CORTICAL SPECIFICATION OF MICE AND MEN

被引:83
作者
KENNEDY, H
DEHAY, C
机构
[1] INSERM U371 Cerveau et Vision, Bron
关键词
D O I
10.1093/cercor/3.3.171
中图分类号
Q189 [神经科学];
学科分类号
071006 ;
摘要
The developmental basis for the localization of function in the mammalian cortex remains a controversial issue. The newly formed rodent cortex displays a considerable uniformity in terms of its connectivity. This contrast with the primate, where even the first formed connections can show a high degree of areal specificity An important clue to understanding these species differences can be obtained by examining how and when the sensory periphery exerts its organizing influence on the developing cortex. In rodents the developmental timetable ensures that the organizational control of the periphery persists late in development, when neurons are forming their first connections. By contrast, in primates the late onset and prolonged duration of corticogenesis result in the periphery being able to exert its influence much earlier, during the phase of precursor proliferation. Differences and similarities between primate and rodent corticogenesis are highly informative. In rodents, recent results with molecular markers show that regional differences in developmental potential exist in the cerebral cortex before innervation from the periphery. Similar findings are predicted in primates. It is to be expected that a more complete understanding of the rules governing the emergence of distinct conical areas will come from resolving how afferent specification acts within the confines of such regional specializations.
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页码:171 / 186
页数:16
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共 153 条
[61]  
HABERLAND C, 1969, J NEUROPATH EXP NEUR, V28, P337
[62]  
HEUMANN D, 1980, EXP BRAIN RES, V38, P75
[63]   GENESIS OF NEURONS IN THE DORSAL LATERAL GENICULATE-NUCLEUS OF THE CAT [J].
HICKEY, TL ;
HITCHCOCK, PF .
JOURNAL OF COMPARATIVE NEUROLOGY, 1984, 228 (02) :186-199
[64]  
HORTON HL, 1988, J NEUROSCI, V8, P4653
[65]   EXUBERANT PROJECTION INTO CORPUS-CALLOSUM FROM VISUAL-CORTEX OF NEWBORN CATS [J].
INNOCENTI, GM ;
FIORE, L ;
CAMINITI, R .
NEUROSCIENCE LETTERS, 1977, 4 (05) :237-242
[66]   BILATERAL TRANSITORY PROJECTION TO VISUAL AREAS FROM AUDITORY-CORTEX IN KITTENS [J].
INNOCENTI, GM ;
CLARKE, S .
DEVELOPMENTAL BRAIN RESEARCH, 1984, 14 (01) :143-148
[67]  
Innocenti GM, 1986, CEREB CORTEX, DOI DOI 10.1007/978-1-4613-2149-1_9
[68]   DIFFERENTIAL DISTRIBUTION OF CALLOSAL PROJECTION NEURONS IN THE NEONATAL AND ADULT-RAT [J].
IVY, GO ;
AKERS, RM ;
KILLACKEY, HP .
BRAIN RESEARCH, 1979, 173 (03) :532-537
[69]   MOUSE SOMATOSENSORY CORTEX - ALTERATIONS IN THE BARRELFIELD FOLLOWING RECEPTOR INJURY AT DIFFERENT EARLY POSTNATAL AGES [J].
JEANMONOD, D ;
RICE, FL ;
VANDERLOOS, H .
NEUROSCIENCE, 1981, 6 (08) :1503-1535
[70]   THALAMIC PROJECTION TO CORTICAL AREA-17 IN A CONGENITALLY ANOPHTHALMIC MOUSE STRAIN [J].
KAISERMANABRAMOF, IR ;
GRAYBIEL, AM ;
NAUTA, WJH .
NEUROSCIENCE, 1980, 5 (01) :41-52