Why is there Turner syndrome if one of the X chrosomes is inactivated anyway?
up vote
7
down vote
favorite
In females one of the two X chromosomes will condensate and turn into Barr bodies. So chromosome abnormality-free women will only have a single transcriptionally-active chromosome. Then why can abnormalities like Turner's syndrome still occur in the presence of a single active X chromosome?
genetics sex-chromosome
New contributor
add a comment |
up vote
7
down vote
favorite
In females one of the two X chromosomes will condensate and turn into Barr bodies. So chromosome abnormality-free women will only have a single transcriptionally-active chromosome. Then why can abnormalities like Turner's syndrome still occur in the presence of a single active X chromosome?
genetics sex-chromosome
New contributor
add a comment |
up vote
7
down vote
favorite
up vote
7
down vote
favorite
In females one of the two X chromosomes will condensate and turn into Barr bodies. So chromosome abnormality-free women will only have a single transcriptionally-active chromosome. Then why can abnormalities like Turner's syndrome still occur in the presence of a single active X chromosome?
genetics sex-chromosome
New contributor
In females one of the two X chromosomes will condensate and turn into Barr bodies. So chromosome abnormality-free women will only have a single transcriptionally-active chromosome. Then why can abnormalities like Turner's syndrome still occur in the presence of a single active X chromosome?
genetics sex-chromosome
genetics sex-chromosome
New contributor
New contributor
edited 5 hours ago
Nicolai
3,193318
3,193318
New contributor
asked Nov 30 at 14:32
drishti rewri
362
362
New contributor
New contributor
add a comment |
add a comment |
1 Answer
1
active
oldest
votes
up vote
7
down vote
Pseudoautosomal region in mammals
On sexual chromosomes, we have a so-called PseudoAutosomal Region (PAR). The PAR is the region which still recombine with the Y chromosome (in males only) and is though to be important to allow separation of chromosomes during meiosis.
Pseudoautosomal region and dosage compensation
Because the PAR is diploid in males too, there is no need for a mechanism of dosage compensation and hence, in females, the PAR of the inactivated X-chromosome remain active.
Turner Syndrome
Turner syndrome is caused by an issue of dosage of functional elements found in the PAR. In people having Turner syndrome the PAR is haploid, while it remains diploid in both healthy males and healthy females.
Here is a small review paragraph from Sybert and McCauley (2004) that report the evidences suggesting that Down syndrome is caused by haploidy in the PAR. Please see the linked paper directly for further references.
Loss of interstitial or terminal long-arm material of the X chromosome (Xq) can result in short stature and primary or secondary ovarian failure.15 Deletions distal to Xq21 appear to have no effect on stature. In general, loss of the short arm (Xp) results in the full phenotype. Very distal Xp deletions are compatible with, but do not ensure, normal ovarian function. Loss of this region usually confers short stature and the typical skeletal changes, in part as a result of haploinsufficiency of the short stature–homeobox (SHOX) gene, located in the pseudoautosomal region of Y and Xp. The SHOX gene is probably not the only gene responsible for the skeletal features. Aneuploidy itself may contribute to growth failure. Loss of a region at Xp22.3 appears to be associated with the neurocognitive problems in Turner's syndrome. Loss of the testis-determining factor (SRY) gene locus on the short arm of the Y chromosome (e.g., 46,X,del(Yp)) also leads to the phenotype of Turner's syndrome, even without a 45,X cell population. A region on Xp11.4 has been proposed as critical for the development of lymphedema.
2
In addition, 35% of the genes in the inactivated X chrosomes are "escapees", which means that they remain active. The rest is mostly repressed by the expression of gene Xist.
– Jagoe
Nov 30 at 17:02
@Jagoe I did not know that +1 Do you happen to know what fraction of these 35% are from the PAR? If you happen to have a reference, I would happily add that to the answer. Thanks
– Remi.b
2 days ago
I've found a reference that tells of a similar figure (12-20% for humans, 3-7% for mice) for genes escaping "XCI" (X-chromosome inactivation) [cell.com/trends/genetics/pdf/S0168-9525(16)30002-6.pdf]. So yeah, the original percentage I wrote might not be accurate. I heard it from a genetics professor at college. Regarding PAR, well, I just heard it existed.
