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Pubmed for Handhelds

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Journal Abstract Search

377 related items for PubMed ID: 18344990

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  • 6. Mode of growth of retinal axons within the tectum of Xenopus tadpoles, and implications in the ordered neuronal connection between the retina and the tectum.
    Fujisawa H.
    J Comp Neurol; 1987 Jun 01; 260(1):127-39. PubMed ID: 3597831
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  • 8. Reversal and stabilization of synaptic modifications in a developing visual system.
    Zhou Q, Tao HW, Poo MM.
    Science; 2003 Jun 20; 300(5627):1953-7. PubMed ID: 12817152
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  • 11. Region-specific contribution of ephrin-B and Wnt signaling to receptive field plasticity in developing optic tectum.
    Lim BK, Cho SJ, Sumbre G, Poo MM.
    Neuron; 2010 Mar 25; 65(6):899-911. PubMed ID: 20346764
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  • 13. Nicotine exposure refines visual map topography through an NMDA receptor-mediated pathway.
    Yan X, Zhao B, Butt CM, Debski EA.
    Eur J Neurosci; 2006 Dec 25; 24(11):3026-42. PubMed ID: 17156364
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  • 15. Dynamics of retinotectal synaptogenesis in normal and 3-eyed frogs: evidence for the postsynaptic regulation of synapse number.
    Norden JJ, Constantine-Paton M.
    J Comp Neurol; 1994 Oct 15; 348(3):461-79. PubMed ID: 7844258
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  • 16. Regulation of GDNF and its receptor components GFR-alpha1, -alpha2 and Ret during development and in the mature retino-collicular pathway.
    Kretz A, Jacob AM, Tausch S, Straten G, Isenmann S.
    Brain Res; 2006 May 23; 1090(1):1-14. PubMed ID: 16650834
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  • 17. Normal activity-dependent refinement in a compressed retinotectal projection in goldfish.
    Olson MD, Meyer RL.
    J Comp Neurol; 1994 Sep 22; 347(4):481-94. PubMed ID: 7529264
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  • 19. The development of the retinotectal projections from compound eyes in Xenopus.
    Straznicky C, Gaze RM, Keating MJ.
    J Embryol Exp Morphol; 1981 Apr 22; 62():13-35. PubMed ID: 7276807
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