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[[File:Adrenal and gonad early development.jpg]]
Adrenal and gonad early development<ref name=PMID14594453><pubmed>14594453</pubmed></ref>


==Early Mouse Expression==
==Early Mouse Expression==

Revision as of 12:05, 30 January 2018

Embryology - 28 Mar 2024    Facebook link Pinterest link Twitter link  Expand to Translate  
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Introduction

Mouse (E10.5) Sox10 expression[1]

The SRY (480000) and SOX proteins share a DNA-binding domain known as the HMG box, defined by a 79-amino acid region.


All SOX proteins have a single HMG box and bind linear DNA (transcription factor) in a sequence-specific manner, resulting in the bending of DNA through large angles. Bending causes the DNA helix to open for some distance, which may affect binding and interactions of other transcription factors. SOX1, SOX2 (184429), and SOX3 (313430) show the closest homology to SRY. They share maximum homology within the HMG domain and are expressed mainly in the developing nervous system of the mouse (Collignon et al., 1996). These genes share significant homology outside the HMG box also and are highly conserved throughout their evolution.


Sox2 is first expressed in very early (morula, blastocyst) development, and has also been identified as one of the 4 "Yamanaka Factors" required to generate an induced pluripotential stem cell (iPS cell). It also forms a trimeric complex with OCT4, yet another "Yamanaka Factor".


Mammals have 20 different SOX proteins that can be subdivided into 8 groups: A, B1, B2, C, D, E, F, G, H.

Sox Links: Sox transcription factors cartoon | Image 1 - Preimplantation Mouse | Image 2 - Preimplantation Mouse | Image 3 - Preimplantation Mouse | Sox | Induced Stem Cells | Yamanaka Factors


Factor Links: AMH | hCG | BMP | sonic hedgehog | bHLH | HOX | FGF | FOX | Hippo | LIM | Nanog | NGF | Nodal | Notch | PAX | retinoic acid | SIX | Slit2/Robo1 | SOX | TBX | TGF-beta | VEGF | WNT | Category:Molecular

Some Recent Findings

  • Distinct SoxB1 networks are required for naïve and primed pluripotency[2] "Deletion of Sox2 from mouse embryonic stem cells (ESCs) causes trophectodermal differentiation. While this can be prevented by enforced expression of the related SOXB1 proteins, SOX1 or SOX3, the roles of SOXB1 proteins in epiblast stem cell (EpiSC) pluripotency are unknown. Here, we show that Sox2 can be deleted from EpiSCs with impunity. This is due to a shift in the balance of SoxB1 expression in EpiSCs, which have decreased Sox2 and increased Sox3 compared to ESCs. Consistent with functional redundancy, Sox3 can also be deleted from EpiSCs without eliminating self-renewal. However, deletion of both Sox2 and Sox3 prevents self-renewal. The overall SOXB1 levels in ESCs affect differentiation choices: neural differentiation of Sox2 heterozygous ESCs is compromised, while increased SOXB1 levels divert the ESC to EpiSC transition towards neural differentiation. Therefore, optimal SOXB1 levels are critical for each pluripotent state and for cell fate decisions during exit from naïve pluripotency." Stem Cells
  • Long-term expandable SOX9+ chondrogenic ectomesenchymal cells from human pluripotent stem cells[3] "Here we report the successful generation and long-term expansion of SOX9-expressing CD271(+)PDGFRα(+)CD73(+) chondrogenic ectomesenchymal cells from the PAX3/SOX10/FOXD3-expressing MIXL1(-)CD271(hi)PDGFRα(lo)CD73(-) neural crest-like progeny of human pluripotent stem cells in a chemically defined medium supplemented with Nodal/Activin/transforming growth factorβ (TGFβ) inhibitor and fibroblast growth factor (FGF). When "primed" with TGFβ, such cells efficiently formed translucent cartilage particles, which were completely mineralized in 12 weeks in immunocompromized mice." Cartilage Development
  • Just how conserved is vertebrate sex determination?[4] "Sex determination in vertebrate embryos has long been equated with gonadal differentiation into testes or ovaries. This view has been challenged over the years by reports of somatic sexual dimorphisms pre-dating gonadal sex differentiation. ...We illustrate these differences by comparing key sex genes in fishes versus birds and mammals, with emphasis on DM domain genes, the SOX-9AMH pathway in the testis and the FOXL2-Aromatase pathway in the ovary. Such comparisons facilitate the identification of ancient versus derived genes involved in gonadal sex determination. The data indicate that vertebrate sex-determining cascades are not as conserved as once thought."
  • Sox2 is essential for formation of trophectoderm in the preimplantation embryo[5] "In preimplantation mammalian development the transcription factor Sox2 (SRY-related HMG-box gene 2) forms a complex with Oct4 and functions in maintenance of self-renewal of the pluripotent inner cell mass (ICM). ...We conclude that the first essential function of Sox2 in the preimplantation mouse embryo is to facilitate establishment of the trophectoderm lineage. Our findings provide a novel insight into the first differentiation event within the preimplantation embryo, namely the segregation of the ICM and TE lineages."
More recent papers  
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Search term: Sox Expression

