2013
DOI: 10.1002/ajmg.a.36034
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Duplication of the Xq27.3–q28 region, including the FMR1 gene, in an X‐linked hypogonadism, gynecomastia, intellectual disability, short stature, and obesity syndrome

Abstract: In 1979 a "new" syndrome characterized by X-linked inheritance, hypogonadism, gynecomastia, intellectual disability, obesity, and short stature was described. The now-36-year-old propositus was recently referred to the genetics clinic for profound intellectual disability. Fragile X testing initially demonstrated a duplication of the FMR1 region, and upon further testing we identified an Xq27.3-q28 8.05 Mb-long duplication responsible for a syndrome. Our report describes the molecular and clinical aspects of th… Show more

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Cited by 19 publications
(24 citation statements)
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“…A new mouse model, the conditionally tagged FMRP-AcGFP ("cTAG") mouse, was designed to enable cell-type-specific FMRP CLIP experiments, something not previously possible in vivo. Evidence suggests that the expression levels of FMRP are tightly controlled during development, differentiation, and in response to synaptic activity, and that overexpression in humans [56][57][58][59] and model organisms 60,61 leads to negative phenotypes. Therefore, we chose a knock-in strategy to allow cell-type-specific expression of FMRP-AcGFP without altering the normal levels, splicing or regulated expression of FMRP.…”
Section: Conditional Tagging Of Fmrp At the Endogenous Fmr1 Locusmentioning
confidence: 99%
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“…A new mouse model, the conditionally tagged FMRP-AcGFP ("cTAG") mouse, was designed to enable cell-type-specific FMRP CLIP experiments, something not previously possible in vivo. Evidence suggests that the expression levels of FMRP are tightly controlled during development, differentiation, and in response to synaptic activity, and that overexpression in humans [56][57][58][59] and model organisms 60,61 leads to negative phenotypes. Therefore, we chose a knock-in strategy to allow cell-type-specific expression of FMRP-AcGFP without altering the normal levels, splicing or regulated expression of FMRP.…”
Section: Conditional Tagging Of Fmrp At the Endogenous Fmr1 Locusmentioning
confidence: 99%
“…Human genomic copy number variations reveal that overexpression of FMRP results in intellectual disability [56][57][58][59] , suggesting that the properties of endogenous FMRP expression should not be altered in a model system. To this end we designed a knock-in construct to result in AcGFP tagged-FMRP expression from the endogenous Fmr1 locus in a Cre-dependent manner.…”
Section: Conditional Tagging Of Fmrp At the Endogenous Fmr1 Locusmentioning
confidence: 99%
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“…Evidence from humans suggests that the gene dosage of FMR1 is tightly regulated and that both decreases and increases in FMRP can cause disease. Individuals with decreases in FMRP with Fragile X Syndrome and individuals with gene duplications of FMR1 both present with intellectual disability ( Rio et al, 2010 ; Nagamani et al, 2012 ; Vengoechea et al, 2012 ; Hickey et al, 2013 ). To test whether FMRP regulates cell proliferation and/or survival in the optic tectum, we manipulated FMRP expression levels using knockdown and overexpression.…”
Section: Resultsmentioning
confidence: 99%
“…We captured and sequenced more than 1800 tandem repeats in three families with idiopathic XLID and demonstrate the feasibility of single molecule sequencing to accurately detect and size tandem repeats and tandem repeat variability. Moreover, in one family a tandem repeat expansion segregating with ID seems to affect the expression of the nearby MIR222 gene, previously implicated in ID [42] and affecting expression levels of genes associated with ID [4346].…”
Section: Discussionmentioning
confidence: 99%