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203 related items for PubMed ID: 23672829

  • 21. Activin induces cortical interneuron identity and differentiation in embryonic stem cell-derived telencephalic neural precursors.
    Cambray S, Arber C, Little G, Dougalis AG, de Paola V, Ungless MA, Li M, Rodríguez TA.
    Nat Commun; 2012 May 15; 3():841. PubMed ID: 22588303
    [Abstract] [Full Text] [Related]

  • 22. Extended Production of Cortical Interneurons into the Third Trimester of Human Gestation.
    Arshad A, Vose LR, Vinukonda G, Hu F, Yoshikawa K, Csiszar A, Brumberg JC, Ballabh P.
    Cereb Cortex; 2016 May 15; 26(5):2242-2256. PubMed ID: 25882040
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  • 23. Developmental characterization of Zswim5 expression in the progenitor domains and tangential migration pathways of cortical interneurons in the mouse forebrain.
    Chang CC, Kuo HY, Chen SY, Lin WT, Lu KM, Saito T, Liu FC.
    J Comp Neurol; 2020 Oct 15; 528(14):2404-2419. PubMed ID: 32144752
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  • 24. Efficient specification of interneurons from human pluripotent stem cells by dorsoventral and rostrocaudal modulation.
    Kim TG, Yao R, Monnell T, Cho JH, Vasudevan A, Koh A, Peeyush KT, Moon M, Datta D, Bolshakov VY, Kim KS, Chung S.
    Stem Cells; 2014 Jul 15; 32(7):1789-804. PubMed ID: 24648391
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  • 25. Spatial and temporal bias in the mitotic origins of somatostatin- and parvalbumin-expressing interneuron subgroups and the chandelier subtype in the medial ganglionic eminence.
    Inan M, Welagen J, Anderson SA.
    Cereb Cortex; 2012 Apr 15; 22(4):820-7. PubMed ID: 21693785
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  • 26. Lhx6 and Lhx8 coordinately induce neuronal expression of Shh that controls the generation of interneuron progenitors.
    Flandin P, Zhao Y, Vogt D, Jeong J, Long J, Potter G, Westphal H, Rubenstein JL.
    Neuron; 2011 Jun 09; 70(5):939-50. PubMed ID: 21658586
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  • 27. CTCF Governs the Identity and Migration of MGE-Derived Cortical Interneurons.
    Elbert A, Vogt D, Watson A, Levy M, Jiang Y, Brûlé E, Rowland ME, Rubenstein J, Bérubé NG.
    J Neurosci; 2019 Jan 02; 39(1):177-192. PubMed ID: 30377227
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  • 28. Directed differentiation of forebrain GABA interneurons from human pluripotent stem cells.
    Liu Y, Liu H, Sauvey C, Yao L, Zarnowska ED, Zhang SC.
    Nat Protoc; 2013 Sep 02; 8(9):1670-9. PubMed ID: 23928500
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  • 29. Disruption of Interneuron Neurogenesis in Premature Newborns and Reversal with Estrogen Treatment.
    Tibrewal M, Cheng B, Dohare P, Hu F, Mehdizadeh R, Wang P, Zheng D, Ungvari Z, Ballabh P.
    J Neurosci; 2018 Jan 31; 38(5):1100-1113. PubMed ID: 29246927
    [Abstract] [Full Text] [Related]

  • 30. Rac-GTPases Regulate Microtubule Stability and Axon Growth of Cortical GABAergic Interneurons.
    Tivodar S, Kalemaki K, Kounoupa Z, Vidaki M, Theodorakis K, Denaxa M, Kessaris N, de Curtis I, Pachnis V, Karagogeos D.
    Cereb Cortex; 2015 Sep 31; 25(9):2370-82. PubMed ID: 24626607
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  • 31. Nuclear receptor COUP-TFII-expressing neocortical interneurons are derived from the medial and lateral/caudal ganglionic eminence and define specific subsets of mature interneurons.
    Cai Y, Zhang Q, Wang C, Zhang Y, Ma T, Zhou X, Tian M, Rubenstein JL, Yang Z.
    J Comp Neurol; 2013 Feb 01; 521(2):479-97. PubMed ID: 22791192
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  • 32. Genomic analysis of transcriptional networks directing progression of cell states during MGE development.
    Sandberg M, Taher L, Hu J, Black BL, Nord AS, Rubenstein JLR.
    Neural Dev; 2018 Sep 14; 13(1):21. PubMed ID: 30217225
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  • 33. Lhx6 directly regulates Arx and CXCR7 to determine cortical interneuron fate and laminar position.
    Vogt D, Hunt RF, Mandal S, Sandberg M, Silberberg SN, Nagasawa T, Yang Z, Baraban SC, Rubenstein JL.
    Neuron; 2014 Apr 16; 82(2):350-64. PubMed ID: 24742460
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  • 34. The Epigenetic Factor CBP Is Required for the Differentiation and Function of Medial Ganglionic Eminence-Derived Interneurons.
    Medrano-Fernández A, Delgado-Garcia JM, Del Blanco B, Llinares M, Sánchez-Campusano R, Olivares R, Gruart A, Barco A.
    Mol Neurobiol; 2019 Jun 16; 56(6):4440-4454. PubMed ID: 30334186
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  • 35. Fate mapping Nkx2.1-lineage cells in the mouse telencephalon.
    Xu Q, Tam M, Anderson SA.
    J Comp Neurol; 2008 Jan 01; 506(1):16-29. PubMed ID: 17990269
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  • 36. Interneuron Origins in the Embryonic Porcine Medial Ganglionic Eminence.
    Casalia ML, Li T, Ramsay H, Ross PJ, Paredes MF, Baraban SC.
    J Neurosci; 2021 Apr 07; 41(14):3105-3119. PubMed ID: 33637558
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  • 37. Maturation-promoting activity of SATB1 in MGE-derived cortical interneurons.
    Denaxa M, Kalaitzidou M, Garefalaki A, Achimastou A, Lasrado R, Maes T, Pachnis V.
    Cell Rep; 2012 Nov 29; 2(5):1351-62. PubMed ID: 23142661
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  • 38. Vascular-derived SPARC and SerpinE1 regulate interneuron tangential migration and accelerate functional maturation of human stem cell-derived interneurons.
    Genestine M, Ambriz D, Crabtree GW, Dummer P, Molotkova A, Quintero M, Mela A, Biswas S, Feng H, Zhang C, Canoll P, Hargus G, Agalliu D, Gogos JA, Au E.
    Elife; 2021 Apr 27; 10():. PubMed ID: 33904394
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  • 39. Viral-mediated Labeling and Transplantation of Medial Ganglionic Eminence (MGE) Cells for In Vivo Studies.
    Vogt D, Wu PR, Sorrells SF, Arnold C, Alvarez-Buylla A, Rubenstein JL.
    J Vis Exp; 2015 Apr 23; (98):. PubMed ID: 25938985
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  • 40. Functional maturation of hPSC-derived forebrain interneurons requires an extended timeline and mimics human neural development.
    Nicholas CR, Chen J, Tang Y, Southwell DG, Chalmers N, Vogt D, Arnold CM, Chen YJ, Stanley EG, Elefanty AG, Sasai Y, Alvarez-Buylla A, Rubenstein JL, Kriegstein AR.
    Cell Stem Cell; 2013 May 02; 12(5):573-86. PubMed ID: 23642366
    [Abstract] [Full Text] [Related]


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