Sandbox Reserved 1120

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During the next decades, a few theories were in competition. In 1921, Calvin Bridges's works on ''Drosophila melanogaster'' seemed to reveal that male characters acquisition is due to a genic balance between the genes contained in the X chromosome and those contained in the autosomes <ref>PMID: 17769897</ref>.
During the next decades, a few theories were in competition. In 1921, Calvin Bridges's works on ''Drosophila melanogaster'' seemed to reveal that male characters acquisition is due to a genic balance between the genes contained in the X chromosome and those contained in the autosomes <ref>PMID: 17769897</ref>.
In 1930, Ronald Fisher introduced the first Y-based control of sex theory by proposing two different models : either all the genes responsible for the male characters are located on the Y chromosome or there is a Y-located gene which regulates the expression of genes elsewhere in the genome. <ref>PMID: 3046910</ref>
In 1930, Ronald Fisher introduced the first Y-based control of sex theory by proposing two different models : either all the genes responsible for the male characters are located on the Y chromosome or there is a Y-located gene which regulates the expression of genes elsewhere in the genome. <ref>PMID: 3046910</ref>
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As Alfred Jost had shown the testosterone produced by the testis is responsible for the entire male phenotype acquisition<ref>PMID: 4805859</ref>, in 1988, Goodfellow and Darling proposed that there is a gene on the Y chromosome which drives the development of the testis.<ref>PMID: 3046910</ref>
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As Alfred Jost had shown the testosterone produced by the testis is responsible for the entire male phenotype acquisition<ref>PMID: 4805859</ref>, in 1988, Peter Neville Goodfellow proposed that there is a gene - ''TDF'' - on the Y chromosome which drives the development of the testis.<ref>PMID: 3046910</ref>
It has been shown that a mutation of SRY increase male to female sex reversal for 15% <font color='red'>'''REF NECESSAIRE'''</font>
It has been shown that a mutation of SRY increase male to female sex reversal for 15% <font color='red'>'''REF NECESSAIRE'''</font>

Revision as of 17:52, 16 January 2016

This Sandbox is Reserved from 15/12/2015, through 15/06/2016 for use in the course "Structural Biology" taught by Bruno Kieffer at the University of Strasbourg, ESBS. This reservation includes Sandbox Reserved 1120 through Sandbox Reserved 1159.
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SRY protein (AKA TDF protein)

The SRY protein linked to DNA

Drag the structure with the mouse to rotate

References

Genetic Home reference

  1. Sumner, A. T. Sex Chromosomes and Sex Determination. Chromosomes: Organization and Function, 97-108. [1]
  2. Bridges CB. TRIPLOID INTERSEXES IN DROSOPHILA MELANOGASTER. Science. 1921 Sep 16;54(1394):252-4. PMID:17769897 doi:http://dx.doi.org/10.1126/science.54.1394.252
  3. Goodfellow PN, Darling SM. Genetics of sex determination in man and mouse. Development. 1988 Feb;102(2):251-8. PMID:3046910
  4. Jost A. Becoming a male. Adv Biosci. 1973;10:3-13. PMID:4805859
  5. Goodfellow PN, Darling SM. Genetics of sex determination in man and mouse. Development. 1988 Feb;102(2):251-8. PMID:3046910
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