Brain development/Bibliography: Difference between revisions

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	A list of key readings about Brain development.

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• Phillips, K.A. & C.C. Sherwood (2008), "Cortical development in brown capuchin monkeys: A structural MRI study", Neuroimage 43: 657-664, DOI:10.1016/j.neuroimage.2008.08.031
• Sedwick, C. (2008). "A Roadmap for Migrating Neurons". PLoS Biology 6 (6). DOI:10.1371/journal.pbio.0060153. Research Blogging.

• Rakic, Pasko (2008), "Confusing cortical columns", Proceedings of the National Academy of Sciences 105 (34): 12099-12100, DOI:10.1073/pnas.0807271105 ^[e]

Provides a commentary on Herculano-Houzel et al. (2008) and Rockel at al. (1980), citing the former as a convincing (albeit not surprising) refutation of the latter in which the cortical architecture was assumed to be basically uniform within a brain and across mammalian species.

• Toro, R.; Perron, M.; Pike, B.; Richer, L.; Veillette, S.; Pausova, Z.; Paus, T. (2008). "Brain Size and Folding of the Human Cerebral Cortex.". Cereb Cortex: in press. DOI:10.1093/cercor/bhm261. Research Blogging.

• Johnson, K.L.; Nicol, T.; Zecker, S.G.; Kraus, N. (2008). "Developmental Plasticity in the Human Auditory Brainstem". Journal of Neuroscience 28 (15): 4000. DOI:10.1523/JNEUROSCI.0012-08.2008. Research Blogging.

• Bystron, I.; Blakemore, C.; Rakic, P. (2008). "Development of the human cerebral cortex: Boulder Committee revisited". Nature Reviews Neuroscience 9: 110 - 122. DOI:10.1038/nrn2252. Research Blogging.

• Zamir, E.A.; B.J. Rongish & C.D. Little (2008), "The ECM Moves during Primitive Streak Formation—Computation of ECM Versus Cellular Motion", PLoS Biol 6 (10): e247, DOI:10.1371/journal.pbio.0060247 ^[e]

Demonstrates that motion relative to the extracellular matrix rather than cell migration in a strict sense is crucial for embryonic patterning.

• Pang, T.; R. Atefy & V. Sheen (2008), "Malformations of Cortical Development", The Neurologist 14 (3): 181-191, DOI:10.1097/NRL.0b013e31816606b9 ^[e]
• Rakic, P. (2007), "The radial edifice of cortical architecture: from neuronal silhouettes to genetic engineering", Brain Research Reviews 55: 204-219, DOI:10.1016/j.brainresrev.2007.02.010 ^[e]
• Casanova, Manuel F.; Juan Trippe & Andrew Switala (2007), "A Temporal Continuity to the Vertical Organization of the Human Neocortex", Cerebral Cortex 17 (1): 130, DOI:10.1093/cercor/bhj134
• Dehay, Colette & Henry Kennedy (2007), "Cell-cycle control and cortical development", Nature Reviews Neuroscience 8 (6): 438-450, DOI:10.1038/nrn2097 ^[e]
• Feuillet, L.; Dufour, H.; Pelletier, J. (2007). "Brain of a white-collar worker". The Lancet 370 (9583): 262-262. DOI:10.1016/S0140-6736(07)61127-1. Research Blogging.

• Jaaro, H. & M. Fainzilber (2006), "Building Complex Brains-Missing Pieces in an Evolutionary Puzzle", Brain Behav Evol 68 (3): 191–195, DOI:10.1159/000094088 ^[e]
• Molnár, Z.; C. Métin & A. Stoykova et al. (2006), "Comparative aspects of cerebral cortical development", Eur J Neurosci 23 (4): 921–934, DOI:10.1111/j.1460-9568.2006.04611.x ^[e]
• Pollard, Katherine S.; Sofie R. Salama & Nelle Lambert et al. (2006), "An RNA gene expressed during cortical development evolved rapidly in humans", Nature 443 (7108): 167-172, DOI:10.1038/nature05113 ^[e]

