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Brain Evolution and Uniqueness in the Human Genome

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1 Brain Evolution and Uniqueness in the Human Genome
Jordan P. Amadio, Christopher A. Walsh  Cell  Volume 126, Issue 6, Pages (September 2006) DOI: /j.cell Copyright © 2006 Elsevier Inc. Terms and Conditions

2 Figure 1 HAR1F and Cortical Development
(Left) The HAR1 region, which lies within a putative noncoding RNA gene, has incorporated 18 human-specific fixed nucleotide substitutions (highlighted) since the divergence of humans and chimpanzees from their common ancestor less than 7 million years ago. The predicted secondary structure of this region of the forward RNA transcript (HAR1F) is shown for both human and chimpanzee. In the human structure, which appears to be unique among mammals, one RNA helix is selectively elongated. (Middle) A representation of the developing neocortex is shown. Neurons (solid green) migrate along the radial glia (solid blue) that span the entire cortical wall from the ventricular zone (VZ) to the basal lamina (BL). Neurons migrate from the ventricular zone through the fiber rich-intermediate zone (IZ) into the developing cortical plate (CP). Cajal-Retzius cells (solid red), which are found in the marginal zone (MZ), express both HAR1F and reelin. Although the function of HAR1 in neuronal development is not known, reelin has been implicated in orchestrating the correct layering of neurons in the cortical plate. (Right) In wild-type mice, neurons migrate into the cortical plate and form six well-defined layers (green), which overly the subplate (SP) and a band of white matter (WM). In mice lacking reelin, this layering appears disorganized or inverted. In such “reeler” mice, the cortical plate develops beneath the subplate (here called the superplate [SuP] because of its altered position). Future work may establish whether HAR1 contributes to patterning or migration of cortical neurons. Cell  , DOI: ( /j.cell ) Copyright © 2006 Elsevier Inc. Terms and Conditions

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