I-17: The Mechanism of Gonadal Sex Determination

author

Abstract:

Background In mammals, a single exon gene SRY on the Y-chromosome is activated in the XY gonadal primordium and initiates a cascade of molecular and morphological events leading to testicular differentiation. SRY-encoded protein (SRY) is a transcription factor harboring a HMG-box DNAbinding motif that upregulates SOX9, which encodes another transcription factor sharing the DNA binding motif with SRY. SOX9 upregulates other genes, such as FGF9 and PGD2, which in turn stabilize SOX9 expression and contribute to testis cord organization. By contrast, in the absence of SRY or SOX9, ovarian differentiation is initiated in the XX gonad by the activation of genes, such as WNT4 and FOXL2, whose protein products antagonize testicular differentiation in gonadal somatic cells. These molecular mechanisms of sex determination have been well established by examining the mice with a deletion or mutation of individual genes involved. However, naturally occurring sex reversal often involves asymmetric gonadal sex, e.g., development of a testis and an ovary within an individual, the mechanism of which remains largely unexplained. The goal of our study is to understand the mechanism of sex determination in the B6.YTIR mouse, which develops various combinations of gonadal structures. MaterialsAndMethods The B6.YTIR mouse was established by repeating backcrosses to place the Y chromosome of a local Mus. musculus domesticus variant caught in Tirano, Italy (TIR) onto the C57BL/6J (B6) genetic background, and propagated in our mouse colony (currently at the N60 backcross generation). B6.YTIR males were crossed with B6 females, and bilateral urogenital complexes were isolated from each fetus at 11.5 – 14.5 days postcoitum (dpc) while cranial biopsy was taken for genotyping by PCR amplification of the Zfy sequence. The accurate developmental stage at 11.5 – 12.5 dpc was determined by the number of tail somites (ts) from the base of the genital tubercle. The urogenital complex was fixed and processed for immunofluorescence localization of SRY, SOX9, and MVH (DDX4) in histological sections whereas the gonad separated from the mesonephros was subjected to RTPCR of Sry, Sox9, and Wnt4. Gonadal structures beyond 14.5 dpc were evaluated morphologically. Results In the B6.YTIR gonad, Sry was expressed in a comparable manner to the normal B6.XY gonad, but consequent Sox9 expression was delayed and decreased after the peak at 20 ts. Although SOX9-positive cells were seen in the entire gonad at 19-20 ts, they disappeared except for the central region, in which testis cords were formed (ovotestes) by 14.5 dpc, or disappeared from the entire gonad, in which ovarian structures developed (ovaries). Wnt4 expression pattern was similar to that in the normal B6.XX gonad. A fetal ovotestis usually developed into a small testis by regression of ovarian components by birth while a fetal ovary continued to develop into a mature ovary full of follicles. The frequency of ovotestis development was more frequent on the left side and influenced by the maternal age. Conclusion Inefficient upregulation of Sox9 allows for partial or complete sex reversal despite normal expression of Sry/SRY. However, the ultimate gonadal sex is influenced by non-genetic factor(s).

Upgrade to premium to download articles

Sign up to access the full text

Already have an account?login

similar resources

I-40: The Genetic Complexities of Human Sex-Determination

Background - MaterialsAndMethods N;Results N;Conclusion N;

full text

Sex determination and gonadal development in mammals.

Arguably the most defining moment in our lives is fertilization, the point at which we inherit either an X or a Y chromosome from our father. The profoundly different journeys of male and female life are thus decided by a genetic coin toss. These differences begin to unfold during fetal development, when the Y-chromosomal Sry ("sex-determining region Y") gene is activated in males and acts as a...

full text

Gonadal asymmetry and sex determination in birds.

Although vertebrates display a superficial bilateral symmetry, most internal organs develop and locate with a consistent left:right asymmetry. There is still considerable debate as to when this process actually begins, but it seems that, at least for some species, the initial steps occur at a very early stage of development. In recent years, a number of model systems, including the chick embryo...

full text

determination of maximal singularity free zones in the workspace of parallel manipulator

due to the limiting workspace of parallel manipulator and regarding to finding the trajectory planning of singularity free at workspace is difficult, so finding a best solution that can develop a technique to determine the singularity-free zones in the workspace of parallel manipulators is highly important. in this thesis a simple and new technique are presented to determine the maximal singula...

15 صفحه اول

Cheiloscopy for Sex Determination among Individuals Aged 17-25 Years

Background: External surface of the lip has many elevations and depressions forming a characteristic pattern called lip prints, examination of which is referred to as CHEILOSCOPY. The lip prints being uniform throughout the life and characteristics of person can be used to identify an individual. The present study was aimed to study lip print patterns between two genders. Objective: The objecti...

full text

My Resources

Save resource for easier access later

Save to my library Already added to my library

{@ msg_add @}


Journal title

volume 9  issue 2

pages  14- 15

publication date 2015-09-01

By following a journal you will be notified via email when a new issue of this journal is published.

Hosted on Doprax cloud platform doprax.com

copyright © 2015-2023