TY - JOUR
T1 - Pyramidal neurones in macaque visual cortex
T2 - Interareal phenotypic variation of dendritic branching patterns
AU - Jelinek, Herbert F.
AU - Elston, Guy N.
N1 - Funding Information:
We would like to thank Dr. David Vaney for generously allowing access to his intracellular injection laboratory and Dr. David Pow for providing his antibody to Lucifer Yellow. Tissue was kindly provided by Prof. Jack Pettigrew, and Dr’s Marcello Rosa and Souyma Ghosh. We would also like to thank Dr. Marcello Rosa for comments on a previous version of the manuscript and Cherryl Kolbe and Blanca Hern andez Charro for technical assistance. Supported by a CSU Faculty Seed Grant (HJ) and a CJ Martin Fellowship (GNE) and grant (990007) from the National Health and Medical Research Council of Australia.
PY - 2001/9
Y1 - 2001/9
N2 - The basal dendritic arbors of over 500-layer III pyramidal neurones of the macaque cortex were compared by fractal analyses, which provides a measure of the space filling (or branching pattern) of dendritic arbors. Fractal values (D) of individual cells were compared between the cytochrome oxidase (CO)-rich blobs and CO-poor interblobs of middle and upper layer III, and between sublaminae, in the primary visual area (V1). These data were compared with those in the CO compartments in the second visual area (V2), and seven other extrastriate cortical areas (V4, MT, LIP, 7a, TEO, TE and STP). There were significant differences in the fractal dimensions, and therefore the dendritic branching patterns, of cells in striate and extrastriate areas. Of the 55 possible pairwise comparisons of fractal dimension of neurones in different cortical areas (or CO compartments), 39 proved to be significantly different. The markedly different morphologies of pyramidal cells in the different cortical areas may be one of the features that determine the functional signatures of these cells by influencing the number of inputs received by, and propagation of potentials through, their dendritic arbors.
AB - The basal dendritic arbors of over 500-layer III pyramidal neurones of the macaque cortex were compared by fractal analyses, which provides a measure of the space filling (or branching pattern) of dendritic arbors. Fractal values (D) of individual cells were compared between the cytochrome oxidase (CO)-rich blobs and CO-poor interblobs of middle and upper layer III, and between sublaminae, in the primary visual area (V1). These data were compared with those in the CO compartments in the second visual area (V2), and seven other extrastriate cortical areas (V4, MT, LIP, 7a, TEO, TE and STP). There were significant differences in the fractal dimensions, and therefore the dendritic branching patterns, of cells in striate and extrastriate areas. Of the 55 possible pairwise comparisons of fractal dimension of neurones in different cortical areas (or CO compartments), 39 proved to be significantly different. The markedly different morphologies of pyramidal cells in the different cortical areas may be one of the features that determine the functional signatures of these cells by influencing the number of inputs received by, and propagation of potentials through, their dendritic arbors.
UR - https://www.scopus.com/pages/publications/0012022689
U2 - 10.1142/S0218348X01000725
DO - 10.1142/S0218348X01000725
M3 - Article
AN - SCOPUS:0012022689
SN - 0218-348X
VL - 9
SP - 287
EP - 295
JO - Fractals
JF - Fractals
IS - 3
ER -