Pallial and subpallial derivatives in the embryonic chick and mouse telencephalon, traced by the expression of the genes Dlx-2, Emx-1, Nkx-2.1, Pax-6, and Tbr-1.
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Patterns of neurogenesis and amplitude of Reelin expression are essential for making a mammalian-type cortexRadial glial dependent and independent dynamics of interneuronal migration in the developing cerebral cortexToxoplasma gondii infection, from predation to schizophrenia: can animal behaviour help us understand human behaviour?Thoughts on the development, structure and evolution of the mammalian and avian telencephalic pallium.Avian brains and a new understanding of vertebrate brain evolutionRevised nomenclature for avian telencephalon and some related brainstem nucleiSall1 regulates mitral cell development and olfactory nerve extension in the developing olfactory bulbComparative aspects of cerebral cortical development3 dimensional modelling of early human brain development using optical projection tomographyNeuronal migration and ventral subtype identity in the telencephalon depend on SOX1Cell migration in the developing rodent olfactory systemRole of Glycogenolysis in Memory and Learning: Regulation by Noradrenaline, Serotonin and ATPFrom sauropsids to mammals and back: New approaches to comparative cortical developmentThe olfactory amygdala in amniotes: an evo-devo approachContribution of genoarchitecture to understanding forebrain evolution and development, with particular emphasis on the amygdalaConditional Loss of Arx From the Developing Dorsal Telencephalon Results in Behavioral Phenotypes Resembling Mild Human ARX Mutations.The molecular and cellular signatures of the mouse eminentia thalami support its role as a signalling centre in the developing forebrain.Robust formation and maintenance of continuous stratified cortical neuroepithelium by laminin-containing matrix in mouse ES cell cultureTransient neuronal populations are required to guide callosal axons: a role for semaphorin 3CRole of miRNA-9 in Brain DevelopmentEarly telencephalic migration topographically converging in the olfactory cortexSongbirds and the revised avian brain nomenclatureCortical and thalamic axon pathfinding defects in Tbr1, Gbx2, and Pax6 mutant mice: evidence that cortical and thalamic axons interact and guide each otherDifferential regulation of telencephalic pallial-subpallial boundary patterning by Pax6 and Gsh2The progenitor zone of the ventral medial ganglionic eminence requires Nkx2-1 to generate most of the globus pallidus but few neocortical interneuronsGenoarchitecture of the extended amygdala in zebra finch, and expression of FoxP2 in cell corridors of different genetic profileThe role of DCX and LIS1 in migration through the lateral cortical stream of developing forebrainSpatiotemporal expression patterns of slit and robo genes in the rat brainGenetic mapping of Foxb1-cell lineage shows migration from caudal diencephalon to telencephalon and lateral hypothalamusSall3 is required for the terminal maturation of olfactory glomerular interneuronsRole of Emx2 in the development of the reciprocal connectivity between cortex and thalamusA hypothesis for the evolution of the upper layers of the neocortex through co-option of the olfactory cortex developmental programYou are who you talk with--a commentary on Dugas-Ford et al. PNAS, 2012On the hodological criterion for homologyGenetic manipulation of reptilian embryos: toward an understanding of cortical development and evolutionConvergent transcriptional specializations in the brains of humans and song-learning birdsGlobal view of the functional molecular organization of the avian cerebrum: mirror images and functional columnsToward a genetic dissection of cortical circuits in the mouseShining a light on CNTNAP2: complex functions to complex disorders.Differences in number and distribution of striatal calbindin medium spiny neurons between a vocal-learner (Melopsittacus undulatus) and a non-vocal learner bird (Colinus virginianus)
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P2860
Pallial and subpallial derivatives in the embryonic chick and mouse telencephalon, traced by the expression of the genes Dlx-2, Emx-1, Nkx-2.1, Pax-6, and Tbr-1.
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年学术文章
@wuu
2000年学术文章
@zh
2000年学术文章
@zh-cn
2000年学术文章
@zh-hans
2000年学术文章
@zh-my
2000年学术文章
@zh-sg
2000年學術文章
@yue
2000年學術文章
@zh-hant
name
Pallial and subpallial derivat ...... -1, Nkx-2.1, Pax-6, and Tbr-1.
@en
Pallial and subpallial derivat ...... -1, Nkx-2.1, Pax-6, and Tbr-1.
@nl
type
label
Pallial and subpallial derivat ...... -1, Nkx-2.1, Pax-6, and Tbr-1.
@en
Pallial and subpallial derivat ...... -1, Nkx-2.1, Pax-6, and Tbr-1.
@nl
prefLabel
Pallial and subpallial derivat ...... -1, Nkx-2.1, Pax-6, and Tbr-1.
@en
Pallial and subpallial derivat ...... -1, Nkx-2.1, Pax-6, and Tbr-1.
@nl
P2093
P2860
P1476
Pallial and subpallial derivat ...... -1, Nkx-2.1, Pax-6, and Tbr-1.
@en
P2093
J L Rubenstein
K Shimamura
P2860
P304
P356
10.1002/1096-9861(20000828)424:3<409::AID-CNE3>3.0.CO;2-7
P407
P577
2000-08-01T00:00:00Z