– Jagoe
yesterday
@Jagoe Ok. Note that your link is broken
– Remi.b
yesterday
cell.com/trends/genetics/pdf/S0168-9525(16)30002-6.pdf
– Jagoe
yesterday
add a comment |
1 Answer
1
active
oldest
votes
1 Answer
1
active
oldest
votes
active
oldest
votes
active
oldest
votes
up vote
7
down vote
Pseudoautosomal region in mammals
On sexual chromosomes, we have a so-called PseudoAutosomal Region (PAR). The PAR is the region which still recombine with the Y chromosome (in males only) and is though to be important to allow separation of chromosomes during meiosis.
Pseudoautosomal region and dosage compensation
Because the PAR is diploid in males too, there is no need for a mechanism of dosage compensation and hence, in females, the PAR of the inactivated X-chromosome remain active.
Turner Syndrome
Turner syndrome is caused by an issue of dosage of functional elements found in the PAR. In people having Turner syndrome the PAR is haploid, while it remains diploid in both healthy males and healthy females.
Here is a small review paragraph from Sybert and McCauley (2004) that report the evidences suggesting that Down syndrome is caused by haploidy in the PAR. Please see the linked paper directly for further references.
Loss of interstitial or terminal long-arm material of the X chromosome (Xq) can result in short stature and primary or secondary ovarian failure.15 Deletions distal to Xq21 appear to have no effect on stature. In general, loss of the short arm (Xp) results in the full phenotype. Very distal Xp deletions are compatible with, but do not ensure, normal ovarian function. Loss of this region usually confers short stature and the typical skeletal changes, in part as a result of haploinsufficiency of the short stature–homeobox (SHOX) gene, located in the pseudoautosomal region of Y and Xp. The SHOX gene is probably not the only gene responsible for the skeletal features. Aneuploidy itself may contribute to growth failure. Loss of a region at Xp22.3 appears to be associated with the neurocognitive problems in Turner's syndrome. Loss of the testis-determining factor (SRY) gene locus on the short arm of the Y chromosome (e.g., 46,X,del(Yp)) also leads to the phenotype of Turner's syndrome, even without a 45,X cell population. A region on Xp11.4 has been proposed as critical for the development of lymphedema.
2
In addition, 35% of the genes in the inactivated X chrosomes are "escapees", which means that they remain active. The rest is mostly repressed by the expression of gene Xist.
– Jagoe
Nov 30 at 17:02
@Jagoe I did not know that +1 Do you happen to know what fraction of these 35% are from the PAR? If you happen to have a reference, I would happily add that to the answer. Thanks
– Remi.b
2 days ago
I've found a reference that tells of a similar figure (12-20% for humans, 3-7% for mice) for genes escaping "XCI" (X-chromosome inactivation) [cell.com/trends/genetics/pdf/S0168-9525(16)30002-6.pdf]. So yeah, the original percentage I wrote might not be accurate. I heard it from a genetics professor at college. Regarding PAR, well, I just heard it existed.
– Jagoe
yesterday
@Jagoe Ok. Note that your link is broken
– Remi.b
yesterday
cell.com/trends/genetics/pdf/S0168-9525(16)30002-6.pdf
– Jagoe
yesterday
add a comment |
up vote
7
down vote
Pseudoautosomal region in mammals
On sexual chromosomes, we have a so-called PseudoAutosomal Region (PAR). The PAR is the region which still recombine with the Y chromosome (in males only) and is though to be important to allow separation of chromosomes during meiosis.
Pseudoautosomal region and dosage compensation
Because the PAR is diploid in males too, there is no need for a mechanism of dosage compensation and hence, in females, the PAR of the inactivated X-chromosome remain active.
