Publikationen von N. Prakash
Alle Typen
Zeitschriftenartikel (20)
1.
Zeitschriftenartikel
Otx2 selectively controls the neurogenesis of specific neuronal subtypes of the ventral tegmental area and compensates En1-dependent neuronal loss and MPTP vulnerability. Developmental Biology 373 (1), S. 176 - 183 (2013)
2.
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A Unilateral Negative Feedback Loop Between miR-200 microRNAs and Sox2/E2F3 Controls Neural Progenitor Cell-Cycle Exit and Differentiation. Journal of Neuroscience 32 (38), S. 13292 - 13308 (2012)
3.
Zeitschriftenartikel
Pitx3 Is a Critical Mediator of GDNF-Induced BDNF Expression in Nigrostriatal Dopaminergic Neurons. Journal of Neuroscience 31 (36), S. 12802 - 12815 (2011)
4.
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Fgf15-mediated control of neurogenic and proneural gene expression regulates dorsal midbrain neurogenesis. Developmental Biology 350 (2), S. 496 - 510 (2011)
5.
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Otx2 controls neuron subtype identity in ventral tegmental area and antagonizes vulnerability to MPTP. Nature Neuroscience 13 (12), S. 1481 - 1488 (2010)
6.
Zeitschriftenartikel
Delayed Dopaminergic Neuron Differentiation in Lrp6 Mutant Mice. Developmental Dynamics 239 (Sp. Iss. SI), S. 211 - 221 (2010)
7.
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Fzd3 and Fzd6 Deficiency Results in a Severe Midbrain Morphogenesis Defect. Developmental Dynamics 239 (Sp. Iss. SI), S. 246 - 260 (2010)
8.
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Spatial Analysis of Expression Patterns Predicts Genetic Interactions at the Mid-Hindbrain Boundary. PLoS Computational Biology 5 (11), doi: 10.1371/journal.pcbi.1000569 (2009)
9.
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Nkx6-1 controls the identity and fate of red nucleus and oculomotor neurons in the mouse midbrain. Development 136 (15), S. 2545 - 2555 (2009)
10.
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Anterior-posterior graded response to Otx2 controls proliferation and differentiation of dopaminergic progenitors in the ventral mesencephalon. Development 135 (20), S. 3459 - 3470 (2008)
11.
Zeitschriftenartikel
Genetic control of rodent midbrain dopaminergic neuron development in the light of human disease. Pharmacopsychiatry 41 (Suppl. 1), S. S44 - S50 (2008)
12.
Zeitschriftenartikel
Distinct but redundant expression of the Frizzled Wnt receptor genes at signaling centers of the developing mouse brain. Neuroscience 147 (3), S. 693 - 711 (2007)
13.
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Fgfr2 and Fgfr3 are not required for patterning and maintenance of the midbrain and anterior hindbrain. Developmental Biology 303 (1), S. 231 - 243 (2007)
14.
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A Wnt signal regulates stem cell fate and differentiation in vivo. Neurodegenerative Diseases 4 (4), S. 333 - 338 (2007)
15.
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Genetic networks controlling the development of midbrain dopaminergic neurons. Journal of Physiology-London 575 (2), S. 403 - 410 (2006)
16.
Zeitschriftenartikel
In vivo characterization of embryonic dopaminergic neurons derived from transgenic mice ectopically expressing Otx2 in the anterior hindbrain. Cell Transplantation 15 (6), S. 551 - 552 (2006)
17.
Zeitschriftenartikel
A Wnt1-regulated genetic network controls the identity and fate of midbrain-dopaminergic progenitors in vivo. Development 133 (1), S. 89 - 98 (2006)
18.
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Expression of Fgf receptors 1, 2, and 3 in the developing mid- and hindbrain of the mouse. Developmental Dynamics 233 (3), S. 1023 - 1030 (2005)
19.
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Molecular mechanisms controlling the development of dopaminergic and noradrenergic neurons. Reviews in the Neurosciences 16 (Suppl. 1), S. S28 - S28 (2005)
20.
Zeitschriftenartikel
Specification of midbrain territory. Cell and Tissue Research 318 (1), S. 5 - 14 (2004)