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Query: UMLS:C0028754 (
obesity
)
124,988
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Twenty-seven patients with the presumed diagnosis of Prader-Willi syndrome (PWS) were studied clinically and cytogenetically. The patients were classified into three study groups on the basis of their clinical pictures: group 1 with 12 children meeting the strict diagnostic criteria for PWS; group 2 with nine floppy infants and young children, aged 3 years or less, without
obesity
and hyperphagia; and group 3 with six older children in whom some characteristic features of the syndrome were absent. High-resolution GTG banding of prometaphase chromosomes revealed del(15)(q11.1;q12) in eleven and t(15;15)(qter----
p11
.2::q12----qter) in one of the twelve group 1 patients. In group 2, four patients had del(15)(q11.1; q12), one had t(15;15)(qter----
p11
.1::q13----qter), and the remaining four had normal karyotypes. The deleted segment common to the 17 patients with the chromosome aberrations was confined to subband 15q11.2. On the other hand, all six group 3 patients had normal karyotypes. These findings indicated that when strictly defined PWS is absolutely correlated with chromosome 15 aberrations, i.e., there is a positive phenotype-karyotype correlation, and that the aberrations are etiologically related to the syndrome. Parental origin of the deleted chromosome was determined in seven patients, with QFQ-heteromorphisms being used as hereditary markers. The deleted chromosome originated from the paternal chromosome 15 in six patients and from the maternal 15 in one.
...
PMID:Clinical and cytogenetic studies of the Prader-Willi syndrome: evidence of phenotype-karyotype correlation. 790 98
A 46,X,+mar karyotype was detected in an 11-year-old male with a clinical picture characterized by
obesity
, short stature, bilateral cryptorchidism and coarctation of the aorta. The presence of ZFY and SRY genes was demonstrated by PCR amplification, and the origin of the marker chromosome from a deleted Y chromosome was analyzed by in situ hybridization. The proximal limits of a deletion in Yq were defined by the absence of Southern blot hybridization signals upon probing with Yq11 markers. Cytogenetics and molecular methods taken together indicate a deletion in q11.21. In addition, the loss of Yp subtelomeric sequences was suggested by the analysis of Southern blots hybridized with a 29A24 (DXYS14) probe and by the presence of coarctation of the aorta tentatively localized in Yp. The karyotype of the patient was suggested to be: 46,X,del (Y) (
p11
.3-q11.21).
...
PMID:Characterization of a deleted Y chromosome in a male with Turner stigmata. 846 91
Contiguous gene syndromes (CGS) are a group of disorders associated with chromosomal rearrangements of which the phenotype is thought to result from altered copy numbers of physically linked dosage-sensitive genes. Smith-Magenis syndrome (SMS) is a CGS associated with a deletion within band
p11
.2 of chromosome 17. Recently, patients harboring the predicted reciprocal duplication product [dup(17)(
p11
.2p11.2)] have been described as having a relatively mild phenotype. By chromosomal engineering, we created rearranged chromosomes carrying the deletion [Df(11)17] or duplication [Dp(11)17] of the syntenic region on mouse chromosome 11 that spans the genomic interval commonly deleted in SMS patients. Df(11)17/+ mice exhibit craniofacial abnormalities, seizures, marked
obesity
, and male-specific reduced fertility. Dp(11)17/+ animals are underweight and do not have seizures, craniofacial abnormalities, or reduced fertility. Examination of Df(11)17/Dp(11)17 animals suggests that most of the observed phenotypes result from gene dosage effects. Our murine models represent a powerful tool to analyze the consequences of gene dosage imbalance in this genomic interval and to investigate the molecular genetic bases of both SMS and dup(17)(
p11
.2p11.2).
...
