Jump to content

Mouse brain development timeline

From Wikipedia, the free encyclopedia

The house mouse (Mus musculus) has a gestation period of 19 to 21 days. Key events in mouse brain development occur both before and after birth, beginning with peak neurogenesis of the cranial motor nuclei 9 days after conception, up to eye opening which occurs after birth and about 30 days after conception.

Stages in brain development

[edit]
Days post conception Event Reference
9 cranial motor nuclei - peak of neurogenesis Finlay and Darlington (1995)
10 subplate -start of neurogenesis Bayer and Altman (1991)
10 inferior olivary nucleus - peak of neurogenesis Finlay and Darlington (1995)
10.5 retinal ganglion cell generation - start of neurogenesis Robinson and Dreher (1990)
10.5 superficial superior colliculus (SC) laminae- start of neurogenesis Robinson and Dreher (1990)
10.5 dorsal lateral geniculate nucleus (dLGN) - start of neurogenesis Robinson and Dreher (1990)
10.5 Purkinje cells - peak of neurogenesis Finlay and Darlington (1995)
11 cranial sensory nuclei - peak of neurogenesis Finlay and Darlington (1995)
11 subplate - peak of neurogenesis Finlay and Darlington (1995)
11 reticular nuclei - peak of neurogenesis Finlay and Darlington (1995)
11 medial geniculate nucleus - peak of neurogenesis Finlay and Darlington (1995)
11 globus pallidus - peak of neurogenesis Finlay and Darlington (1995)
11.5 ventral LGN - peak of neurogenesis Finlay and Darlington (1995)
12 dLGN - peak of neurogenesis Finlay and Darlington (1995)
12 cochlear nuclei - peak of neurogenesis Finlay and Darlington (1995)
12 mitral cells - peak of neurogenesis Finlay and Darlington (1995)
12 amygdala - peak of neurogenesis Finlay and Darlington (1995)
12 subplate - end of neurogenesis Bayer and Altman (1991)
12.3 axons in optic stalk Dunlop et al. (1997)
12.5 ventral posterior nucleus (VP) and ventrobasal nucleus (VB) of the thalamus - peak of neurogenesis Finlay and Darlington (1995)
12.5 nucleus of lateral olfactory tract - peak of neurogenesis Finlay and Darlington (1995)
12.5 claustrum - peak of neurogenesis Finlay and Darlington (1995)
12.5 neurogenesis cortical layer VI - peak (VC) of neurogenesis Finlay and Darlington (1995)
12.5 dLGN- end of neurogenesis Robinson and Dreher (1990)
12.5 preoptic nucleus - peak of neurogenesis Finlay and Darlington (1995)
13 medial forebrain bundle appears Ashwell et al. (1996)
13 suprachiasmatic nucleus - peak of neurogenesis Finlay and Darlington (1995)
13 optic axons at chiasm of optic tract Dunlop et al. (1997)
13 superior colliculus - peak of neurogenesis Finlay and Darlington (1995)
13 retinal ganglion cells - peak of neurogenesis Finlay and Darlington (1995)
13 septal nuclei - peak of neurogenesis Finlay and Darlington (1995)
13 entorhinal cortex - peak of neurogenesis Finlay and Darlington (1995)
13 subiculum – peak of neurogenesis Finlay and Darlington (1995)
13 neurogenesis cortical layer V - peak (VC) of neurogenesis Finlay and Darlington (1995)
13 neurogenesis cortical lamina VI - end (VC) of neurogenesis Caviness (1982)
13.5 raphe complex - peak of neurogenesis Finlay and Darlington (1995)
13.5 anterior olfactory nucleus - peak of neurogenesis Finlay and Darlington (1995)
13.5 anteroventral (AV), anterodorsal (AD) and anteromedial (AM) thalamic nuclei - peak of neurogenesis Finlay and Darlington (1995)
13.5 pontine nuclei – peak of neurogenesis Finlay and Darlington (1995)
13.5 parasubiculum – peak of neurogenesis Finlay and Darlington (1995)
13.5 stria terminalis appears Ashwell et al. (1996)
13.5 presubiculum – peak of neurogenesis Finlay and Darlington (1995)
14 fasciculus retroflexus appears Finlay and Darlington (1995)
14 caudoputamen – peak of neurogenesis Finlay and Darlington (1995)
14 superficial SC laminae - end of neurogenesis Robinson and Dreher (1990)
14 fornix appears Ashwell et al. (1996)
14 cones - peak of neurogenesis Finlay and Darlington (1995)
14 neurogenesis cortical layer V - end (VC) of neurogenesis Caviness (1982)
14.5 optic axons reach dLGN and SC Robinson and Dreher (1990)
14.5 anterior commissure appears Ashwell et al. (1996)
15 neurogenesis cortical lamina IV - start (VC) of neurogenesis Caviness (1982)
15 CA 1, CA 2 of hippocampus - peak of neurogenesis Finlay and Darlington (1995)
15 retinal amacrine cells - peak of neurogenesis Finlay and Darlington (1995)
15 hippocampal commissure appears Ashwell et al. (1996)
15 neurogenesis cortical layer II /III - peak (VC) of neurogenesis Finlay and Darlington (1995)
15.5 optic axons invade visual centers Dunlop et al. (1997)
16 nucleus accumbens - peak of neurogenesis Finlay and Darlington (1995)
16 tufted cells - peak of neurogenesis Finlay and Darlington (1995)
16 isles of Calleja - peak of neurogenesis Finlay and Darlington (1995)
17 neurogenesis cortical layer IV - peak (VC) of neurogenesis Caviness (1982)
17 corpus callosum appears Ashwell et al. (1996)
17 neurogenesis cortical layer IV - end (VC) of neurogenesis Bayer and Altman (1991)
18.5 retinal ganglion cell generation - end of neurogenesis Robinson and Dreher (1990)
19 initial differentiation of layer V (S1) Finlay and Darlington (1995)
19 rods - peak of neurogenesis Finlay and Darlington (1995)
21 complete separation of layer V (S1) Rice et al. (1985)
22 onset of barrels (S1) Rice et al. (1985)
22 onset of sublayers in layer V (S1) Rice et al. (1985)
22 onset of trilaminar plate (S1) Rice et al. (1985)
24 onset of barrel field septa (S1) Rice et al. (1985)
25.5 ipsi/contra segregation in LGN and SC Robinson and Dreher (1990)
30 eye opening Dunlop et al. (1997)

