Desarrollo perinatal del cerebro
67
and Eriksson, P. S. (2007) Human neuroblasts migrate to the olfactory bulb via a lateral
ventricular extension. Science, 315, 1243-‐1249.
7.
Elul, R., Hanley, J. and Simmons, J. I. (1975) Non-‐Gaussian behavior of the EEG in Down's
syndrome suggests decreased neuronal connections. Acta Neurol. Scand., 51, 21-‐28.
8.
Evans, P. D., Anderson, J. R., Vallender, E. J., Choi, S. S. and Lahn, B. T. (2004) Reconstructing
the evolutionary history of microcephalin, a gene controlling human brain size. Hum Mol
Genet, 13, 1139-‐1145.
9.
Evans, P. D., Gilbert, S. L., Mekel-‐Bobrov, N., Vallender, E. J., Anderson, J. R., Vaez-‐Azizi, L. M.,
Tishkoff, S. A., Hudson, R. R. and Lahn, B. T. (2005) Microcephalin, a gene regulating brain
size, continues to evolve adaptively in humans. Science, 309, 1717-‐1720.
10.
Francis, F., Koulakoff, A., Boucher, D. Chafey, P., Schaar, B., Vinet, M. C., Friocourt, G.,
McDonnell, N., Reiner, O., Kahn, A., McConnell, S. K., Berwald-‐Netter, Y., Denoulet, P. and
Chelly, J. (1999) Doublecortin is a developmentally regulated, microtubule-‐associated
protein expressed in migrating and differentiating neurons. Neuron, 23, 247-‐256.
11.
Gilbert, S. L., Dobyns, W. B. and Lahn, B. T. (2005) Genetic links between brain development
and brain evolution. Nat Rev Genet, 6, 581-‐590
12.
Gould, S. J. (1977) Ever Since Darwin: Reflections in Natural History. Penguin, London.
13.
Granda, B., Tabernero, A., Tello, V. and Medina, J. M. (2003) Oleic acid induces GAP-‐43
expression through a protein kinase C-‐mediated mechanism that is independent of NGF
but synergistic with NT-‐3 and NT-‐4/5. Brain Res, 988, 1-‐8.
14.
Johnson, M. H. (2001) Functional brain development in humans. Nature Rev. Neurosci., 2,
475-‐483.
15.
Kantarci, S., Al-‐Gazali, L., Hill, R. S., Donnai, D., Black, G. C. M., Bieth, E., Chassaing, N.,
Lacombe, D., Devriendt, K., Teebi, A., Loscertales, M., Robson, C., Liu, T., MacLaughlin, D.T.,
Noonan, K. M., Russell, M. K., Walsh, C. A., Donahoe, P. K. and Pober, B. R. (2007) Mutations
in LRP2, which encodes the multiligand receptor megalin, cause Donnai-‐Barrow and facio-‐
oculo-‐acoustico-‐renal syndromes. Nat Genet, 39, 957-‐959.
16.
Kostovic, I., Lukinovic, N., Judas, M., Bogdanovic, N., Mrzljak, L., Zecevic, N. and Kubat, M.
(1989) Structural basis of the developmental plasticity in the human cerebral cortex: The
role of the transient subplate zone. Metabol. Brain Disease, 4, 17-‐23.
17.
Le Magueresse, C., Alfonso, J., Bark, C., Eliava, M., Khrulev, S. and Monyer, H. (2012)
Subventricular zone-‐derived neuroblasts use vasculature as a scaffold to migrate radially
to the cortex in neonatal mice. Cereb Cortex, 22, 2285-‐2296.
18.
Martoncikova, M., Racekova, E. and Orendacova, J. (2006) The number of proliferating cells
in the rostral migratory stream of rat during the first postnatal month. Cell Mol Neurobiol,
26, 1453-‐1461.
19.
Medina, J. M. (2002) Origen neoténico de la mente. Gráficas Cervantes S.A., Salamanca.
20.
Medina, J. M. and Tabernero, A. (2002) Astrocyte-‐synthesized oleic acid behaves as a
neurotrophic factor for neurons. J Physiol Paris, 96, 265-‐271.
21.
Mekel-‐Bobrov, N., Gilbert, S. L., Evans, P. D., Vallender, E. J., Anderson, J. R., Hudson, R. R.,
Tishkoff, S. A. and Lahn, B. T. (2005) Ongoing adaptive evolution of ASPM, a brain size
determinant in Homo sapiens. Science, 309, 1720-‐1722.
22.
Merkle, F. T., Tramontin, A. D., García-‐Verdugo, J. M. and Álvarez-‐Buylla, A. (2004) Radial
glia give rise to adult neural stem cells in the subventricular zone. Proc Natl Acad Sci U S A,
101, 17528-‐17532.
23.
Meyer, G., Goffinet, A. M. and Fairen, A. (1999) What is a Cajal-‐Retzius cell? A reassessment
of a classical cell type based on recent observations in the developing neocortex. Cereb
Cortex, 9, 765-‐775.
24.
Milner, R. (1995) Diccionario de la evolución. Bibliograf S.A., Barcelona.
25.
Morgan, S. (1979) Development and distribution of intellectual and adaptative skills in
Down syndrome children: Implications for early intervention. Ment Retard., 17, 247-‐249.
26.
Polo-‐Hernández, E., De Castro, F., García-‐Garcia, A. G., Tabernero, A. and Medina, J. M.
(2010) Oleic acid synthesized in the periventricular zone promotes axonogenesis in the
striatum during brain development. J Neurochem, 114, 1756-‐1766.
27.
Quiñones-‐Hinojosa, A., Sanai, N., Soriano-‐Navarro, M., González-‐Pérez, O., Mirzadeh, Z., Gil-‐
Perotin, S., Romero-‐Rodriguez, R., Berger, M. S., García-‐Verdugo, J. M. and Álvarez-‐Buylla, A.
(2006) Cellular composition and cytoarchitecture of the adult human subventricular zone:
a niche of neural stem cells. J Comp Neurol, 494, 415-‐434.
