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- Species
- Macaca mulatta
- Family
- Cercopithecidae
- Order
- Primates
- Gestation
- 165 days
Dates in days
Day | Event | Reference |
---|---|---|
30 | retinal ganglion cell generation - start of neurogenesis | Robinson and Dreher (1990) |
30 | magnocellular basal forebrain - peak of neurogenesis | Finlay and Darlington (1995) |
30 | superficial superior collicus (SC) laminae - start of neurogenesis | Robinson and Dreher (1990) |
30 | raphe complex - peak of neurogenesis | Finlay and Darlington (1995) |
32 | locus coeruleus - peak of neurogenesis | Finlay and Darlington (1995) |
35 | posterior commissure appears | Ashwell et al. (1996) |
35.5 | medial forebrain bundle appears | Ashwell et al. (1996) |
36 | dorsal lateral geniculate nucleus (dLGN)- start of neurogenesis | Robinson and Dreher (1990) |
36 | optic axons at chiasm of optic tract | Dunlop et al. (1997) |
38 | deep cerebellar nuclei - peak of neurogenesis | Finlay and Darlington (1995) |
38 | amygdala - peak of neurogenesis | Finlay and Darlington (1995) |
39 | Purkinje cells - peak of neurogenesis | Finlay and Darlington (1995) |
39 | substantia nigra - peak of neurogenesis | Finlay and Darlington (1995) |
39.5 | subplate - start of neurogenesis | Robinson and Dreher (1990) |
39.5 | subplate -start of neurogenesis | Robinson and Dreher (1990) |
40 | internal capsule appears | Ashwell et al. (1996) |
40 | external capsule appears | Ashwell et al. (1996) |
40 | fasciculus retroflexus appears | Ashwell et al. (1996) |
40 | retinal horizontal cells - peak of neurogenesis | Finlay and Darlington (1995) |
41 | superior colliculus - peak of neurogenesis | Finlay and Darlington (1995) |
43 | subplate - peak of neurogenesis | Finlay and Darlington (1995) |
43 | dLGN -peak of neurogenesis | Finlay and Darlington (1995) |
43 | dLGN- end of neurogenesis | Robinson and Dreher (1990) |
43 | retinal ganglion cells - peak of neurogenesis | Finlay and Darlington (1995) |
43 | inferior colliculus - peak of neurogenesis | Finlay and Darlington (1995) |
45 | neurogenesis cortical layer VI - start (VC) of neurogenesis | Robinson and Dreher (1990) |
45 | septal nuclei - peak of neurogenesis | Finlay and Darlington (1995) |
45 | caudoputamen – peak of neurogenesis | Finlay and Darlington (1995) |
45 | nucleus accumbens - peak of neurogenesis | Finlay and Darlington (1995) |
48 | stria medullaris thalami appears | Ashwell et al. (1996) |
48 | subplate - end of neurogenesis | Robinson and Dreher (1990) |
48 | entorhinal cortex - peak of neurogenesis | Finlay and Darlington (1995) |
48 | subiculum – peak of neurogenesis | Finlay and Darlington (1995) |
48 | parasubiculum – peak of neurogenesis | Finlay and Darlington (1995) |
48 | fornix appears | Ashwell et al. (1996) |
48 | presubiculum – peak of neurogenesis | Finlay and Darlington (1995) |
48 | dentate gyrus of hippocampus - peak of neurogenesis | Finlay and Darlington (1995) |
48 | anterior commissure appears | Ashwell et al. (1996) |
48 | CA 1, CA 2 of hippocampus - peak of neurogenesis | Finlay and Darlington (1995) |
53 | neurogenesis cortical layer VI - peak (VC) of neurogenesis | Finlay and Darlington (1995) |
56 | superficial SC laminae - end of neurogenesis | Robinson and Dreher (1990) |
56 | cones - peak of neurogenesis | Finlay and Darlington (1995) |
