Modeling transformations of neurodevelopmental sequences across mammalian species

A general model of neural development is derived to fit 18 mammalian species, including humans, macaques, several rodent species, and six metatherian (marsupial) mammals. The goal of this work is to describe heterochronic changes in brain evolution within its basic developmental allometry, and provi...

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Bibliographic Details
Published in:The Journal of neuroscience 2013-04, Vol.33 (17), p.7368-7383
Main Authors: Workman, Alan D, Charvet, Christine J, Clancy, Barbara, Darlington, Richard B, Finlay, Barbara L
Format: Article
Language:English
Subjects:
Animals
Biological Evolution
Brain - cytology
Brain - growth & development
Cats
Cricetinae
Ferrets
Gerbillinae
Guinea Pigs
Humans
Macaca
Macropodidae
Mice
Models, Neurological
Neurogenesis - physiology
Rabbits
Rats
Sheep
Species Specificity
Trichosurus
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Summary:A general model of neural development is derived to fit 18 mammalian species, including humans, macaques, several rodent species, and six metatherian (marsupial) mammals. The goal of this work is to describe heterochronic changes in brain evolution within its basic developmental allometry, and provide an empirical basis to recognize equivalent maturational states across animals. The empirical data generating the model comprises 271 developmental events, including measures of initial neurogenesis, axon extension, establishment, and refinement of connectivity, as well as later events such as myelin formation, growth of brain volume, and early behavioral milestones, to the third year of human postnatal life. The progress of neural events across species is sufficiently predictable that a single model can be used to predict the timing of all events in all species, with a correlation of modeled values to empirical data of 0.9929. Each species' rate of progress through the event scale, described by a regression equation predicting duration of development in days, is highly correlated with adult brain size. Neural heterochrony can be seen in selective delay of retinogenesis in the cat, associated with greater numbers of rods in its retina, and delay of corticogenesis in all species but rodents and the rabbit, associated with relatively larger cortices in species with delay. Unexpectedly, precocial mammals (those unusually mature at birth) delay the onset of first neurogenesis but then progress rapidly through remaining developmental events.
ISSN:0270-6474
1529-2401
1529-2401
DOI:10.1523/jneurosci.5746-12.2013