References

[edit]
  • Ashwell, K.W.S.; Waite, P.M.E.; 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, Behavior and Evolution. 47 (1). S. Karger AG: 8–22. doi:10.1159/000113225. ISSN 0006-8977. PMID 8834781.
  • 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.; 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 (1): 26–40. doi:10.1002/(sici)1096-9861(19970721)384:1<26::aid-cne2>3.0.co;2-n. PMID 9214538. S2CID 38381685.
  • Finlay, BL; Darlington, RB (1995-06-16). "Linked regularities in the development and evolution of mammalian brains". Science. 268 (5217): 1578–84. Bibcode:1995Sci...268.1578F. doi:10.1126/science.7777856. ISSN 0036-8075. PMID 7777856.
  • Robinson, Stephen R.; Dreher, Bogdan (1990). "The Visual Pathways of Eutherian Mammals and Marsupials Develop According to a Common Timetable". Brain, Behavior and Evolution. 36 (4). S. Karger AG: 177–195. doi:10.1159/000115306. ISSN 1421-9743. PMID 2279233.

See also

[edit]
pFad - Phonifier reborn

Pfad - The Proxy pFad of © 2024 Garber Painting. All rights reserved.

Note: This service is not intended for secure transactions such as banking, social media, email, or purchasing. Use at your own risk. We assume no liability whatsoever for broken pages.


Alternative Proxies:

Alternative Proxy

pFad Proxy

pFad v3 Proxy

pFad v4 Proxy