<pubmed limit=5>Sox Expression</pubmed>

Human SOX Family

Table - Human Sox Family
Approved
Symbol
Approved Name Previous Symbols Synonyms Chromosome
SOX1 SRY-box 1 13q34
SOX2 SRY-box 2 3q26.33
SOX3 SRY-box 3 PHP Xq27.1
SOX4 SRY-box 4 6p22.3
SOX5 SRY-box 5 "L-SOX5, MGC35153" 12p12.1
SOX6 SRY-box 6 11p15.3
SOX7 SRY-box 7 8p23.1
SOX8 SRY-box 8 16p13.3
SOX9 SRY-box 9 "CMD1, CMPD1" SRA1 17q24.3
SOX10 SRY-box 10 "DOM, WS4, WS2E" 22q13.1
SOX11 SRY-box 11 2p25.2
SOX12 SRY-box 12 SOX22 20p13
SOX13 SRY-box 13 "Sox-13, ICA12, MGC117216" 1q32.1
SOX14 SRY-box 14 SOX28 3q22.3
SOX15 SRY-box 15 SOX20 "SOX27, SOX26" 17p13.1
SOX17 SRY-box 17 8q11.23
SOX18 SRY-box 18 20q13.33
SOX21 SRY-box 21 SOX25 13q32.1
SOX30 SRY-box 30 5q33.3
SRY sex determining region Y TDF Yp11.2
    Links: Developmental Signals - Sox | OMIM | HGNC | Tbx Family | Bmp Family | Fgf Family | Pax Family | R-spondin Family | Sox Family | Tbx Family


Human SOX Family  
Table - Human Sox Family
Approved
Symbol
Approved Name Previous Symbols Synonyms Chromosome
SOX1 SRY-box 1 13q34
SOX2 SRY-box 2 3q26.33
SOX3 SRY-box 3 PHP Xq27.1
SOX4 SRY-box 4 6p22.3
SOX5 SRY-box 5 "L-SOX5, MGC35153" 12p12.1
SOX6 SRY-box 6 11p15.3
SOX7 SRY-box 7 8p23.1
SOX8 SRY-box 8 16p13.3
SOX9 SRY-box 9 "CMD1, CMPD1" SRA1 17q24.3
SOX10 SRY-box 10 "DOM, WS4, WS2E" 22q13.1
SOX11 SRY-box 11 2p25.2
SOX12 SRY-box 12 SOX22 20p13
SOX13 SRY-box 13 "Sox-13, ICA12, MGC117216" 1q32.1
SOX14 SRY-box 14 SOX28 3q22.3
SOX15 SRY-box 15 SOX20 "SOX27, SOX26" 17p13.1
SOX17 SRY-box 17 8q11.23
SOX18 SRY-box 18 20q13.33
SOX21 SRY-box 21 SOX25 13q32.1
SOX30 SRY-box 30 5q33.3
SRY sex determining region Y TDF Yp11.2
    Links: Developmental Signals - Sox | OMIM | HGNC | Tbx Family | Bmp Family | Fgf Family | Pax Family | R-spondin Family | Sox Family | Tbx Family

SOX9

Table - Human Sox Family
Approved
Symbol
Approved Name Previous Symbols Synonyms Chromosome
SOX9 SRY-box 9 "CMD1, CMPD1" SRA1 17q24.3

Adrenal and gonad early development.jpg

Adrenal and gonad early development[6]

Early Mouse Expression

Mouse Sox2 expression 01.jpg

Mouse Sox2 expression 02.jpg

Mouse Sox2 expression 03.jpg

Limb Expression

Limb patterning factors 05.jpg

Sox9 expression in E12.5 wild-type mouse embryonic forelimb.[7]

Function

Stem Cells

Sox2

  • one of the 4 "Yamanaka factors" (OCT4, SOX2, KLF4, cMyc) required to make a stem cell.


