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Items: 1 to 20 of 102

1.

Genes involved in the formation of the earliest cortical circuits.

Molnár Z, Hoerder-Suabedissen A, Wang WZ, DeProto J, Davies K, Lee S, Jacobs EC, Campagnoni AT, Paulsen O, Piñon MC, Cheung AF.

Novartis Found Symp. 2007;288:212-24; discussion 224-9, 276-81. Review.

PMID:
18494261
2.

Towards the classification of subpopulations of layer V pyramidal projection neurons.

Molnár Z, Cheung AF.

Neurosci Res. 2006 Jun;55(2):105-15. Epub 2006 Mar 15. Review.

PMID:
16542744
3.

Cell Type-Specific Circuit Mapping Reveals the Presynaptic Connectivity of Developing Cortical Circuits.

Cocas LA, Fernandez G, Barch M, Doll J, Zamora Diaz I, Pleasure SJ.

J Neurosci. 2016 Mar 16;36(11):3378-90. doi: 10.1523/JNEUROSCI.0375-15.2016.

4.

Self-organization and pattern formation in primate cortical networks.

Kennedy H, Douglas R, Knoblauch K, Dehay C.

Novartis Found Symp. 2007;288:178-94 discussion 195-8, 276-81. Review.

PMID:
18494259
5.

Cortical Divergent Projections in Mice Originate from Two Sequentially Generated, Distinct Populations of Excitatory Cortical Neurons with Different Initial Axonal Outgrowth Characteristics.

Hatanaka Y, Namikawa T, Yamauchi K, Kawaguchi Y.

Cereb Cortex. 2016 May;26(5):2257-2270. doi: 10.1093/cercor/bhv077. Epub 2015 Apr 16.

PMID:
25882037
6.

The forkhead transcription factors, Foxp1 and Foxp2, identify different subpopulations of projection neurons in the mouse cerebral cortex.

Hisaoka T, Nakamura Y, Senba E, Morikawa Y.

Neuroscience. 2010 Mar 17;166(2):551-63. doi: 10.1016/j.neuroscience.2009.12.055. Epub 2009 Dec 28.

PMID:
20040367
7.
8.

Genes that control the size of the cerebral cortex.

Chae TH, Walsh CA.

Novartis Found Symp. 2007;288:79-90; discussion 91-8. Review.

PMID:
18494253
9.

Connective tissue growth factor: a novel marker of layer VII neurons in the rat cerebral cortex.

Heuer H, Christ S, Friedrichsen S, Brauer D, Winckler M, Bauer K, Raivich G.

Neuroscience. 2003;119(1):43-52.

PMID:
12763067
10.

Murine embryonic stem cell-derived pyramidal neurons integrate into the cerebral cortex and appropriately project axons to subcortical targets.

Ideguchi M, Palmer TD, Recht LD, Weimann JM.

J Neurosci. 2010 Jan 20;30(3):894-904. doi: 10.1523/JNEUROSCI.4318-09.2010.

11.

Emergence of connectivity in the embryonic rat parietal cortex.

Erzurumlu RS, Jhaveri S.

Cereb Cortex. 1992 Jul-Aug;2(4):336-52.

PMID:
1422091
12.

Morphological differentiation of distinct neuronal classes in embryonic turtle cerebral cortex.

Blanton MG, Kriegstein AR.

J Comp Neurol. 1991 Aug 22;310(4):558-70.

PMID:
1719040
13.

Development, evolution and pathology of neocortical subplate neurons.

Hoerder-Suabedissen A, Molnár Z.

Nat Rev Neurosci. 2015 Mar;16(3):133-46. doi: 10.1038/nrn3915. Review.

PMID:
25697157
14.

Extracortical origin of some murine subplate cell populations.

Pedraza M, Hoerder-Suabedissen A, Albert-Maestro MA, Molnár Z, De Carlos JA.

Proc Natl Acad Sci U S A. 2014 Jun 10;111(23):8613-8. doi: 10.1073/pnas.1323816111. Epub 2014 Apr 28.

15.

Intermediate Progenitors Facilitate Intracortical Progression of Thalamocortical Axons and Interneurons through CXCL12 Chemokine Signaling.

Abe P, Molnár Z, Tzeng YS, Lai DM, Arnold SJ, Stumm R.

J Neurosci. 2015 Sep 23;35(38):13053-63. doi: 10.1523/JNEUROSCI.1488-15.2015.

16.

Diminished dosage of 22q11 genes disrupts neurogenesis and cortical development in a mouse model of 22q11 deletion/DiGeorge syndrome.

Meechan DW, Tucker ES, Maynard TM, LaMantia AS.

Proc Natl Acad Sci U S A. 2009 Sep 22;106(38):16434-45. doi: 10.1073/pnas.0905696106. Epub 2009 Sep 10.

17.
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19.

Development of cortical interneurons.

Chu J, Anderson SA.

Neuropsychopharmacology. 2015 Jan;40(1):16-23. doi: 10.1038/npp.2014.171. Epub 2014 Aug 8. Review.

20.

Loop formation and self-fasciculation of cortical axon using photonic guidance at long working distance.

Mondal A, Black B, Kim YT, Mohanty S.

Sci Rep. 2014 Nov 7;4:6902. doi: 10.1038/srep06902.

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