1. redirect CZ:Ref:DOI:10.1097/MOP.0b013e328010542d

• Guerrini R, Marini C (2006). "Genetic malformations of cortical development". Exp Brain Res 173 (2): 322-33. DOI:10.1007/s00221-006-0501-z. PMID 16724181. Research Blogging. ^[e]

• Martinez-Cerdeno, Veronica; Stephen C. Noctor & Arnold R. Kriegstein (2006), "The Role of Intermediate Progenitor Cells in the Evolutionary Expansion of the Cerebral Cortex", Cerebral Cortex 16 (Supplement 1): i152, DOI:10.1093/cercor/bhk017 ^[e]
• Lewis, K.E. (2006). "How do genes regulate simple behaviours? Understanding how different neurons in the vertebrate spinal cord are genetically specified". Philos Trans R Soc Lond B Biol Sci 361 (1465): 45-66. DOI:10.1098/rstb.2005.1778. Research Blogging.

• Brain Development Cooperative Group & A.C. Evans (2006), "The NIH MRI study of normal brain development", Neuroimage 30 (1): 184–202, DOI:10.1016/j.neuroimage.2005.09.068 ^[e]
• Toga AW, Thompson PM, Sowell ER (2006). "Mapping brain maturation". Trends Neurosci 29 (3): 148-59. DOI:10.1016/j.tins.2006.01.007. PMID 16472876. Research Blogging. ^[e]

Quote: "Areas with more advanced functions – integrating information from the senses, reasoning and other ‘executive’ functions (e.g. prefrontal cortex) – matured last, in late adolescence. This sequence also provided evidence that phylogenetically older cortical areas mature earlier than the more recently evolved higher-order association cortices, which integrate information from earlier maturing cortex."

• Rakic, P. (2006). "A Century of Progress in Corticoneurogenesis: From Silver Impregnation to Genetic Engineering". Cerebral Cortex 16 (suppl. 1). DOI:10.1093/cercor/bhk036. Research Blogging.

• Malkova, L.; Heuer, E.; Saunders, R.C. (2006). "Longitudinal magnetic resonance imaging study of rhesus monkey brain development". Eur J Neurosci 24: 3204-3212. DOI:10.1111/j.1460-9568.2006.05175.x. Research Blogging.

• Depaepe, Vanessa; Nathalie Suarez-Gonzalez & Audrey Dufour et al. (2005), "Ephrin signalling controls brain size by regulating apoptosis of neural progenitors", Nature 435 (7046): 1244–1250, DOI:10.1038/nature03651 ^[e]
• Gomez, J.C. (2005), "Species comparative studies and cognitive development", Trends Cogn Sci 9 (3): 118–125, DOI:10.1016/j.tics.2005.01.004 ^[e]
• Lüders, E.; Narr, K.L.; Thompson, P.M.; Woods, R.P.; Rex, D.E.; Jäncke, L.; Steinmetz, H.; Toga, A.W. (2005). "Mapping cortical grey matter in the young adult brain: Effects of gender". Neuroimage 26 (2): 493-501. DOI:10.1016/j.neuroimage.2005.02.010. Research Blogging.

• Johnson, M.H.; Munakata, Y. (2005). "Processes of change in brain and cognitive development". Trends in Cognitive Sciences 9 (3): 152-158. DOI:10.1016/j.tics.2005.01.009. Research Blogging.

• Sotelo, C. (2004), "Cellular and genetic regulation of the development of the cerebellar system", Progress in Neurobiology 72 (5): 295–339, DOI:10.1016/j.pneurobio.2004.03.004 ^[e]
• Chklovskii, D.B.; Koulakov, A.A. (2004). "Maps in the brain: what can we learn from them?". Annu Rev Neurosci 27: 369-92. DOI:10.1146/annurev.neuro.27.070203.144226. Research Blogging.

