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Items: 29

1.

Timing the spinal cord development with neural progenitor cells losing their proliferative capacity: a theoretical analysis.

Azaïs M, Agius E, Blanco S, Molina A, Pituello F, Tregan JM, Vallet A, Gautrais J.

Neural Dev. 2019 Mar 13;14(1):7. doi: 10.1186/s13064-019-0131-3.

2.

Neurogenic decisions require a cell cycle independent function of the CDC25B phosphatase.

Bonnet F, Molina A, Roussat M, Azais M, Bel-Vialar S, Gautrais J, Pituello F, Agius E.

Elife. 2018 Jul 3;7. pii: e32937. doi: 10.7554/eLife.32937.

3.

FGF signaling controls Shh-dependent oligodendroglial fate specification in the ventral spinal cord.

Farreny MA, Agius E, Bel-Vialar S, Escalas N, Khouri-Farah N, Soukkarieh C, Danesin C, Pituello F, Cochard P, Soula C.

Neural Dev. 2018 Mar 8;13(1):3. doi: 10.1186/s13064-018-0100-2.

4.

A long range distal enhancer controls temporal fine-tuning of PAX6 expression in neuronal precursors.

Lacomme M, Medevielle F, Bourbon HM, Thierion E, Kleinjan DJ, Roussat M, Pituello F, Bel-Vialar S.

Dev Biol. 2018 Apr 15;436(2):94-107. doi: 10.1016/j.ydbio.2018.02.015. Epub 2018 Feb 25.

5.

Playing with the cell cycle to build the spinal cord.

Molina A, Pituello F.

Dev Biol. 2017 Dec 1;432(1):14-23. doi: 10.1016/j.ydbio.2016.12.022. Epub 2016 Dec 27. Review.

6.

Mitochondrial reshaping accompanies neural differentiation in the developing spinal cord.

Mils V, Bosch S, Roy J, Bel-Vialar S, Belenguer P, Pituello F, Miquel MC.

PLoS One. 2015 May 28;10(5):e0128130. doi: 10.1371/journal.pone.0128130. eCollection 2015.

7.

Cell cycle and cell fate in the developing nervous system: the role of CDC25B phosphatase.

Agius E, Bel-Vialar S, Bonnet F, Pituello F.

Cell Tissue Res. 2015 Jan;359(1):201-13. doi: 10.1007/s00441-014-1998-2. Epub 2014 Sep 27. Review.

PMID:
25260908
8.

NEUROG2 drives cell cycle exit of neuronal precursors by specifically repressing a subset of cyclins acting at the G1 and S phases of the cell cycle.

Lacomme M, Liaubet L, Pituello F, Bel-Vialar S.

Mol Cell Biol. 2012 Jul;32(13):2596-607. doi: 10.1128/MCB.06745-11. Epub 2012 Apr 30.

9.

The CDC25B phosphatase shortens the G2 phase of neural progenitors and promotes efficient neuron production.

Peco E, Escude T, Agius E, Sabado V, Medevielle F, Ducommun B, Pituello F.

Development. 2012 Mar;139(6):1095-104. doi: 10.1242/dev.068569. Epub 2012 Feb 8.

10.

Epilepsy caused by an abnormal alternative splicing with dosage effect of the SV2A gene in a chicken model.

Douaud M, Feve K, Pituello F, Gourichon D, Boitard S, Leguern E, Coquerelle G, Vieaud A, Batini C, Naquet R, Vignal A, Tixier-Boichard M, Pitel F.

PLoS One. 2011;6(10):e26932. doi: 10.1371/journal.pone.0026932. Epub 2011 Oct 27.

11.

Forcing neural progenitor cells to cycle is insufficient to alter cell-fate decision and timing of neuronal differentiation in the spinal cord.

Lobjois V, Bel-Vialar S, Trousse F, Pituello F.

Neural Dev. 2008 Feb 13;3:4. doi: 10.1186/1749-8104-3-4.

12.

The on/off of Pax6 controls the tempo of neuronal differentiation in the developing spinal cord.

Bel-Vialar S, Medevielle F, Pituello F.

Dev Biol. 2007 May 15;305(2):659-73. Epub 2007 Feb 16.

13.

Comparative analysis of Gata3 and Gata2 expression during chicken inner ear development.

Lilleväli K, Haugas M, Pituello F, Salminen M.

Dev Dyn. 2007 Jan;236(1):306-13.

14.

Identification of an unexpected link between the Shh pathway and a G2/M regulator, the phosphatase CDC25B.

Bénazéraf B, Chen Q, Peco E, Lobjois V, Médevielle F, Ducommun B, Pituello F.

Dev Biol. 2006 Jun 1;294(1):133-47. Epub 2006 Mar 29.

16.

FGF signalling controls the timing of Pax6 activation in the neural tube.

Bertrand N, Médevielle F, Pituello F.

Development. 2000 Nov;127(22):4837-43.

17.
18.

Activation of Pax6 depends on somitogenesis in the chick embryo cervical spinal cord.

Pituello F, Medevielle F, Foulquier F, Duprat AM.

Development. 1999 Feb;126(3):587-96.

19.

Neuronal specification: generating diversity in the spinal cord.

Pituello F.

Curr Biol. 1997 Nov 1;7(11):R701-4. Review.

20.
21.

Activin A inhibits Pax-6 expression and perturbs cell differentiation in the developing spinal cord in vitro.

Pituello F, Yamada G, Gruss P.

Proc Natl Acad Sci U S A. 1995 Jul 18;92(15):6952-6.

22.

Regulated expression of Brachyury(T), Nkx1.1 and Pax genes in embryoid bodies.

Yamada G, Kioussi C, Schubert FR, Eto Y, Chowdhury K, Pituello F, Gruss P.

Biochem Biophys Res Commun. 1994 Mar 15;199(2):552-63.

PMID:
7907867
23.

Experimentally provoked neural induction results in an incomplete expression of neuronal traits.

Saint-Jeannet JP, Pituello F, Huang S, Foulquier F, Duprat AM.

Exp Cell Res. 1993 Aug;207(2):383-7.

PMID:
8344387
24.

Expression of the guanine nucleotide-binding protein Go correlates with the state of neural competence in the amphibian embryo.

Pituello F, Homburger V, Saint-Jeannet JP, Audigier Y, Bockaert J, Duprat AM.

Dev Biol. 1991 Jun;145(2):311-22.

PMID:
1904035
25.

Are neuronal precursor cells committed to coexpress different neuroactive substances in early amphibian neurulae?

Pituello F, Boudannaoui S, Foulquier F, Duprat AM.

Cell Differ Dev. 1990 Dec 1;32(2):71-81.

PMID:
1982084
26.

From presumptive ectoderm to neural cells in an amphibian.

Duprat AM, Saint-Jeannet JP, Pituello F, Huang S, Boudannaoui S, Kan P, Gualandris L.

Int J Dev Biol. 1990 Mar;34(1):149-56. Review.

27.

Initial GABAergic expression in embryonic amphibian neuroblasts after neural induction.

Pituello F, Kan P, Geffard M, Duprat AM.

Int J Dev Biol. 1989 Dec;33(4):445-53.

28.

Peptidergic properties expressed in vitro by embryonic neuroblasts after neural induction.

Pituello F, Deruntz P, Pradayrol L, Duprat AM.

Development. 1989 Mar;105(3):529-40.

29.

Neural induction.

Duprat AM, Gualandris L, Kan P, Pituello F, Saint-Jeannet JP, Boudannaoui S.

Arch Anat Microsc Morphol Exp. 1986-1987;75(4):211-27. Review.

PMID:
3327475

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