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Results: 1 to 20 of 101

1.

Wnt1-regulated genetic networks in midbrain dopaminergic neuron development.

Wurst W, Prakash N.

J Mol Cell Biol. 2014 Feb;6(1):34-41. doi: 10.1093/jmcb/mjt046. Epub 2013 Dec 9.

PMID:
24326514
[PubMed - in process]
Free Article
2.

A Wnt1-regulated genetic network controls the identity and fate of midbrain-dopaminergic progenitors in vivo.

Prakash N, Brodski C, Naserke T, Puelles E, Gogoi R, Hall A, Panhuysen M, Echevarria D, Sussel L, Weisenhorn DM, Martinez S, Arenas E, Simeone A, Wurst W.

Development. 2006 Jan;133(1):89-98.

PMID:
16339193
[PubMed - indexed for MEDLINE]
Free Article
3.

A Wnt1 regulated Frizzled-1/β-Catenin signaling pathway as a candidate regulatory circuit controlling mesencephalic dopaminergic neuron-astrocyte crosstalk: Therapeutical relevance for neuron survival and neuroprotection.

L'episcopo F, Serapide MF, Tirolo C, Testa N, Caniglia S, Morale MC, Pluchino S, Marchetti B.

Mol Neurodegener. 2011 Jul 13;6:49. doi: 10.1186/1750-1326-6-49.

PMID:
21752258
[PubMed]
Free PMC Article
4.

Genetic networks controlling the development of midbrain dopaminergic neurons.

Prakash N, Wurst W.

J Physiol. 2006 Sep 1;575(Pt 2):403-10. Epub 2006 Jul 6. Review.

PMID:
16825303
[PubMed - indexed for MEDLINE]
Free PMC Article
5.

Development of dopaminergic neurons in the mammalian brain.

Prakash N, Wurst W.

Cell Mol Life Sci. 2006 Jan;63(2):187-206. Review.

PMID:
16389456
[PubMed - indexed for MEDLINE]
6.

A Wnt signal regulates stem cell fate and differentiation in vivo.

Prakash N, Wurst W.

Neurodegener Dis. 2007;4(4):333-8. Review.

PMID:
17627138
[PubMed - indexed for MEDLINE]
7.

Midbrain dopaminergic neuron fate specification: Of mice and embryonic stem cells.

Gale E, Li M.

Mol Brain. 2008 Sep 30;1:8. doi: 10.1186/1756-6606-1-8. Review.

PMID:
18826576
[PubMed - indexed for MEDLINE]
Free PMC Article
8.

Embryonic stem cell-derived Pitx3-enhanced green fluorescent protein midbrain dopamine neurons survive enrichment by fluorescence-activated cell sorting and function in an animal model of Parkinson's disease.

Hedlund E, Pruszak J, Lardaro T, Ludwig W, Viñuela A, Kim KS, Isacson O.

Stem Cells. 2008 Jun;26(6):1526-36. doi: 10.1634/stemcells.2007-0996. Epub 2008 Apr 3.

PMID:
18388307
[PubMed - indexed for MEDLINE]
Free PMC Article
9.

Molecular organization and timing of Wnt1 expression define cohorts of midbrain dopamine neuron progenitors in vivo.

Brown A, Machan JT, Hayes L, Zervas M.

J Comp Neurol. 2011 Oct 15;519(15):2978-3000. doi: 10.1002/cne.22710.

PMID:
21713770
[PubMed - indexed for MEDLINE]
Free PMC Article
10.

In ovo electroporation in chick midbrain for studying gene function in dopaminergic neuron development.

Yang B, Geary LB, Ma YC.

J Vis Exp. 2012 Aug 3;(66):e4017. doi: 10.3791/4017.

PMID:
22895156
[PubMed - indexed for MEDLINE]
11.

Genetic dissection of midbrain dopamine neuron development in vivo.

Ellisor D, Rieser C, Voelcker B, Machan JT, Zervas M.

Dev Biol. 2012 Dec 15;372(2):249-62. doi: 10.1016/j.ydbio.2012.09.019. Epub 2012 Oct 4.