• Dietschy, John M. & Stephen D. Turley (2004), "Cholesterol metabolism in the central nervous system during early development and in the mature animal", Journal of Lipid Research 45 (8): 1375–1397, DOI:10.1194/jlr.R400004-JLR200 ^[e]
• Meulemans, D. & M. Bronner-Fraser (2004), "Gene-Regulatory Interactions in Neural Crest Evolution and Development", Developmental Cell 7 (3): 291–299, DOI:10.1016/j.devcel.2004.08.007 ^[e]
• Lewis, Mark H. (2004), "Environmental complexity and central nervous system development and function", Mental Retardation and Developmental Disabilities Research Reviews 10: 91-95, DOI:10.1002/mrdd.20017 ^[e]
• Keller, R.; L.A. Davidson & D.R. Shook (2003), "How we are shaped: the biomechanics of gastrulation", Differentiation 71 (3): 171–205, DOI:10.1046/j.1432-0436.2003.710301.x
• Fuster, J.M. (2002), "Frontal lobe and cognitive development", Journal of Neurocytology 31 (3): 373–385, DOI:10.1023/A:1024190429920 ^[e]
• Campbell, K. & M. Götz (2002), "Radial glia: multi-purpose cells for vertebrate brain development", Trends in Neurosciences 25 (5): 235–238, DOI:10.1016/S0166-2236(02)02156-2 ^[e]
• Aboitiz, F.; J. Montiel & J. López (2002), "Critical steps in the early evolution of the isocortex: Insights from developmental biology", Brazilian Journal of Medical and Biological Research 35: 1455–1472, DOI:10.1590/S0100-879X2002001200006 ^[e]
• Chenn A, Walsh CA (2002). "Regulation of cerebral cortical size by control of cell cycle exit in neural precursors". Science 297 (5580): 365-9. DOI:10.1126/science.1074192. PMID 12130776. Research Blogging. ^[e]

Demonstrates that neural precursor cells in ß-catenin-transgenic mice undergo more cell divisions before finally differentiating. This resulted in an increase of cortical surface area without an accompanying change in cortical thickness.

• Rakic, P. (2002). "Neurogenesis in adult primate neocortex: an evaluation of the evidence". Nat Rev Neurosci 3 (1): 65-71. DOI:10.1038/nrn700. Research Blogging.

• Nadarajah, B.; J.E. Brunstrom & J. Grutzendler et al. (2001), "Two modes of radial migration in early development of the cerebral cortex", Nature Neuroscience 4: 143–150, DOI:10.1038/83967
• Paus, T.; Collins, D.L.; Evans, A.C.; Leonard, G.; Pike, B.; Zijdenbos, A. (2001). "Maturation of white matter in the human brain: a review of magnetic resonance studies". Brain Research Bulletin 54 (3): 255-266. DOI:10.1016/S0361-9230(00)00434-2. Research Blogging.

• Berardi, N.; Pizzorusso, T.; Maffei, L. (2000). "Critical periods during sensory development". Current Opinion in Neurobiology 10 (1): 138-145. DOI:10.1016/S0959-4388(99)00047-1. Research Blogging.

• Peña-Melian, A. (2000), "Development of human brain", Human Evolution 15 (1): 99–112, DOI:10.1007/BF02436238
• Kornack, David R. & Pasko Rakic (1998), "Changes in cell-cycle kinetics during the development and evolution of primate neocortex", Proceedings of the National Academy of Sciences of the United States of America 95 (3): 1242–1246, DOI:10.1073/pnas.95.3.1242 ^[e]

In comparison to rodents, "...substantially more total rounds of cell division elapsed during the prolonged neurogenetic period of the monkey cortex, providing a basis for increased cell production."

• Van Essen, D.C. (1997). "A tension-based theory of morphogenesis and compact wiring in the central nervous system". Nature 385 (6614): 313-8. DOI:10.1038/385313a0. Research Blogging.

• Giedd, Jay N.; John W. Snell & Nicholas Lange et al. (1996), "Quantitative Magnetic resonance imaging of Human Brain Development: Ages 4-18", Cerebral Cortex 6 (4): 551–559, DOI:10.1093/cercor/6.4.551 ^[e]
• Frank, E. & P. Wenner (1993), "Environmental specification of neuronal connectivity", Neuron 10 (5): 779–785, DOI:10.1016/0896-6273(93)90194-V ^[e]
• Angevine, J. B. & R. L. Sidman (1961), "Autoradiographic Study of Cell Migration during Histogenesis of Cerebral Cortex in the Mouse", Nature 192 (4804): 766-768, DOI:10.1038/192766b0 ^[e]