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Abstract
BackgroundMicroduplications 22q11 have been characterized as a genomic duplication syndrome mediated by nonallelic homologous recombination between region-specific low-copy repeats. Here we report on a 19 years old boy with intellectual disability having an unexpected structurally complex ring small supernumerary marker chromosome (sSMC) originated from a larger trisomy and a smaller tetrasomy of proximal 22q11 harboring additional copies of cat eye syndrome critical regions genes.ResultsPrincipal clinical features were: anorectal and urogenital malformations, total anomalous pulmonary venous return with secundum ASD, hearing defect, preauricular pits, seizure and eczema. The proband also presented some rare or so far not reported clinical findings such as hyperinsulinaemia, severe immunodeficiency and grave cognitive deficits.Chromosome analysis revealed a mosaic karyotype with the presence of a small ring-like marker in 60% of cells. Array CGH detected approximately an 1,2 Mb single and a 0,2 Mb double copy gain of the proximal long arm of chromosome 22. The 1,3 Mb intervening region of chromosome 22 from centromere to the breakpoints showed no copy alteration. The karyotype of the patient was defined as 47,XY,+mar[60]/46,XY[40].ish idic r(22)(q11.1.q11.21) × 4.arr 22q11(17,435, 645-18,656,678) × 3,(17,598,642-17,799,783) × 4 dn.ConclusionsThe present report is the first one with a detailed description of clinical presentation in a patient carrying an atypical size ring sSMC (22) analyzed by array CGH. The specialty of the finding is emphasized by the fact that although the patient had a mosaic sSMC and the amplified region was smaller than in typical cat eye syndrome cases, the clinical presentation was severe.
Highlights
Microduplications 22q11 have been characterized as a genomic duplication syndrome mediated by nonallelic homologous recombination between region-specific low-copy repeats
Chromosome analysis revealed a mosaic karyotype with the presence of a small ring-like marker in 60% of cells in the patient (Figure 2a)
The symmetric localization of the two 22q11 control oligonucleotid segments on the FISH images led us to hypothesize that the starting point of this small supernumerary marker chromosome (sSMC) (22) was a classical inv dup(22)(q11.21) dicentric chromosome and its breakages would have led to an “inv dup del” that stabilizes itself through circularization
Summary
Microduplications 22q11 have been characterized as a genomic duplication syndrome mediated by nonallelic homologous recombination between region-specific low-copy repeats. The sSMC 22q has been characterized as a genomic duplication syndrome mediated by nonallelic homologous recombination between region-specific low-copy repeats, designated LCR22s (eight different, ranging from LCR22-A to LCR22-H) [1] or by der(22)t(11;22)(q23.3;q11.2) originated from malsegregation of a parental balanced translocation between chromosomes 11 and 22 (known as Emanuel Syndrome, OMIM #609029) [2]. The more frequent attribute of CES phenotype [OMIM 115470] includes micrognathia, preauricular pits and/or tags, ocular coloboma, heart and kidney defects, genitourinary anomalies, anal atresia, normal to mild intellectual disability. The penetrance of these dysmorphic features is highly variable
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