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Foxg1 suppresses early cortical cell fate 总被引:1,自引:0,他引:1
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Rakic P 《Science (New York, N.Y.)》2004,303(5666):1983-1984
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Gazzaniga MS 《Science (New York, N.Y.)》2000,289(5486):1887-1888
Although there are elegants maps of the human brain that reveal differences in cellular architecture between different cortical regions, there is not much information about how corresponding cortical regions differ between the left and right hemispheres. As Gazzaniga explains in his Perspective, new results reveal the surprising finding of asymmetry in area 22 (which is important for language processing) of the left and right hemisphere (Galuske et al.). Clusters of neurons in area 22 of the left hemisphere are spaced farther apart and have longer axons cabling them together than neuronal clusters in area 22 of the right hemisphere. 相似文献
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Rakic P 《Science (New York, N.Y.)》2006,313(5789):928-929
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Fundamental to living cells is the capacity to differentiate into subtypes with specialized attributes. Understanding the way cells acquire their fates is a major challenge in developmental biology. How cells adopt a particular fate is usually thought of as being deterministic, and in the large majority of cases it is. That is, cells acquire their fate by virtue of their lineage or their proximity to an inductive signal from another cell. In some cases, however, and in organisms ranging from bacteria to humans, cells choose one or another pathway of differentiation stochastically, without apparent regard to environment or history. Stochasticity has important mechanistic requirements. We speculate on why stochasticity is advantageous-and even critical in some circumstances-to the individual, the colony, or the species. 相似文献
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Dehaene S 《Science (New York, N.Y.)》2002,297(5587):1652-1653
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Holden C 《Science (New York, N.Y.)》2003,299(5605):333-335
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