Brain gyrification in wild and domestic canids: Has domestication changed the gyrification index in domestic dogs?

Autor:	Patrick R. Hof, Johnny Ng, Geoffrey K. Aguirre, Brendon K. Billings, Samson Chengetanai, Rogier B. Mars, Mads Bertelson, Kathleen Bitterman, Victoria X. Wang, Chet C. Sherwood, Jagmeet S. Grewal, Sarah A. Bentil, Tyler Gloe, Cheuk Y. Tang, Benjamin C. Tendler, Joseph Hegedus, Bridget Wicinski, Simon Geletta, Muhammad A. Spocter, Clare Rusbridge, Paul R. Manger
Rok vydání:	2020
Předmět:	0301 basic medicine SCR-007354 [RRID] Quantitative magnetic resonance imaging Animals Wild Biology Grey matter Domestication 03 medical and health sciences domestication 0302 clinical medicine Cognition Dogs Species Specificity SCR-005988 [RRID] medicine Image Processing Computer-Assisted Animals Carnivore Gray Matter Gyrification Canidae canids Cerebral Cortex Brain Mapping Action intention and motor control dogs white matter General Neuroscience scaling evolution gray matter gyrification Brain Cortical Thickness Biological Evolution Magnetic Resonance Imaging White Matter 030104 developmental biology medicine.anatomical_structure Evolutionary biology Cerebral cortex Functional variation 030217 neurology & neurosurgery Regional differences
Zdroj:	Journal of Comparative Neurology, 528, 3209-3228 Grewal, J S, Gloe, T, Hegedus, J, Bitterman, K, Billings, B K, Chengetanai, S, Bentil, S, Wang, V X, Ng, J C, Tang, C Y, Geletta, S, Wicinski, B, Bertelson, M, Tendler, B C, Mars, R B, Aguirre, G K, Rusbridge, C, Hof, P R, Sherwood, C C, Manger, P R & Spocter, M A 2020, ' Brain gyrification in wild and domestic canids : Has domestication changed the gyrification index in domestic dogs? ', Journal of Comparative Neurology, vol. 528, no. 18, pp. 3209-3228 . https://doi.org/10.1002/cne.24972 Journal of Comparative Neurology, 528, 18, pp. 3209-3228
ISSN:	1096-9861 0021-9967
DOI:	10.1002/cne.24972
Popis:	Contains fulltext : 220137.pdf (Publisher’s version ) (Closed access) Over the last 15 years, research on canid cognition has revealed that domestic dogs possess a surprising array of complex socio-cognitive skills pointing to the possibility that the domestication process might have uniquely altered their brains; however, we know very little about how evolutionary processes (natural or artificial) might have modified underlying neural structure to support species-specific behaviors. Evaluating the degree of cortical folding (i.e., gyrification) within canids may prove useful, as this parameter is linked to functional variation of the cerebral cortex. Using quantitative magnetic resonance imaging to investigate the impact of domestication on the canine cortical surface, we compared the gyrification index (GI) in 19 carnivore species, including six wild canid and 13 domestic dog individuals. We also explored correlations between global and local GI with brain mass, cortical thickness, white and grey matter volume and surface area. Our results indicated that GI values for domestic dogs are largely consistent with what would be expected for a canid of their given brain mass, although more variable than that observed in wild canids. We also found that GI in canids is positively correlated with cortical surface area, cortical thickness and total cortical grey matter volumes. While we found no evidence of global differences in GI between domestic and wild canids, certain regional differences in gyrification were observed. 20 p.
Databáze:	OpenAIRE
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