PMID:
23041116
[PubMed - indexed for MEDLINE]
Free PMC Article
12.

Differentiation of human ES and Parkinson's disease iPS cells into ventral midbrain dopaminergic neurons requires a high activity form of SHH, FGF8a and specific regionalization by retinoic acid.

Cooper O, Hargus G, Deleidi M, Blak A, Osborn T, Marlow E, Lee K, Levy A, Perez-Torres E, Yow A, Isacson O.

Mol Cell Neurosci. 2010 Nov;45(3):258-66. doi: 10.1016/j.mcn.2010.06.017. Epub 2010 Jul 24.

PMID:
20603216
[PubMed - indexed for MEDLINE]
Free PMC Article
13.

Dynamic temporal requirement of Wnt1 in midbrain dopamine neuron development.

Yang J, Brown A, Ellisor D, Paul E, Hagan N, Zervas M.

Development. 2013 Mar;140(6):1342-52. doi: 10.1242/dev.080630.

PMID:
23444360
[PubMed - indexed for MEDLINE]
Free PMC Article
14.

Wnt5a cooperates with canonical Wnts to generate midbrain dopaminergic neurons in vivo and in stem cells.

Andersson ER, Saltó C, Villaescusa JC, Cajanek L, Yang S, Bryjova L, Nagy II, Vainio SJ, Ramirez C, Bryja V, Arenas E.

Proc Natl Acad Sci U S A. 2013 Feb 12;110(7):E602-10. doi: 10.1073/pnas.1208524110. Epub 2013 Jan 16.

PMID:
23324743
[PubMed - indexed for MEDLINE]
Free PMC Article
15.

Organotypic slice cultures of embryonic ventral midbrain: a system to study dopaminergic neuronal development in vitro.

Bodea GO, Blaess S.

J Vis Exp. 2012 Jan 31;(59):e3350. doi: 10.3791/3350.

PMID:
22314556
[PubMed - indexed for MEDLINE]
Free PMC Article
16.

Generation of regionally specified neural progenitors and functional neurons from human embryonic stem cells under defined conditions.

Kirkeby A, Grealish S, Wolf DA, Nelander J, Wood J, Lundblad M, Lindvall O, Parmar M.

Cell Rep. 2012 Jun 28;1(6):703-14. doi: 10.1016/j.celrep.2012.04.009. Epub 2012 May 26.

PMID:
22813745
[PubMed - indexed for MEDLINE]
Free Article
17.

Genetic control of rodent midbrain dopaminergic neuron development in the light of human disease.

Klafke R, Wurst W, Prakash N.

Pharmacopsychiatry. 2008 Sep;41 Suppl 1:S44-50. doi: 10.1055/s-2008-1080902. Review.

PMID:
18756420
[PubMed - indexed for MEDLINE]
18.

Temporally controlled modulation of FGF/ERK signaling directs midbrain dopaminergic neural progenitor fate in mouse and human pluripotent stem cells.

Jaeger I, Arber C, Risner-Janiczek JR, Kuechler J, Pritzsche D, Chen IC, Naveenan T, Ungless MA, Li M.

Development. 2011 Oct;138(20):4363-74. doi: 10.1242/dev.066746. Epub 2011 Aug 31.

PMID:
21880784
[PubMed - indexed for MEDLINE]
Free PMC Article
19.

Derivation of dopaminergic neurons from pluripotent stem cells.

Studer L.

Prog Brain Res. 2012;200:243-63. doi: 10.1016/B978-0-444-59575-1.00011-9. Review.

PMID:
23195422
[PubMed - indexed for MEDLINE]
20.

Birth dating of midbrain dopamine neurons identifies A9 enriched tissue for transplantation into parkinsonian mice.

Bye CR, Thompson LH, Parish CL.

Exp Neurol. 2012 Jul;236(1):58-68. doi: 10.1016/j.expneurol.2012.04.002. Epub 2012 Apr 16.

PMID:
22524988
[PubMed - indexed for MEDLINE]

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