A Turner syndrome neurocognitive phenotype maps to Xp22.3

A Turner syndrome neurocognitive phenotype maps to Xp22.3

<p>Abstract</p> <p>Background</p> <p>Turner syndrome (TS) is associated with a neurocognitive phenotype that includes selective nonverbal deficits, e.g., impaired visual-spatial abilities. We previously reported evidence that this phenotype results from haploinsufficien...

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Main Authors: Elder Frederick F, Ramos Purita, Stefanatos Gerry, Roeltgen David, Zinn Andrew R, Kushner Harvey, Kowal Karen, Ross Judith L
Format: Article
Language:English
Published: BMC 2007-05-01
Series:Behavioral and Brain Functions
Online Access:http://www.behavioralandbrainfunctions.com/content/3/1/24
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spelling doaj-8733332ca5764aa5bdd5402178314f192020-11-25T01:27:05ZengBMCBehavioral and Brain Functions1744-90812007-05-01312410.1186/1744-9081-3-24A Turner syndrome neurocognitive phenotype maps to Xp22.3Elder Frederick FRamos PuritaStefanatos GerryRoeltgen DavidZinn Andrew RKushner HarveyKowal KarenRoss Judith L<p>Abstract</p> <p>Background</p> <p>Turner syndrome (TS) is associated with a neurocognitive phenotype that includes selective nonverbal deficits, e.g., impaired visual-spatial abilities. We previously reported evidence that this phenotype results from haploinsufficiency of one or more genes on distal Xp. This inference was based on genotype/phenotype comparisons of individual girls and women with partial Xp deletions, with the neurocognitive phenotype considered a dichotomous trait. We sought to confirm our findings in a large cohort (n = 47) of adult women with partial deletions of Xp or Xq, enriched for subjects with distal Xp deletions.</p> <p>Methods</p> <p>Subjects were recruited from North American genetics and endocrinology clinics. Phenotype assessment included measures of stature, ovarian function, and detailed neurocognitive testing. The neurocognitive phenotype was measured as a quantitative trait, the Turner Syndrome Cognitive Summary (TSCS) score, derived from discriminant function analysis. Genetic analysis included karyotyping, X inactivation studies, fluorescent in situ hybridization, microsatellite marker genotyping, and array comparative genomic hybridization.</p> <p>Results</p> <p>We report statistical evidence that deletion of Xp22.3, an interval containing 31 annotated genes, is sufficient to cause the neurocognitive phenotype described by the TSCS score. Two other cardinal TS features, ovarian failure and short stature, as well as X chromosome inactivation pattern and subject's age, were unrelated to the TSCS score.</p> <p>Conclusion</p> <p>Detailed mapping suggests that haploinsufficiency of one or more genes in Xp22.3, the distal 8.3 megabases (Mb) of the X chromosome, is responsible for a TS neurocognitive phenotype. This interval includes the 2.6 Mb Xp-Yp pseudoautosomal region (PAR1). Haploinsufficiency of the short stature gene <it>SHOX </it>in PAR1 probably does not cause this TS neurocognitive phenotype. Two genes proximal to PAR1 within the 8.3 Mb critical region, <it>STS </it>and <it>NLGN4X</it>, are attractive candidates for this neurocognitive phenotype.</p> http://www.behavioralandbrainfunctions.com/content/3/1/24
collection DOAJ
language English
format Article
sources DOAJ
author Elder Frederick F
Ramos Purita
Stefanatos Gerry
Roeltgen David
Zinn Andrew R
Kushner Harvey
Kowal Karen
Ross Judith L
spellingShingle Elder Frederick F
Ramos Purita
Stefanatos Gerry
Roeltgen David
Zinn Andrew R
Kushner Harvey
Kowal Karen
Ross Judith L
A Turner syndrome neurocognitive phenotype maps to Xp22.3
Behavioral and Brain Functions
author_facet Elder Frederick F
Ramos Purita
Stefanatos Gerry
Roeltgen David
Zinn Andrew R
Kushner Harvey
Kowal Karen
Ross Judith L
author_sort Elder Frederick F
title A Turner syndrome neurocognitive phenotype maps to Xp22.3
title_short A Turner syndrome neurocognitive phenotype maps to Xp22.3
title_full A Turner syndrome neurocognitive phenotype maps to Xp22.3
title_fullStr A Turner syndrome neurocognitive phenotype maps to Xp22.3
title_full_unstemmed A Turner syndrome neurocognitive phenotype maps to Xp22.3
title_sort turner syndrome neurocognitive phenotype maps to xp22.3
publisher BMC
series Behavioral and Brain Functions
issn 1744-9081
publishDate 2007-05-01
description <p>Abstract</p> <p>Background</p> <p>Turner syndrome (TS) is associated with a neurocognitive phenotype that includes selective nonverbal deficits, e.g., impaired visual-spatial abilities. We previously reported evidence that this phenotype results from haploinsufficiency of one or more genes on distal Xp. This inference was based on genotype/phenotype comparisons of individual girls and women with partial Xp deletions, with the neurocognitive phenotype considered a dichotomous trait. We sought to confirm our findings in a large cohort (n = 47) of adult women with partial deletions of Xp or Xq, enriched for subjects with distal Xp deletions.</p> <p>Methods</p> <p>Subjects were recruited from North American genetics and endocrinology clinics. Phenotype assessment included measures of stature, ovarian function, and detailed neurocognitive testing. The neurocognitive phenotype was measured as a quantitative trait, the Turner Syndrome Cognitive Summary (TSCS) score, derived from discriminant function analysis. Genetic analysis included karyotyping, X inactivation studies, fluorescent in situ hybridization, microsatellite marker genotyping, and array comparative genomic hybridization.</p> <p>Results</p> <p>We report statistical evidence that deletion of Xp22.3, an interval containing 31 annotated genes, is sufficient to cause the neurocognitive phenotype described by the TSCS score. Two other cardinal TS features, ovarian failure and short stature, as well as X chromosome inactivation pattern and subject's age, were unrelated to the TSCS score.</p> <p>Conclusion</p> <p>Detailed mapping suggests that haploinsufficiency of one or more genes in Xp22.3, the distal 8.3 megabases (Mb) of the X chromosome, is responsible for a TS neurocognitive phenotype. This interval includes the 2.6 Mb Xp-Yp pseudoautosomal region (PAR1). Haploinsufficiency of the short stature gene <it>SHOX </it>in PAR1 probably does not cause this TS neurocognitive phenotype. Two genes proximal to PAR1 within the 8.3 Mb critical region, <it>STS </it>and <it>NLGN4X</it>, are attractive candidates for this neurocognitive phenotype.</p>
url http://www.behavioralandbrainfunctions.com/content/3/1/24
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