PMID:Modeling del(17)(p11.2p11.2) and dup(17)(p11.2p11.2) contiguous gene syndromes by chromosome engineering in mice: phenotypic consequences of gene dosage imbalance. 1272 22
Smith-Magenis syndrome (SMS) is a multiple congenital anomaly/mental retardation syndrome associated with del(17)(
p11
.2p11.2). The phenotype is variable even in patients with deletions of the same size. RAI1 has been recently suggested as a major gene for majority of the SMS phenotypes, but its role in the full spectrum of the phenotype remains unclear. Df(11)17/+ mice contain a heterozygous deletion in the mouse region syntenic to the SMS common deletion, and exhibit craniofacial abnormalities, seizures and marked
obesity
, partially reproducing the SMS phenotype. To further study the genetic basis for the phenotype, we constructed three lines of mice with smaller deletions [Df(11)17-1, Df(11)17-2 and Df(11)17-3] using retrovirus-mediated chromosome engineering to create nested deletions. Both craniofacial abnormalities and
obesity
have been observed, but the penetrance of the craniofacial phenotype was markedly reduced when compared with Df(11)17/+ mice. Overt seizures were not observed. Phenotypic variation has been observed in mice with the same deletion size in the same and in different genetic backgrounds, which may reflect the variation documented in the patients. These results indicate that the smaller deletions contain the gene(s), most likely Rai1, causing craniofacial abnormalities and
obesity
. However, genes or regulatory elements in the larger deletion, which are not located in the smaller deletions, as well as genes located elsewhere, also influence penetrance and expressivity of the phenotype. Our mouse models refined the genomic region important for a portion of the SMS phenotype and provided a basis for further molecular analysis of genes associated with SMS.
...
PMID:Reduced penetrance of craniofacial anomalies as a function of deletion size and genetic background in a chromosome engineered partial mouse model for Smith-Magenis syndrome. 1545 75
Aniridia, Wilms tumor, genitourinary abnormalities, growth and mental retardation are the cardinal features of the WAGR 11p13 deletion syndrome. The Potocki-Schaffer syndrome or proximal 11p deletion syndrome (previously DEFECT11 syndrome) is a contiguous gene syndrome associated with deletions in 11p11.2, principal features of which are multiple exostoses and enlarged parietal foramina. Mental handicap, facial dysmorphism and craniosynostosis may also be associated. We report a patient with combined WAGR and Potocki-Shaffer syndromes, and
obesity
. She presented with aniridia, cataract, nystagmus, corneal ulcers and bilateral congenital ptosis. A left nephroblastoma was detected at 15 months. Other features included moderate developmental delay, growth deficiency, facial dysmorphism, multiple exostoses and cranial lacunae. High-resolution and molecular cytogenetics confirmed a del(11)(
p11
.2p14.1) deletion with a proximal breakpoint between the cosmid DO8153 and the BAC RP11-104M24 to a distal breakpoint between cosmids CO8160 (D11S151) and F1238 (D11S1446). The deletion therefore includes EXT2, ALX4, WT1 and PAX6. This case appears to be the second patient reported with this combined deletion syndrome and confirms the association of
obesity
in the WAGR spectrum, a feature previously reported in four cases, and for which the acronym WAGRO has been suggested. Molecular and follow-up data on the original WAGRO case are briefly presented.
...
PMID:Combination of WAGR and Potocki-Shaffer contiguous deletion syndromes in a patient with an 11p11.2-p14 deletion. 1570 31
We report two brothers with hypogonadotropic hypogonadism (HH),
obesity
and short stature associated with a maternally inherited pericentric inversion (X)(
p11
.4q11.2). On the basis that either breakpoint might disrupt a gene whose function is critical to normal sexual development we mapped the chromosomal breakpoints using two-colour fluorescent in situ hybridisation (FISH). The position of both the Xp11.4 and Xq11.2 breakpoints was refined using a panel of ordered BAC clones. No known genes were shown to map to the breakpoint regions. While we cannot entirely exclude the possibility that association between the clinical and cytogenetic phenotypes in the family is coincidental, it is possible that the inversion is responsible for HH through alternative molecular mechanisms such as position effects.
...
PMID:Inherited pericentric inversion (X)(p11.4q11.2) associated with delayed puberty and obesity in two brothers. 1590 41
Aniridia usually occurs in isolation, but may also occur as part of the WAGR contiguous gene deletion syndrome, which includes Wilms tumor, aniridia, genitourinary abnormalities, and mental retardation. The aniridia and predisposition for Wilms tumor seen in WAGR are caused by haploinsufficiency for PAX 6 and WT1, respectively. We present a female infant with aniridia, bilateral ptosis, bilateral posterior capsular cataracts, nystagmus, left-sided glaucoma, microcephaly, mild unilateral hydronephrosis, poor linear growth, and gross motor delay consistent with a clinical diagnosis of WAGR syndrome. In addition, weight-for-height ratio at 12 months is at the 94th centile, raising the possibility of a diagnosis of WAGRO (WAGR +
Obesity
). Chromosome analysis revealed a translocation (11;15)(p13;
p11
.2) which has not been previously associated with a diagnosis of WAGR. Subsequent clinical WAGR fluorescent in situ hybridization (FISH) analysis demonstrated a deletion of 11p13 including PAX6 and WT1. A complete FISH-mapping of the breakpoints on chromosome 11 revealed a 7 Mb deletion within 11p13-11p14. The patient is examined in light of other reported patients with deletions and/or translocations involving the regions between 11p12 --> 11p14 including patients with WAGR +
obesity
(WAGRO) as well as with other reported patients with aniridia and congenital ptosis.