Links: Stem Cells | Shinya Yamanaka

Genital Development

Sox9

  • regulates sex development.

Cartilage Development

Sox9

  • regulates cartilage development.
  • in chondrogenesis model Sox9 is coexpressed with the gene encoding Col2a1 (type II collagen), the major cartilage matrix protein.
  • up-regulated by fibroblast growth factors (FGFs) in primary chondrocytes.
Links:Cartilage Development

Respiratory Development

Sox2

  • regulates patterning of the anterior foregut into ventral (trachea) and dorsal (esophagus) fates
  • endoderm expression during formation of foregut derivatives
  • declines in regions undergoing lung bud morphogenesis
  • declines in ventral region generating the trachea


Links: Respiratory System Development | StemBook - Specification and patterning of the respiratory system

Rib Development

Mouse E12.5 Sox9 Expression.jpg

Sox9 expression in the Mouse (E12.5) rib primordial.[8]

Neural Development

Sox2 binding sites have been identified in mouse cortical (germinal zone) progenitor cells (this study also identified Pax6 and Lhx2 sites)[9]


Links: Neural System Development | Pax | OMIM Sox2

Hearing Development

Sox2 Lineage tracing of Sox2-expressing progenitor cells in the mouse inner ear reveals a broad contribution to non-sensory tissues and insights into the origin of the organ of Corti[10] "The transcription factor Sox2 is both necessary and sufficient for the generation of sensory regions of the inner ear. ...We find that Sox2-expressing cells in the early otocyst give rise to large numbers of non-sensory structures throughout the inner ear, and that Sox2 only becomes a truly prosensory marker at embryonic day (E)11.5. Our fate map reveals the organ of Corti derives from a central domain on the medial side of the otocyst and shows that a significant amount of the organ of Corti derives from a Sox2-negative population in this region."

Links: Inner Ear Development | Mouse Development | OMIM Sox2

Signaling Pathway

Sox transcription factors cartoon

SOX Developmental Signaling Pathways[11]

OMIM


About OMIM "Online Mendelian Inheritance in Man OMIM is a comprehensive, authoritative, and timely compendium of human genes and genetic phenotypes. The full-text, referenced overviews in OMIM contain information on all known mendelian disorders and over 12,000 genes. OMIM focuses on the relationship between phenotype and genotype. It is updated daily, and the entries contain copious links to other genetics resources." OMIM



References

  1. <pubmed>20704721</pubmed>| BMC Dev Biol.
  2. <pubmed>29256862</pubmed>
  3. <pubmed>25818812</pubmed>
  4. <pubmed>23390004</pubmed>
  5. <pubmed>21103067</pubmed>| PMC2980489 | PLoS One.
  6. <pubmed>14594453</pubmed>
  7. <pubmed>17194222</pubmed>| PMC1713256 | PLoS Genet.
  8. <pubmed>23236180</pubmed>| PMC3535641 | PNAS
  9. <pubmed>26721689</pubmed>
  10. <pubmed>27090805</pubmed>
  11. <pubmed>25594027</pubmed>| Oncoscience

Reviews

<pubmed></pubmed> <pubmed>21309066</pubmed> <pubmed>17584862</pubmed>



Search PubMed: Sox

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Cite this page: Hill, M.A. (2024, March 28) Embryology Developmental Signals - Sox. Retrieved from https://embryology.med.unsw.edu.au/embryology/index.php/Developmental_Signals_-_Sox

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© Dr Mark Hill 2024, UNSW Embryology ISBN: 978 0 7334 2609 4 - UNSW CRICOS Provider Code No. 00098G