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Items: 29

1.

Differing Strategies Despite Shared Lineages of Motor Neurons and Glia to Achieve Robust Development of an Adult Neuropil in Drosophila.

Enriquez J, Rio LQ, Blazeski R, Bellemin S, Godement P, Mason C, Mann RS.

Neuron. 2018 Feb 7;97(3):538-554.e5. doi: 10.1016/j.neuron.2018.01.007. Epub 2018 Jan 27.

2.

Thyroid Hormone Signaling in the Mouse Retina.

Arbogast P, Flamant F, Godement P, Glösmann M, Peichl L.

PLoS One. 2016 Dec 12;11(12):e0168003. doi: 10.1371/journal.pone.0168003. eCollection 2016.

3.

Otx2 gene deletion in adult mouse retina induces rapid RPE dystrophy and slow photoreceptor degeneration.

Béby F, Housset M, Fossat N, Le Greneur C, Flamant F, Godement P, Lamonerie T.

PLoS One. 2010 Jul 21;5(7):e11673. doi: 10.1371/journal.pone.0011673.

4.

A new GFP-tagged line reveals unexpected Otx2 protein localization in retinal photoreceptors.

Fossat N, Le Greneur C, Béby F, Vincent S, Godement P, Chatelain G, Lamonerie T.

BMC Dev Biol. 2007 Nov 2;7:122.

5.

Eph receptors inactivate R-Ras through different mechanisms to achieve cell repulsion.

Dail M, Richter M, Godement P, Pasquale EB.

J Cell Sci. 2006 Apr 1;119(Pt 7):1244-54. Epub 2006 Mar 7.

6.

It's all in the assay: a new model for retinotectal topographic mapping.

Godement P, Mason C.

Neuron. 2004 Jun 10;42(5):697-9.

7.

Ephrin-A6, a new ligand for EphA receptors in the developing visual system.

Menzel P, Valencia F, Godement P, Dodelet VC, Pasquale EB.

Dev Biol. 2001 Feb 1;230(1):74-88.

8.

Positional specificities of retinal growth cones in the mouse superior colliculus.

Llirbat B, Godement P.

Eur J Neurosci. 1999 Jun;11(6):2103-13.

PMID:
10336679
9.

The mouse homeodomain protein OTX2 regulates NCAM promoter activity.

Nguyen Ba-Charvet KT, von Boxberg Y, Godement P.

Brain Res Mol Brain Res. 1999 Apr 20;67(2):292-5.

PMID:
10216227
10.

A potential role for the OTX2 homeoprotein in creating early 'highways' for axon extension in the rostral brain.

Nguyen Ba-Charvet KT, von Boxberg Y, Guazzi S, Boncinelli E, Godement P.

Development. 1998 Nov;125(21):4273-82.

11.
12.

Crossed and uncrossed retinal axons respond differently to cells of the optic chiasm midline in vitro.

Wang LC, Dani J, Godement P, Marcus RC, Mason CA.

Neuron. 1995 Dec;15(6):1349-64.

13.

Intraneuronal delivery of protein kinase C pseudosubstrate leads to growth cone collapse.

Théodore L, Derossi D, Chassaing G, Llirbat B, Kubes M, Jordan P, Chneiweiss H, Godement P, Prochiantz A.

J Neurosci. 1995 Nov;15(11):7158-67.

14.
15.

Optical microscopy. 3. Tracking fluorescently labeled neurons in developing brain.

Fishell G, Blazeski R, Godement P, Rivas R, Wang LC, Mason CA.

FASEB J. 1995 Mar;9(5):324-34. Review.

PMID:
7896001
16.

Retinal axon divergence in the optic chiasm: dynamics of growth cone behavior at the midline.

Godement P, Wang LC, Mason CA.

J Neurosci. 1994 Nov;14(11 Pt 2):7024-39. Erratum in: J Neurosci 1995 Mar;15(3 Pt 1):followi.

17.
18.

Guidance of retinal fibers in the optic chiasm.

Godement P, Mason CA.

Perspect Dev Neurobiol. 1993;1(4):217-25. Review.

PMID:
8087546
19.

Retinal axon pathfinding in the optic chiasm: divergence of crossed and uncrossed fibers.

Godement P, Salaün J, Mason CA.

Neuron. 1990 Aug;5(2):173-86.

PMID:
2383400
20.

Cross-species recognition of tectal cues by retinal fibers in vitro.

Godement P, Bonhoeffer F.

Development. 1989 Jun;106(2):313-20.

21.

Spatial arrangement of radial glia and ingrowing retinal axons in the chick optic tectum during development.

Vanselow J, Thanos S, Godement P, Henke-Fahle S, Bonhoeffer F.

Brain Res Dev Brain Res. 1989 Jan 1;45(1):15-27.

PMID:
2917409
22.

The primary visual cortex in the mouse: receptive field properties and functional organization.

Métin C, Godement P, Imbert M.

Exp Brain Res. 1988;69(3):594-612.

PMID:
3371440
23.

A study in developing visual systems with a new method of staining neurones and their processes in fixed tissue.

Godement P, Vanselow J, Thanos S, Bonhoeffer F.

Development. 1987 Dec;101(4):697-713.

24.

Fate of uncrossed retinal projections following early or late prenatal monocular enucleation in the mouse.

Godement P, Salaün J, Métin C.

J Comp Neurol. 1987 Jan 1;255(1):97-109.

PMID:
3819012
25.

Prenatal and postnatal development of retinogeniculate and retinocollicular projections in the mouse.

Godement P, Salaün J, Imbert M.

J Comp Neurol. 1984 Dec 20;230(4):552-75.

PMID:
6520251
26.

[Physiological and anatomical study of the retinogeniculate projections in the mouse].

Métin C, Godement P, Saillour P, Imbert M.

C R Seances Acad Sci III. 1983 Jan 24;296(3):157-62. French.

PMID:
6404518
27.

[Absence of ipsilateral retinal projections after very early prenatal destruction of one eye in mice].

Godement P, Salaun J, Saillour P.

C R Seances Acad Sci III. 1981 Nov 16;293(10):625-30. French.

PMID:
6800580
28.
29.

Thalamic afferents to the visual cortex in congenitally anophthalmic mice.

Godement P, Saillour P, Imbert M.

Neurosci Lett. 1979 Aug;13(3):271-8.

PMID:
530479

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