...
PMID:WAGR(O?) syndrome and congenital ptosis caused by an unbalanced t(11;15)(p13;p11.2)dn demonstrating a 7 megabase deletion by FISH. 1664 34
Genomic disorders are conditions that result from DNA rearrangements, such as deletions or duplications. The identification of the dosage-sensitive gene(s) within the rearranged genomic interval is important for the elucidation of genes responsible for complex neurobehavioral phenotypes. Smith-Magenis syndrome is associated with a 3.7-Mb deletion in 17p11.2, and its clinical presentation is caused by retinoic acid inducible 1 (RAI1) haploinsufficiency. The reciprocal microduplication syndrome, dup(17)(
p11
.2p11.2), manifests several neurobehavioral abnormalities, but the responsible dosage-sensitive gene(s) remain undefined. We previously generated a mouse model for dup(17)(
p11
.2p11.2), Dp(11)17/+, that recapitulated most of the phenotypes observed in human patients. We have now analyzed compound heterozygous mice carrying a duplication [Dp(11)17] in one chromosome 11 along with a null allele of Rai1 in the other chromosome 11 homologue [Dp(11)17/Rai1(-) mice] in order to study the relationship between Rai1 gene copy number and the Dp(11)17/+ phenotypes. Normal disomic Rai1 gene dosage was sufficient to rescue the complex physical and behavioral phenotypes observed in Dp(11)17/+ mice, despite altered trisomic copy number of the other 18 genes present in the rearranged genomic interval. These data provide a model for variation in copy number of single genes that could influence common traits such as
obesity
and behavior.
...
PMID:Rai1 duplication causes physical and behavioral phenotypes in a mouse model of dup(17)(p11.2p11.2). 1702 48
We report a female patient with a de novo balanced translocation, 46,X,t(X;2)(
p11
.2;q37)dn, who exhibits seizures, capillary abnormality, developmental delay, infantile hypotonia, and
obesity
. The 2q37 breakpoint observed in association with the seizure phenotype is of particular interest, because it lies near loci implicated in epilepsy in humans and mice. Fluorescence in situ hybridization mapping of the translocation breakpoints showed that no known genes are disrupted at Xp11.2, whereas diacylglycerol kinase delta (DGKD) is disrupted at 2q37. Expression studies in Drosophila and mouse suggest that DGKD is involved in central nervous system development and function. Electroencephalographic assessment of Dgkd mutant mice revealed abnormal epileptic discharges and electrographic seizures in three of six homozygotes. These findings implicate DGKD disruption by the t(X;2)(
p11
.2;q37)dn in the observed phenotype and support a more general role for DGKD in the etiology of seizures.
...
PMID:Disruption of diacylglycerol kinase delta (DGKD) associated with seizures in humans and mice. 1735 84
Duplications of the short arm of the X chromosome in male patients are rare. We report on the clinical features of mentally retarded patients in two families with different interstitial duplications of Xp and their characterization by tiling path array comparative genomic hybridization (array CGH). In Family A, we detected a duplication of 9.3 Mb in Xp11p21 in a male with severe mental retardation [karyotype 46,XY,dup(X)(
p11
.3p21.1)] and his healthy mother. The clinical features of this patient--severe mental retardation,
obesity
, macrocephaly--are in accordance with those of a previously reported patient with a similar duplication. In Family B, a duplication of 8.5 Mb was diagnosed in Xp22 in three male patients with mental retardation [karyotype 46,XY,dup(X)(p22.11p22.2)] and two healthy females. Characterization of the duplications by array CGH enabled the identification of the genes within these intervals. These comprise known mental retardation genes such as MAOA, NDP, TM4SF2, NDP, RSK2, and CDKL5. Duplication of MAOA will be discussed as a possible cause of
obesity
.
...
PMID:Characterization of interstitial Xp duplications in two families by tiling path array CGH. 1807 17
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