Another family with a euchromatic duplication variant of 9q13-q21.1 derived from segmentally duplicated pericentromeric euchromatin.

Microscopically visible copy number variations within the proximal short arm heterochromatin and proximal long arm of chromosome 9 have been described as euchromatic variants (EVs) and are derived from extensive segmental duplications (SDs) that map to both the proximal short and long arms of chromosome 9. Recently, 3-4 additional copies of an SD cassette were found in 2 families with duplication EVs of 9q13-q21. Here, we report a third family with a duplication EV of 9q13-q21.1 that was ascertained at prenatal diagnosis for advanced maternal age and found in the fetus and her phenotypically normal mother. Dual-colour fluorescence in situ hybridization with bacterial artificial chromosomes RP11-246P17 and RP11-211E19 was consistent with the EV chromosome having 1-2 additional copies of a similar SD cassette, except that the SD-boundary clone RP11-88I18 was not apparently included. It is important to distinguish the 9q13-q21.1 EVs from possible pathogenic imbalances of chromosome 9, especially at prenatal diagnosis, as these EVs have no established phenotypic or reproductive consequences. The nature of the G-dark bands in 9q13-q21 EVs is briefly discussed.

A novel pseudo-dicentric variant of 16p11.2-q11.2 contains euchromatin from 16p11.2-p11.1 and resembles pathogenic duplications of proximal 16q.

An unusually large G-light band between 2 G-dark bands in the proximal long arm of chromosome 16 was found in a boy of 5 years of age ascertained with growth retardation, microcephaly, and dysmorphic features. Dual color bacterial artificial chromosome fluorescence in situ hybridization (BAC FISH) and oligonucleotide array comparative genomic hybridization (oaCGH) were used to show that these bands contained a euchromatic duplication of a minimum of 940 kb between base pairs 34,197,413-35,137,025 in 16p11.2-p11.1 as well as a duplication of the centromere and major 16qh/16p11.2 heterochromatic block, covering a minimum of 12.3 Mb. The same pseudo-dicentric chromosome was found in the father who has attention deficit hyperactivity disorder (ADHD). The euchromatic region is not known to be subject to imprinting and overlaps multiple large copy number variations (CNVs) in the Database of Genomic Variants as well as similar CNVs that are benign or of uncertain significance in the International Standards for Cytogenomic Arrays database. We conclude that this family has a novel pseudo-dicentric euchromatic variant of chromosome 16 that is unlikely to be the cause of the variable phenotype in father and son but needs to be distinguished from heterochromatic variants or pathogenic duplications of proximal 16q.

Duplication of 8p23.1: a cytogenetic anomaly with no established clinical significance.

We present seven families with a cytogenetic duplication of the short arm of chromosome 8 at band 8p23.1. The duplication has been transmitted from parents to offspring in four of the seven families. In three families, the source of the extra material and its euchromatic origin were established using FISH with a YAC which was mapped to 8p23.1 and a whole chromosome paint for chromosome 8. FISH signals from this YAC were significantly larger on the duplicated chromosome compared with the normal chromosome in all six family members tested. Comparative genomic hybridisation (CGH) on a representative subject was consistent with these results. The families were ascertained for a variety of mostly incidental reasons including prenatal diagnosis for advanced maternal age. The transmission of this duplication by multiple phenotypically normal family members with no history of reproductive loss suggests the existence of a novel class of 8p23.1 duplications, which can be regarded as euchromatic variants or duplications with no phenotypic effect.