56 | retinal amacrine cells - peak of neurogenesis | Finlay and Darlington (1995) |
57 | retinal ganglion cell generation - end of neurogenesis | Robinson and Dreher (1990) |
58.5 | neurogenesis cortical layer V - start (VC) of neurogenesis | Robinson and Dreher (1990) |
65 | neurogenesis cortical lamina VI - end (VC) of neurogenesis | Robinson and Dreher (1990) |
67 | cortical axons reach dLGN | Robinson and Dreher (1990) |
69 | optic nerve axon number - peak of neurogenesis | Robinson and Dreher (1990) |
70 | neurogenesis cortical layer V - peak (VC) of neurogenesis | Finlay and Darlington (1995) |
70 | neurogenesis cortical lamina IV - start (VC) of neurogenesis | Robinson and Dreher (1990) |
75 | neurogenesis cortical layer V - end (VC) of neurogenesis | Robinson and Dreher (1990) |
78 | LGN axons in subplate | Robinson and Dreher (1990) |
80 | neurogenesis cortical layer IV - peak (VC) of neurogenesis | Finlay and Darlington (1995) |
81.5 | cortical axons innervate dLGN | Robinson and Dreher (1990) |
85 | neurogenesis cortical layer IV - end (VC) of neurogenesis | Robinson and Dreher (1990) |
85 | rods - peak of neurogenesis | Finlay and Darlington (1995) |
85 | retinal bipolar cells - peak of neurogenesis | Finlay and Darlington (1995) |
85.5 | neurogenesis cortical layer II/III - start (VC) of neurogenesis | Rakic (1974) |
86 | superficial SC - start of lamination | Robinson and Dreher (1990) |
87 | ipsi/contra segregation in LGN and SC | Robinson and Dreher (1990) |
90 | neurogenesis cortical layer II /III - peak (VC) of neurogenesis | Finlay and Darlington (1995) |
91 | LGN axons in cortical layer IV | Robinson and Dreher (1990) |
96 | adult-like cortical innervation of dLGN | Robinson and Dreher (1990) |
96 | visual cortical axons in SC | Robinson and Dreher (1990) |
100 | neurogenesis cortical layer II/III - end (VC) of neurogenesis | Rakic (1974) |
110 | rapid axon loss in optic nerve ends | Robinson and Dreher (1990) |
123 | eye opening | Ashwell et al. (1996); Dunlop et al. (1997); Robinson and Dreher (1990) |
References
- Ashwell, K.W., Waite, P.M. and Marotte, L., 1996. Ontogeny of the projection tracts and commissural fibres in the forebrain of the tammar wallaby (Macropus eugenii): timing in comparison with other mammals. Brain Behav. Evol. 47, pp. 8–22.
- Clancy, B., Kersh, B., Hyde, J., Darlington, R.B., Anand, K.J.S., Finlay, B.L., 2007. Web-Based Method For Translating Neurodevelopment From Laboratory Species To Humans. Neuroinformatics. 5, pp. 79-94.
- Dunlop, S.A., Tee, L.B., Lund, R.D. and Beazley, L.D., 1997. Development of primary visual projections occurs entirely postnatally in the fat-tailed dunnart, a marsupial mouse, Sminthopsis crassicaudata. J. Comp. Neurol. 384, pp. 26–40.
- Finlay, B.L. and Darlington, R.B., 1995. Linked regularities in the development and evolution of mammalian brains. Science 268, pp. 1578–1584.
- Rakic, P., 1974. Neurons in rhesus monkey visual cortex: systematic relation between time of origin and eventual disposition. Science 183, pp. 425–427.
- Robinson, S.R. and Dreher, B., 1990. The visual pathways of eutherian mammals and marsupials develop according to a common timetable. Brain Behav. Evol. 36, pp. 177–195.
See also
- Brain development timelines
- Neural development
- http://www.translatingtime.net Translating Time: A website providing translation of brain developmental times among different species