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Items: 1 to 20 of 108

1.

Sperry versus Hebb: topographic mapping in Isl2/EphA3 mutant mice.

Tsigankov D, Koulakov AA.

BMC Neurosci. 2010 Dec 29;11:155. doi: 10.1186/1471-2202-11-155.

PMID:
21190559
2.

A stochastic model for retinocollicular map development.

Koulakov AA, Tsigankov DN.

BMC Neurosci. 2004 Aug 31;5:30.

PMID:
15339341
3.

EphA3 expressed in the chicken tectum stimulates nasal retinal ganglion cell axon growth and is required for retinotectal topographic map formation.

Ortalli AL, Fiore L, Di Napoli J, Rapacioli M, Salierno M, Etchenique R, Flores V, Sanchez V, Carri NG, Scicolone G.

PLoS One. 2012;7(6):e38566. doi: 10.1371/journal.pone.0038566. Epub 2012 Jun 7.

PMID:
22685584
4.

Computational modeling of retinotopic map development to define contributions of EphA-ephrinA gradients, axon-axon interactions, and patterned activity.

Yates PA, Holub AD, McLaughlin T, Sejnowski TJ, O'Leary DD.

J Neurobiol. 2004 Apr;59(1):95-113.

PMID:
15007830
5.

Loss-of-function analysis of EphA receptors in retinotectal mapping.

Feldheim DA, Nakamoto M, Osterfield M, Gale NW, DeChiara TM, Rohatgi R, Yancopoulos GD, Flanagan JG.

J Neurosci. 2004 Mar 10;24(10):2542-50.

PMID:
15014130
6.

Stochastic Interaction between Neural Activity and Molecular Cues in the Formation of Topographic Maps.

Owens MT, Feldheim DA, Stryker MP, Triplett JW.

Neuron. 2015 Sep 23;87(6):1261-73. doi: 10.1016/j.neuron.2015.08.030.

PMID:
26402608
7.

Retinal input instructs alignment of visual topographic maps.

Triplett JW, Owens MT, Yamada J, Lemke G, Cang J, Stryker MP, Feldheim DA.

Cell. 2009 Oct 2;139(1):175-85. doi: 10.1016/j.cell.2009.08.028.

PMID:
19804762
8.
9.

Pax7 and superior collicular polarity: insights from Pax6 (Sey) mutant mice.

Thompson JA, Lovicu FJ, Ziman M.

Exp Brain Res. 2007 Apr;178(3):316-25. Epub 2006 Nov 8.

PMID:
17091300
10.

The L1 cell adhesion molecule is essential for topographic mapping of retinal axons.

Demyanenko GP, Maness PF.

J Neurosci. 2003 Jan 15;23(2):530-8.

PMID:
12533613
11.

Genetic dissection of EphA receptor signaling dynamics during retinotopic mapping.

Bevins N, Lemke G, Reber M.

J Neurosci. 2011 Jul 13;31(28):10302-10. doi: 10.1523/JNEUROSCI.1652-11.2011.

PMID:
21753007
12.

Ephrin-A2 and -A5 influence patterning of normal and novel retinal projections to the thalamus: conserved mapping mechanisms in visual and auditory thalamic targets.

Ellsworth CA, Lyckman AW, Feldheim DA, Flanagan JG, Sur M.

J Comp Neurol. 2005 Jul 25;488(2):140-51.

PMID:
15924339
13.

Topographic mapping from the retina to the midbrain is controlled by relative but not absolute levels of EphA receptor signaling.

Brown A, Yates PA, Burrola P, Ortuño D, Vaidya A, Jessell TM, Pfaff SL, O'Leary DD, Lemke G.

Cell. 2000 Jul 7;102(1):77-88.

PMID:
10929715
14.

[Molecular mechanisms for the formation of topographic retinotectal projection].

Shintani T, Sakuta H, Noda M.

Brain Nerve. 2008 Apr;60(4):425-35. Review. Japanese.

PMID:
18421984
16.
17.

Balancing of ephrin/Eph forward and reverse signaling as the driving force of adaptive topographic mapping.

Gebhardt C, Bastmeyer M, Weth F.

Development. 2012 Jan;139(2):335-45. doi: 10.1242/dev.070474. Epub 2011 Dec 7.

PMID:
22159582
18.

Eph and ephrin signaling in the formation of topographic maps.

Triplett JW, Feldheim DA.

Semin Cell Dev Biol. 2012 Feb;23(1):7-15. doi: 10.1016/j.semcdb.2011.10.026. Epub 2011 Oct 24. Review.

PMID:
22044886
19.
20.

EphA/ephrin-A interactions during optic nerve regeneration: restoration of topography and regulation of ephrin-A2 expression.

Rodger J, Vitale PN, Tee LB, King CE, Bartlett CA, Fall A, Brennan C, O'Shea JE, Dunlop SA, Beazley LD.

Mol Cell Neurosci. 2004 Jan;25(1):56-68.

PMID:
14962740

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