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Items: 1 to 20 of 34

1.

Developmental mechanisms for the generation of telencephalic interneurons.

Corbin JG, Butt SJ.

Dev Neurobiol. 2011 Aug;71(8):710-32. doi: 10.1002/dneu.20890. Review.

2.

Neurotransmitters regulate cell migration in the telencephalon.

Heng JI, Moonen G, Nguyen L.

Eur J Neurosci. 2007 Aug;26(3):537-46. Review.

PMID:
17686035
3.

Distinct origin of GABA-ergic neurons in forebrain of man, nonhuman primates and lower mammals.

Petanjek Z, Dujmović A, Kostović I, Esclapez M.

Coll Antropol. 2008 Jan;32 Suppl 1:9-17. Review.

PMID:
18405052
4.

New insights into cortical interneurons development and classification: contribution of developmental studies.

Vitalis T, Rossier J.

Dev Neurobiol. 2011 Jan 1;71(1):34-44. doi: 10.1002/dneu.20810. Review.

5.

Molecules and mechanisms involved in the generation and migration of cortical interneurons.

Hernández-Miranda LR, Parnavelas JG, Chiara F.

ASN Neuro. 2010 Mar 31;2(2):e00031. doi: 10.1042/AN20090053. Review.

6.

Neurons on the move: migration and lamination of cortical interneurons.

Faux C, Rakic S, Andrews W, Britto JM.

Neurosignals. 2012;20(3):168-89. doi: 10.1159/000334489. Epub 2012 May 4. Review.

PMID:
22572780
7.

Decision making during interneuron migration in the developing cerebral cortex.

Guo J, Anton ES.

Trends Cell Biol. 2014 Jun;24(6):342-51. doi: 10.1016/j.tcb.2013.12.001. Epub 2014 Jan 2. Review.

8.

Transcriptional regulation of tangential neuronal migration in the developing forebrain.

Chédotal A, Rijli FM.

Curr Opin Neurobiol. 2009 Apr;19(2):139-45. doi: 10.1016/j.conb.2009.04.005. Epub 2009 May 8. Review.

PMID:
19428236
9.

An enhanced role and expanded developmental origins for gamma-aminobutyric acidergic interneurons in the human cerebral cortex.

Clowry GJ.

J Anat. 2015 Oct;227(4):384-93. doi: 10.1111/joa.12198. Epub 2014 May 20. Review.

10.

Telencephalic cells take a tangent: non-radial migration in the mammalian forebrain.

Corbin JG, Nery S, Fishell G.

Nat Neurosci. 2001 Nov;4 Suppl:1177-82. Review.

PMID:
11687827
11.

Neocortical inhibitory system.

Druga R.

Folia Biol (Praha). 2009;55(6):201-17. Review.

12.

The contribution of the ganglionic eminence to the neuronal cell types of the cerebral cortex.

Parnavelas JG, Anderson SA, Lavdas AA, Grigoriou M, Pachnis V, Rubenstein JL.

Novartis Found Symp. 2000;228:129-39; discussion 139-47. Review.

PMID:
10929320
13.

Cortical interneurons and their origins.

Wonders C, Anderson SA.

Neuroscientist. 2005 Jun;11(3):199-205. Review.

PMID:
15911869
14.
15.

[Origin of cortical interneurons: basic concepts and clinical implications].

Marín O.

Rev Neurol. 2002 Oct 16-31;35(8):743-51. Review. Spanish.

16.

Milestones of directed differentiation of mouse and human embryonic stem cells into telencephalic neurons based on neural development in vivo.

Nat R, Dechant G.

Stem Cells Dev. 2011 Jun;20(6):947-58. doi: 10.1089/scd.2010.0417. Epub 2011 Jan 31. Review.

PMID:
21166522
17.

Mechanisms of inhibition within the telencephalon: "where the wild things are".

Fishell G, Rudy B.

Annu Rev Neurosci. 2011;34:535-67. doi: 10.1146/annurev-neuro-061010-113717. Review.

18.

Cortical interneuron specification: the juncture of genes, time and geometry.

Bandler RC, Mayer C, Fishell G.

Curr Opin Neurobiol. 2017 Feb;42:17-24. doi: 10.1016/j.conb.2016.10.003. Epub 2016 Nov 24. Review.

PMID:
27889625
19.

The developmental integration of cortical interneurons into a functional network.

Batista-Brito R, Fishell G.

Curr Top Dev Biol. 2009;87:81-118. doi: 10.1016/S0070-2153(09)01203-4. Review.

20.

Migratory pathways of GABAergic interneurons when they enter the neocortex.

Tanaka DH, Nakajima K.

Eur J Neurosci. 2012 Jun;35(11):1655-60. doi: 10.1111/j.1460-9568.2012.08111.x. Epub 2012 May 28. Review.

PMID:
22639844

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