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Query: UMLS:C0025362 (
mental retardation
)
15,878
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Smith-Magenis syndrome is characterized by a range of minor physical and facial abnormalities and is caused by a de novo deletion on chromosome 17. Most children function in the moderate to severe ranges of
mental retardation
. Results of a survey on adaptive skills, communicative competence and behavioural abnormalities in 20 children are reported. The findings suggest a strong desire to get in social contact and maintain conversations in spite of their limited cognitive processing. As a group, children with
SMS
are presenting with severe behavioural abnormalities, e.g. self-injury, extreme irritability, ritualistic behaviour. Behaviour problems are more severe than in other genetic syndrome groups as a comparison with Prader-Willi- and Fragile-X-syndrome children reveals. However, functional analysis suggests that it is not independent from situational variables. There is a strong need for behavioural intervention planning as part of family services.
...
PMID:Communicative competence and behavioural phenotype in children with Smith-Magenis syndrome. 1551 28
The unstable, gene-rich chromosome region 17p11.2-p12 is associated with various structural aberrations including supernumerary marker chromosomes (SMCs). In some cases, SMC(17)s utilize the same substrates for recombination as the common recurrent 17p11.2 and 17p12 rearrangements. We report on a 9-year-old girl with a de novo mosaic SMC(17). The der(17) encompasses genetic material from 17p10-p11.2 and is present in 97% of peripheral blood lymphocytes and in 79% of buccal cells. The patient has few features similar to individuals with duplication 17p11.2 including
mental retardation
, language impairment, and sleep disturbances but has normal growth, and no structural abnormalities of the heart, kidneys, or brain. She has no substantial behavioral abnormalities or dysmorphic features. Molecular analyses determined that the der(17) contains RAI1 but not PMP22. We found one chromosome breakpoint within the centromere and the second breakpoint within the distal Smith-Magenis syndrome low-copy repeat (distal
SMS
-REP). Recently we characterized the breakpoints of three other marker chromosomes originating from the proximal short arm of chromosome 17. In all four cases, one breakpoint maps within the centromere and in three cases the second breakpoint maps within a low-copy repeat. We thus propose that genome architecture may play a significant role in the formation of marker chromosomes. We present the cytogenetic, molecular, and clinical data of this patient and compare our results with those of patients with dup(17)(p11.2p11.2) syndrome and other patients with SMC(17).
...
PMID:Trisomy 17p10-p12 due to mosaic supernumerary marker chromosome: delineation of molecular breakpoints and clinical phenotype, and comparison to other proximal 17p segmental duplications. 1615 35
Snyder-Robinson syndrome (SRS, OMIM 309583) is a rare X-linked syndrome characterized by
mental retardation
, marfanoid habitus, skeletal defects, osteoporosis, and facial asymmetry. Linkage analysis localized the related gene to Xp21.3-p22.12, and a G-to-A transition at point +5 of intron 4 of the spermine synthase gene, which caused truncation of the
SMS
protein and loss of enzyme activity, was identified in the original family. Here we describe another family with Snyder-Robinson syndrome in two Mexican brothers and a novel mutation (c.496T>G) in the exon 5 of the
SMS
gene confirming its involvement in this rare X-linked
mental retardation
syndrome.
...
PMID:A missense mutation, p.V132G, in the X-linked spermine synthase gene (SMS) causes Snyder-Robinson syndrome. 1920 78
Development and implementation of high-density DNA arrays demonstrated the important role of copy number changes on the X chromosome in the etiology of developmental delay and
mental retardation
(MR). We describe two unrelated patients with developmental delay due to similar interstitial duplications at Xp21-p22. The first patient is a 6-month-old male with multiple affected family members including many females. The second patient is a 5-year-old adopted female. In both patients, chromosome analysis and array comparative genomic hybridization (aCGH) showed duplications of overlapping regions at Xp21-p22. The duplicated segments contain numerous genes associated with MR, including AP1S2, NHS, CDKL5, RPS6KA3,
SMS
, and ARX. Except for developmental delay, there is little phenotypic overlap between the male and the female patient. Additionally, the female patient and affected female relatives of the male patient have variable severities of cognitive impairment, likely due to different X-inactivation patterns and effects of other, nonduplicated genes important for normal development. These cases illustrate that increased gene dosage of X-linked MR genes lead to cognitive impairment. Precise delineation of chromosome rearrangements by aCGH and identification of genes within duplicated segments helped in establishing genotype-phenotype correlations for each of our patients, in comparing them to each other, as well as with previously reported cases of Xp21-p22 duplications. However, we show that even with detailed molecular characterization, phenotype prediction remains challenging in patients with structural abnormalities of the X chromosome.
...
PMID:Clinical and molecular characterization of overlapping interstitial Xp21-p22 duplications in two unrelated individuals. 2035