Turner Syndrome
Turner syndrome is caused by an issue of dosage of functional elements found in the PAR. In people having Turner syndrome the PAR is haploid, while it remains diploid in both healthy males and healthy females.
Here is a small review paragraph from Sybert and McCauley (2004) that report the evidences suggesting that Down syndrome is caused by haploidy in the PAR. Please see the linked paper directly for further references.
Loss of interstitial or terminal long-arm material of the X chromosome (Xq) can result in short stature and primary or secondary ovarian failure.15 Deletions distal to Xq21 appear to have no effect on stature. In general, loss of the short arm (Xp) results in the full phenotype. Very distal Xp deletions are compatible with, but do not ensure, normal ovarian function. Loss of this region usually confers short stature and the typical skeletal changes, in part as a result of haploinsufficiency of the short stature–homeobox (SHOX) gene, located in the pseudoautosomal region of Y and Xp. The SHOX gene is probably not the only gene responsible for the skeletal features. Aneuploidy itself may contribute to growth failure. Loss of a region at Xp22.3 appears to be associated with the neurocognitive problems in Turner's syndrome. Loss of the testis-determining factor (SRY) gene locus on the short arm of the Y chromosome (e.g., 46,X,del(Yp)) also leads to the phenotype of Turner's syndrome, even without a 45,X cell population. A region on Xp11.4 has been proposed as critical for the development of lymphedema.
2
In addition, 35% of the genes in the inactivated X chrosomes are "escapees", which means that they remain active. The rest is mostly repressed by the expression of gene Xist.
– Jagoe
Nov 30 at 17:02
@Jagoe I did not know that +1 Do you happen to know what fraction of these 35% are from the PAR? If you happen to have a reference, I would happily add that to the answer. Thanks
– Remi.b
2 days ago
I've found a reference that tells of a similar figure (12-20% for humans, 3-7% for mice) for genes escaping "XCI" (X-chromosome inactivation) [cell.com/trends/genetics/pdf/S0168-9525(16)30002-6.pdf]. So yeah, the original percentage I wrote might not be accurate. I heard it from a genetics professor at college. Regarding PAR, well, I just heard it existed.
– Jagoe
yesterday
@Jagoe Ok. Note that your link is broken
– Remi.b
yesterday
cell.com/trends/genetics/pdf/S0168-9525(16)30002-6.pdf
– Jagoe
yesterday
add a comment |
up vote
7
down vote
up vote
7
down vote
Pseudoautosomal region in mammals
On sexual chromosomes, we have a so-called PseudoAutosomal Region (PAR). The PAR is the region which still recombine with the Y chromosome (in males only) and is though to be important to allow separation of chromosomes during meiosis.
Pseudoautosomal region and dosage compensation
Because the PAR is diploid in males too, there is no need for a mechanism of dosage compensation and hence, in females, the PAR of the inactivated X-chromosome remain active.
Turner Syndrome
Turner syndrome is caused by an issue of dosage of functional elements found in the PAR. In people having Turner syndrome the PAR is haploid, while it remains diploid in both healthy males and healthy females.
Here is a small review paragraph from Sybert and McCauley (2004) that report the evidences suggesting that Down syndrome is caused by haploidy in the PAR. Please see the linked paper directly for further references.
Loss of interstitial or terminal long-arm material of the X chromosome (Xq) can result in short stature and primary or secondary ovarian failure.15 Deletions distal to Xq21 appear to have no effect on stature. In general, loss of the short arm (Xp) results in the full phenotype. Very distal Xp deletions are compatible with, but do not ensure, normal ovarian function. Loss of this region usually confers short stature and the typical skeletal changes, in part as a result of haploinsufficiency of the short stature–homeobox (SHOX) gene, located in the pseudoautosomal region of Y and Xp. The SHOX gene is probably not the only gene responsible for the skeletal features. Aneuploidy itself may contribute to growth failure. Loss of a region at Xp22.3 appears to be associated with the neurocognitive problems in Turner's syndrome. Loss of the testis-determining factor (SRY) gene locus on the short arm of the Y chromosome (e.g., 46,X,del(Yp)) also leads to the phenotype of Turner's syndrome, even without a 45,X cell population. A region on Xp11.4 has been proposed as critical for the development of lymphedema.
