Basil G. Elyas scite author profile

22q11.2 microduplications of a 3-Mb region surrounded by low-copy repeats should be, theoretically, as frequent as the deletions of this region; however, few microduplications have been reported. We show that the phenotype of these patients with microduplications is extremely diverse, ranging from normal to behavioral abnormalities to multiple defects, only some of which are reminiscent of the 22q11.2 deletion syndrome. This diversity will make ascertainment difficult and will necessitate a rapid-screening method. We demonstrate the utility of four different screening methods. Although all the screening techniques give unique information, the efficiency of real-time polymerase chain reaction allowed the discovery of two 22q11.2 microduplications in a series of 275 females who tested negative for fragile X syndrome, thus widening the phenotypic diversity. Ascertainment of the fragile X-negative cohort was twice that of the cohort screened for the 22q11.2 deletion. We also report the first patient with a 22q11.2 triplication and show that this patient's mother carries a 22q11.2 microduplication. We strongly recommend that other family members of patients with 22q11.2 microduplications also be tested, since we found several phenotypically normal parents who were carriers of the chromosomal abnormality.

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Chromosome 1q21.1 Contiguous Gene Deletion Is Associated With Congenital Heart Disease

Christiansen

Dyck

Elyas

et al. 2004

Circulation Research

142

107

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Abstract-Congenital heart disease (CHD), comprising structural or functional abnormalities present at birth, is the most common birth defect in humans. Reduced expression of connexin40 (Cx40) has been found in association with atrial fibrillation, and deletion of Cx40 in a mouse model causes various structural heart abnormalities in 18% of heterozygotes. We screened 505 unrelated CHD cases for deletions or duplications of the Cx40 gene (GJA5) by real-time quantitative PCR, in order to determine whether altered copy number of this gene may be associated with a cardiac phenotype in humans. Dosage of Cx40 flanking genes (ACPL1 and Cx50 gene, GJA8) was determined by real-time PCR for all apparent positive cases. In total, 3 cases were found to carry deletions on chromosome 1q21.1 spanning ACPL1, Cx40, and Cx50 genes. Absence of heterozygosity was observed in all 3 index cases over a 1.5-to 3-Mb region. Samples from the parents of two cases were obtained, and microsatellites across 1q21.1 were genotyped. One of the apparently unaffected parents was found to carry this deletion. All 3 index cases presented with obstruction of the aortic arch as the common structural cardiac malformation, and had no consistent dysmorphic features. Genotyping of 520 unrelated normal controls for this deletion was negative. We hypothesize that this 1q21.1 multigene deletion is associated with a range of cardiac defects, with anomalies of the aortic arch being a particular feature.

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An HFE Intronic Variant Promotes Misdiagnosis of Hereditary Hemochromatosis

Somerville¹,

Sprysak²,

Hicks³

et al. 1999

The American Journal of Human Genetics

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Integration of combined heteroduplex/restriction fragment length polymorphism analysis on an electrophoresis microchip for the detection of hereditary haemochromatosis

Footz

Somerville

Tomaszewski

et al. 2004

Analyst

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This work describes an integrated method of enzymatic digestion, heteroduplex analysis (HA) and electrophoretic sizing on a microfluidic chip. HA techniques based on microchip electrophoresis are capable of the high sensitivity detection of subtle mutations such as single nucleotide polymorphisms (SNPs) but are not readily able to detect homozygous mutant genotypes. Such homozygous conditions are commonly encountered with the gene implicated in hereditary haemochromatosis, HFE. We employed the restriction fragment length polymorphism (RFLP) method of mutation detection to complement the HA method in a rapid novel on-chip procedure that separated digested PCR fragments to reliably determine the presence or absence of the most important mutations associated with haemochromatosis. This method was able to distinguish the homozygous mutant, heterozygous and homozygous wildtype genotypes. The mutations investigated here (C282Y, H63D and S65C) are often the mutation targets used in the genetic testing for haemochromatosis. This method provides the extremely specific digestion methods needed for the analysis of the known and relatively common mutations that have a significant probability of occurring in a homozygous form. However, the high sensitivity of the HA method is useful in detecting other mutations of lesser likelihood which, by virtue of their rarity, are likely to be present only in a heterozygous form. Although the conventional methods of analysing these mutations require as much as a day to perform, this microchip method, even without robotics or multiplexed operation, can be performed in about 10 min per sample.

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Toward Optimal Detection of the Common Prenatal Aneuploidies by Quantitative Fluorescent–Polymerase Chain Reaction: Comparison of Two Commercial Assays

Scott

Podemski

Wyatt

et al. 2012

Genetic Testing and Molecular Biomarkers

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Basil G. Elyas

Microduplication and Triplication of 22q11.2: A Highly Variable Syndrome

Chromosome 1q21.1 Contiguous Gene Deletion Is Associated With Congenital Heart Disease

An HFE Intronic Variant Promotes Misdiagnosis of Hereditary Hemochromatosis

Integration of combined heteroduplex/restriction fragment length polymorphism analysis on an electrophoresis microchip for the detection of hereditary haemochromatosis

Toward Optimal Detection of the Common Prenatal Aneuploidies by Quantitative Fluorescent–Polymerase Chain Reaction: Comparison of Two Commercial Assays

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