18
Altman J. (2011). The discovery of adult mammalian neurogenesis // Neurogenesis in the adult brain I. Springer Japan. P. 3–46. doi: 10.1007/ 978-4-431- 53933-9_1
19
Somjen G.G. (1988). Nervenkitt: notes on the history of the concept of neuroglia // Glia, 1. P. 2–9.
20
Delbrück M. (1935). Über die Natur der Genmutationen und der Genstruktur. Dritter Teil. Atomphysicalisches Modell der Genmutation // Nachrichten von der Königl. Gesellschaft der Wissenschaften und der Georg-Augusts-Universität zu Göttingen. Math-phys. Klasse. doi: 10.1007/BF00623570.pdf
21
Cajal S.R., May R.M. (1928). Degeneration & regeneration of the nervous system. Vol. 1. London.
22
Cajal S. (1894). The Croonian Lecture: La fine structure des centres nerveux// Proceedings of the Royal Society of London, 55. P. 444–468.
23
Jessberger S. et al. (2009). Dentate gyrus-specific knockdown of adult neurogenesis impairs spatial and object recognition memory in adult rats // Learning and Memory, 16. P. 147–154.
24
Kaplan M.S., Hinds J. W. (1977). Neurogenesis in the adult rat: electron microscopic analysis of light radioautographs // Science, 197. P.1092–1094.
25
Kaplan M.S. (2001). Environment complexity stimulates visual cortex neurogenesis: death of a dogma and a research career // Trends in Neurosciences, 24. P. 617–620.
26
Stanfield B.B., Trice J.E. (1988). Evidence that granule cells generated in the dentate gyrus of adult rats extend axonal projections // Experimental Brain Research, 72. P. 399–406.
27
Работы были выполнены на взрослых мышах. См.: Reynolds B. A., Weiss S. (1992, Marсh 27). Generation of neurons and astrocytes from isolated cells of the adult mammalian central nervous system // Science, 255 (5052). P. 1707–1710.