Pseudoautosomal region in mammals
On sexual chromosomes, we have a so-called PseudoAutosomal Region (PAR). The PAR is the region which still recombine with the Y chromosome (in males only) and is though to be important to allow separation of chromosomes during meiosis.
Pseudoautosomal region and dosage compensation
Because the PAR is diploid in males too, there is no need for a mechanism of dosage compensation and hence, in females, the PAR of the inactivated X-chromosome remain active.
Turner Syndrome
Turner syndrome is caused by an issue of dosage of functional elements found in the PAR. In people having Turner syndrome the PAR is haploid, while it remains diploid in both healthy males and healthy females.
Here is a small review paragraph from Sybert and McCauley (2004) that report the evidences suggesting that Down syndrome is caused by haploidy in the PAR. Please see the linked paper directly for further references.
Loss of interstitial or terminal long-arm material of the X chromosome (Xq) can result in short stature and primary or secondary ovarian failure.15 Deletions distal to Xq21 appear to have no effect on stature. In general, loss of the short arm (Xp) results in the full phenotype. Very distal Xp deletions are compatible with, but do not ensure, normal ovarian function. Loss of this region usually confers short stature and the typical skeletal changes, in part as a result of haploinsufficiency of the short stature–homeobox (SHOX) gene, located in the pseudoautosomal region of Y and Xp. The SHOX gene is probably not the only gene responsible for the skeletal features. Aneuploidy itself may contribute to growth failure. Loss of a region at Xp22.3 appears to be associated with the neurocognitive problems in Turner's syndrome. Loss of the testis-determining factor (SRY) gene locus on the short arm of the Y chromosome (e.g., 46,X,del(Yp)) also leads to the phenotype of Turner's syndrome, even without a 45,X cell population. A region on Xp11.4 has been proposed as critical for the development of lymphedema.
edited Nov 30 at 15:11
answered Nov 30 at 15:05
Remi.b
56.9k7105187
56.9k7105187
2
In addition, 35% of the genes in the inactivated X chrosomes are "escapees", which means that they remain active. The rest is mostly repressed by the expression of gene Xist.
– Jagoe
Nov 30 at 17:02
@Jagoe I did not know that +1 Do you happen to know what fraction of these 35% are from the PAR? If you happen to have a reference, I would happily add that to the answer. Thanks
– Remi.b
2 days ago
I've found a reference that tells of a similar figure (12-20% for humans, 3-7% for mice) for genes escaping "XCI" (X-chromosome inactivation) [cell.com/trends/genetics/pdf/S0168-9525(16)30002-6.pdf]. So yeah, the original percentage I wrote might not be accurate. I heard it from a genetics professor at college. Regarding PAR, well, I just heard it existed.
– Jagoe
yesterday
@Jagoe Ok. Note that your link is broken
– Remi.b
yesterday
cell.com/trends/genetics/pdf/S0168-9525(16)30002-6.pdf
– Jagoe
yesterday
add a comment |
2
In addition, 35% of the genes in the inactivated X chrosomes are "escapees", which means that they remain active. The rest is mostly repressed by the expression of gene Xist.
– Jagoe
Nov 30 at 17:02
@Jagoe I did not know that +1 Do you happen to know what fraction of these 35% are from the PAR? If you happen to have a reference, I would happily add that to the answer. Thanks
– Remi.b
2 days ago
I've found a reference that tells of a similar figure (12-20% for humans, 3-7% for mice) for genes escaping "XCI" (X-chromosome inactivation) [cell.com/trends/genetics/pdf/S0168-9525(16)30002-6.pdf]. So yeah, the original percentage I wrote might not be accurate. I heard it from a genetics professor at college. Regarding PAR, well, I just heard it existed.
