Category:Mouse E10.5

From Embryology
Mouse E10.5

This Embryology category shows pages and media related to mouse embryonic day 10.5 (E10.5) of development. This staging by "days" relate to in the female presence of a vaginal plug indicating that the mating occurred, see timed pregnancy.


Mouse Stages: E1 | E2.5 | E3.0 | E3.5 | E4.5 | E5.0 | E5.5 | E6.0 | E7.0 | E7.5 | E8.0 | E8.5 | E9.0 | E9.5 | E10 | E10.5 | E11 | E11.5 | E12 | E12.5 | E13 | E13.5 | E14 | E14.5 | E15 | E15.5 | E16 | E16.5 | E17 | E18.5 | E18 | E18.5 | E19 | E20 | Timeline | About timed pregnancy


Species Embryonic Comparison Timeline
Carnegie Stage
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
Human Days 1 2-3 4-5 5-6 7-12 13-15 15-17 17-19 20 22 24 28 30 33 36 40 42 44 48 52 54 55 58
Mouse Days 1 2 3 E4.5 E5.0 E6.0 E7.0 E8.0 E9.0 E9.5 E10 E10.5 E11 E11.5 E12 E12.5 E13 E13.5 E14 E14.5 E15 E15.5 E16
Rat Days 1 3.5 4-5 5 6 7.5 8.5 9 10.5 11 11.5 12 12.5 13 13.5 14 14.5 15 15.5 16 16.5 17 17.5
Note these Carnegie stages are only approximate day timings for average of embryos. Links: Carnegie Stage Comparison
Table References  
Human

O'Rahilly R. (1979). Early human development and the chief sources of information on staged human embryos. Eur. J. Obstet. Gynecol. Reprod. Biol. , 9, 273-80. PMID: 400868
Otis EM and Brent R. Equivalent ages in mouse and human embryos. (1954) Anat Rec. 120(1):33-63. PMID 13207763

Mouse
Theiler K. The House Mouse: Atlas of Mouse Development (1972, 1989) Springer-Verlag, NY. Online
OTIS EM & BRENT R. (1954). Equivalent ages in mouse and human embryos. Anat. Rec. , 120, 33-63. PMID: 13207763

Rat
Witschi E. Rat Development. In: Growth Including Reproduction and Morphological Development. (1962) Altman PL. and Dittmer DS. ed. Fed. Am. Soc. Exp. Biol., Washington DC, pp. 304-314.
Pérez-Cano FJ, Franch À, Castellote C & Castell M. (2012). The suckling rat as a model for immunonutrition studies in early life. Clin. Dev. Immunol. , 2012, 537310. PMID: 22899949 DOI.

Timeline Links: human timeline | mouse timeline | mouse detailed timeline | chicken timeline | rat timeline | Medaka | Category:Timeline

mouse

Events

  • neural crest - enteric nervous system cholinergic myenteric neurons appear within even within the migration wavefront of neural precursors.[1]
  • musculoskeletal - dermomyotome visible adjacent to the ectoderm. The mesoderm of the primary body wall was non-compact and coalesced in the ventral midline.[2]
  • respiratory - bronchial branching commences from left and right bronchi.[4]
  • genital
    • First appearance beside the cloacal membrane of a pair of genital swellings.
    • Sry expression starts in somatic cells of XY genital ridges.[5]
  • Thymus Development[6] See also image
    • Hoxa3 (homeobox A3) - E9.5 to E10.5, third cleft surface ectoderm.
    • Pax1 (paired box gene 1) E9.5 to E10.5, all pharyngeal pouch endoderm.
    • Pax9 (paired box gene 9) E9.5 to E10.5, all pharyngeal pouch endoderm.
    • Eya1 (eyes absent 1 homologue ) - Early [[:Category:Mouse E9.5|E9.5 to E10.5, all pharyngeal pouch endoderm, cleft ectoderm and neural crest cell mesenchyme organogenesis.
  • cardiovascular - heart first sign of atrial septation.
  • renal vasculature - endothelial cells grow coordinately with the kidney bud.[7]


References

  1. Erickson CS, Lee SJ, Barlow-Anacker AJ, Druckenbrod NR, Epstein ML & Gosain A. (2014). Appearance of cholinergic myenteric neurons during enteric nervous system development: comparison of different ChAT fluorescent mouse reporter lines. Neurogastroenterol. Motil. , 26, 874-84. PMID: 24712519 DOI.
  2. Nichol PF, Corliss RF, Yamada S, Shiota K & Saijoh Y. (2012). Muscle patterning in mouse and human abdominal wall development and omphalocele specimens of humans. Anat Rec (Hoboken) , 295, 2129-40. PMID: 22976993 DOI.
  3. Akiyama R, Kawakami H, Wong J, Oishi I, Nishinakamura R & Kawakami Y. (2015). Sall4-Gli3 system in early limb progenitors is essential for the development of limb skeletal elements. Proc. Natl. Acad. Sci. U.S.A. , 112, 5075-80. PMID: 25848055 DOI.
  4. Kadzik RS, Cohen ED, Morley MP, Stewart KM, Lu MM & Morrisey EE. (2014). Wnt ligand/Frizzled 2 receptor signaling regulates tube shape and branch-point formation in the lung through control of epithelial cell shape. Proc. Natl. Acad. Sci. U.S.A. , 111, 12444-9. PMID: 25114215 DOI.
  5. de Lau WB, Snel B & Clevers HC. (2012). The R-spondin protein family. Genome Biol. , 13, 242. PMID: 22439850 DOI.
  6. Blackburn CC & Manley NR. (2004). Developing a new paradigm for thymus organogenesis. Nat. Rev. Immunol. , 4, 278-89. PMID: 15057786 DOI.
  7. Daniel E, Azizoglu DB, Ryan AR, Walji TA, Chaney CP, Sutton GI, Carroll TJ, Marciano DK & Cleaver O. (2018). Spatiotemporal heterogeneity and patterning of developing renal blood vessels. Angiogenesis , 21, 617-634. PMID: 29627966 DOI.

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Media in category ‘Mouse E10.5’

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