.D., Bamburg, J.R., Letourneau, P.C., 2004. Brain-derived
neurotrophic factor regulation of retinal growth cone filopodial dynamics is mediated
through actin depolymerizing factor/cofilin. J. Neurosci. 24, 10741-10749.
Giannone, G., Mège, R.M., Thoumine, O., 2009. Multi-level molecular clutches in motile
cell processes. Trends Cell Biol. 19, 475-486.
Gibson, D.A., Ma, L., 2011. Developmental regulation of axon branching in the vertebrate
nervous system. Development 138, 183-195.
Goldberg, D.J., Foley, M.S., Tang, D., Grabham, P.W., 2000. Recruitment of the Arp2/3
complex and mena for the stimulation of actin polymerization in growth cones by nerve
growth factor. J. Neurosci. Res. 60, 458-467.
Gomes, R.A., Hampton, C., El-Sabeawy, F., Sabo, S.L., McAllister, A.K., 2006. The dynamic
distribution of TrkB receptors before, during, and after synapse formation between
cortical neurons. J. Neurosci. 26, 11487-11500.
Gomez, T.M., Letourneau, P.C., 1994. Filopodia initiate choices made by sensory neuron
growth cones at laminin/fibronectin borders in vitro. J. Neurosci. 14, 5959-5972.
Gomez, T.M., Robles, E., Poo, M., Spitzer, N.C., 2001. Filopodial calcium transients promote
substrate-dependent growth cone turning. Science 291, 1983-1987.
Gonçalves-Pimentel, C., Gombos, R., Mihály, J., Sánchez-Soriano, N., Prokop, A., 2011.
Dissecting regulatory networks of filopodia formation in a Drosophila growth cone
model. PLoS One 6, e18340.
Greif, K.F., Asabere, N., Lutz, G.J., Gallo, G., 2012. Synaptotagmin-1 promotes the formation
of axonal filopodia and branches along the developing axons of forebrain neurons. Dev.
Neurobiol. in press.
Grzywa, E.L., Lee, A.C., Lee, G.U., Suter, D.M., 2006. High-resolution analysis of neuronal
growth cone morphology by comparative atomic force and optical microscopy.
J. Neurobiol. 66, 1529-1543.
Gumy, L.F., Yeo, G.S., Tung, Y.C., Zivraj, K.H., Willis, D., Coppola, G., Lam, B.Y., Twiss, J.L.,
Holt, C.E., Fawcett, J.W., 2011. Transcriptome analysis of embryonic and adult sensory
axons reveals changes in mRNA repertoire localization. RNA 17, 85-98.
Hammarback, J.A., Letourneau, P.C., 1986. Neurite extension across regions of low
cell-substratum adhesivity: implications for the guidepost hypothesis of axonal
pathfinding. Dev. Biol. 117, 655-662.
Han, J., Han, L., Tiwari, P., Wen, Z., Zheng, J.Q., 2007. Spatial targeting of type II protein
kinase A to filopodia mediates the regulation of growth cone guidance by cAMP. J. Cell
Biol. 176, 101-111.
Hattori, D., Millard, S.S., Wojtowicz, W.M., Zipursky, S.L., 2008. Dscam-mediated cell
recognition regulates neural circuit formation. Annu. Rev. Cell Dev. Biol. 24, 597-620.
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