– Jagoe
yesterday
@Jagoe Ok. Note that your link is broken
– Remi.b
yesterday
cell.com/trends/genetics/pdf/S0168-9525(16)30002-6.pdf
– Jagoe
yesterday
2
2
In addition, 35% of the genes in the inactivated X chrosomes are "escapees", which means that they remain active. The rest is mostly repressed by the expression of gene Xist.
– Jagoe
Nov 30 at 17:02
In addition, 35% of the genes in the inactivated X chrosomes are "escapees", which means that they remain active. The rest is mostly repressed by the expression of gene Xist.
– Jagoe
Nov 30 at 17:02
@Jagoe I did not know that +1 Do you happen to know what fraction of these 35% are from the PAR? If you happen to have a reference, I would happily add that to the answer. Thanks
– Remi.b
2 days ago
@Jagoe I did not know that +1 Do you happen to know what fraction of these 35% are from the PAR? If you happen to have a reference, I would happily add that to the answer. Thanks
– Remi.b
2 days ago
I've found a reference that tells of a similar figure (12-20% for humans, 3-7% for mice) for genes escaping "XCI" (X-chromosome inactivation) [cell.com/trends/genetics/pdf/S0168-9525(16)30002-6.pdf]. So yeah, the original percentage I wrote might not be accurate. I heard it from a genetics professor at college. Regarding PAR, well, I just heard it existed.
– Jagoe
yesterday
I've found a reference that tells of a similar figure (12-20% for humans, 3-7% for mice) for genes escaping "XCI" (X-chromosome inactivation) [cell.com/trends/genetics/pdf/S0168-9525(16)30002-6.pdf]. So yeah, the original percentage I wrote might not be accurate. I heard it from a genetics professor at college. Regarding PAR, well, I just heard it existed.
– Jagoe
yesterday
@Jagoe Ok. Note that your link is broken
– Remi.b
yesterday
@Jagoe Ok. Note that your link is broken
– Remi.b
yesterday
cell.com/trends/genetics/pdf/S0168-9525(16)30002-6.pdf
– Jagoe
yesterday
cell.com/trends/genetics/pdf/S0168-9525(16)30002-6.pdf
– Jagoe
yesterday
add a comment |
drishti rewri is a new contributor. Be nice, and check out our Code of Conduct.
drishti rewri is a new contributor. Be nice, and check out our Code of Conduct.
drishti rewri is a new contributor. Be nice, and check out our Code of Conduct.
drishti rewri is a new contributor. Be nice, and check out our Code of Conduct.
Thanks for contributing an answer to Biology Stack Exchange!
- Please be sure to answer the question. Provide details and share your research!
But avoid …
- Asking for help, clarification, or responding to other answers.
- Making statements based on opinion; back them up with references or personal experience.
Use MathJax to format equations. MathJax reference.
To learn more, see our tips on writing great answers.
Some of your past answers have not been well-received, and you're in danger of being blocked from answering.
Please pay close attention to the following guidance:
- Please be sure to answer the question. Provide details and share your research!
But avoid …
- Asking for help, clarification, or responding to other answers.
- Making statements based on opinion; back them up with references or personal experience.
To learn more, see our tips on writing great answers.
Sign up or log in
StackExchange.ready(function () {
StackExchange.helpers.onClickDraftSave('#login-link');
});
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
StackExchange.ready(
function () {
StackExchange.openid.initPostLogin('.new-post-login', 'https%3a%2f%2fbiology.stackexchange.com%2fquestions%2f79426%2fwhy-is-there-turner-syndrome-if-one-of-the-x-chrosomes-is-inactivated-anyway%23new-answer', 'question_page');
}
);
Post as a guest
Required, but never shown
Sign up or log in
StackExchange.ready(function () {
StackExchange.helpers.onClickDraftSave('#login-link');
});
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
Sign up or log in
StackExchange.ready(function () {
StackExchange.helpers.onClickDraftSave('#login-link');
});
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
Sign up or log in
StackExchange.ready(function () {
StackExchange.helpers.onClickDraftSave('#login-link');
});
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown