Sodium Channel Gene Variants in Fetuses with Abnormal Sonographic Findings: Expanding the Prenatal Phenotypic Spectrum of Sodium Channelopathies.

Voltage-gated sodium channels (VGSCs) are responsible for the initiation and propagation of action potentials in the brain and muscle. Pathogenic variants in genes encoding VGSCs have been associated with severe disorders including epileptic encephalopathies and congenital myopathies. In this study, we identified pathogenic variants in genes encoding the α subunit of VGSCs in the fetuses of two unrelated families with the use of trio-based whole exome sequencing, as part of a larger cohort study.

Hereditary multiple exostoses caused by a chromosomal inversion removing part of EXT1 gene.

Background: Hereditary multiple exostoses (HME) is an autosomal dominant skeletal disorder characterized by the development of multiple, circumscript and usually symmetric bony protuberances called osteochondromas. Most HME are caused by EXT1 and EXT2 loss of function mutations. Most pathogenic mutations are nonsense followed by missense mutations and deletions.

An unusual combination of an atypical maternally inherited novel 0.3 Mb deletion in Williams-Beuren region and a de novo 22q11.21 microduplication in an infant with supravalvular aortic stenosis.

Williams-Beuren syndrome (WBS) is a rare neurodevelopmental disorder characterized by supravalvular aortic stenosis (SVAS), intellectual disability, overfriendliness and dysmorphic features. It is typically caused by 1.5-1.

De novo mosaic mutation in a female with Rett syndrome.

We describe a female with Rett syndrome carrying a rare de novo mosaic nonsense mutation on gene, with random X-chromosome inactivation. Rett syndrome severity in females depends on mosaicism level and tissue specificity, X-chromosome inactivation, epigenetics and environment. Rett syndrome should be considered in both males and females.

Haploinsufficiency of the miR-873/miR-876 microRNA cluster is associated with craniofacial abnormalities.

MicroRNA haploinsufficiency has been associated with developmental defects in only a limited number of cases. Here we report a de novo genomic microdeletion that includes the LINGO2 gene as well as two microRNA genes, MIR873 and MIR876, in a patient with craniofacial abnormalities - in particular macrocephaly and hypertelorism - and learning difficulties. Subsequent analysis revealed that the microRNAs affected by this de novo microdeletion form a mammalian-lineage, neuronal tissue-enriched cluster.

Screening of 50 cypriot patients with autism spectrum disorders or autistic features using 400K custom array-CGH.

Autism spectrum disorders (ASDs) comprise a distinct entity of neurodevelopmental disorders with a strong genetic component. Despite the identification of several candidate genes and causative genomic copy number variations (CNVs), the majority of ASD cases still remain unresolved. We have applied microarray-based comparative genomic hybridization (array-CGH) using Agilent 400K custom array in the first Cyprus population screening for identification of ASD-associated CNVs.

263.4 kb deletion within the TCF4 gene consistent with Pitt-Hopkins syndrome, inherited from a mosaic parent with normal phenotype.

Pitt-Hopkins syndrome (PTHS) is a rare neurodevelopmental genetic disorder, remaining under-diagnosed due to similarities with other known genetic syndromes. It is mainly characterized by severe intellectual disability, overbreathing, a typical facial gestalt, tendency to epilepsy and is caused by TCF4 haploinsufficiency. We report on a 14-year old boy, born to healthy non-consanguineous parents, with a PTHS spectrum phenotype, presenting with moderate to severe developmental delay, severe speech delay and facial dysmorphism.

9 Mb familial duplication in chromosome band Xp22.2-22.13 associated with mental retardation, hypotonia and developmental delay, scoliosis, cardiovascular problems and mild dysmorphic facial features.

We report on a family with syndromic X-linked mental retardation (XLMR) caused by an Xp22.2-22.13 duplication.

21 Mb deletion in chromosome band 13q22.2q32.1 associated with mild/moderate psychomotor retardation, growth hormone insufficiency, short neck, micrognathia, hypotonia, dysplastic ears and other dysmorphic features.

We report on a 9-month old boy carrying a 21 Mb de novo 13q interstitial deletion. The imbalance was detected by chromosomal analysis and investigated by Fluorescence In Situ Hybridization (FISH) and Comparative Genomic Hybridization (array-CGH) using two different platforms: a BAC microarray with 516 kb resolution (Cytochip) and a 15 kb resolution oligonucleotide microarray (Agilent 244K). The deletion has been estimated to span 21.

Multiplex Amplifiable Probe Hybridization (MAPH) methodology as an alternative to comparative genomic hybridization (CGH).

Genomic imbalances in locus copy-number are highly significant for the diagnosis and prognosis of cancer. Rapidly progressing DNA microarray technologies detect such pathogenic copy-number changes in the genome with high throughput, efficiency, and resolution. A variety of different microarray-based approaches have emerged, with array comparative genomic hybridization (array-CGH) being the method of choice in current clinical practice.

A new chromosome x exon-specific microarray platform for screening of patients with X-linked disorders.

Recent studies and advances in high-density oligonucleotide arrays have shown that microdeletions and microduplications occur at a high frequency in the human genome, causing various genetic conditions including mental retardation. Thus far little is known about the pathways leading to this disease, and implementation of microarrays is hampered by their increasing cost and complexity, underlining the need for new diagnostic tools. The aim of this study was to introduce a new targeted platform called "chromosome X exon-specific array" and to apply this new platform to screening of 20 families (including one blind positive control) with suspected X-linked mental retardation, to identify new causative X-linked mental retardation genes.

Array-MAPH: a methodology for the detection of locus copy-number changes in complex genomes.

High-throughput genome-wide screening methods to detect subtle genomic imbalances are extremely important for diagnostic genetics and genomics. Here, we provide a detailed protocol for a microarray-based technique, applying the principle of multiplex amplifiable probe hybridization (MAPH). Methodology and software have been developed for designing unique PCR-amplifiable sequences (400-600 bp) covering any genomic region of interest.

Screening of 20 patients with X-linked mental retardation using chromosome X-specific array-MAPH.

The rapid advancement of high-resolution DNA copy number assessment methods revealed the significant contribution of submicroscopic genetic imbalances to abnormal phenotypes, including mental retardation. In order to detect submicroscopic genetic imbalances, we have screened 20 families with X-linked mental retardation (XLMR) using a chromosome X-specific array-MAPH platform with median resolution of 238kb. Among the 20 families, 18 were experimental, as they were not previously screened with any microarray method, and two were blind controls with known aberrations, as they were previously screened by array-CGH.

Detection of small genomic imbalances using microarray-based multiplex amplifiable probe hybridization.

Array-based genome-wide screening methods were recently introduced to clinical practice in order to detect small genomic imbalances that may cause severe genetic disorders. The continuous advancement of such methods plays an extremely important role in diagnostic genetics and medical genomics. We have modified and adapted the original multiplex amplifiable probe hybridization (MAPH) to a novel microarray format providing an important new diagnostic tool for detection of small size copy-number changes in any locus of human genome.

MAPH: from gels to microarrays.

The development of accurate and sensitive methodologies to detect small chromosomal imbalances (<3 Mb) is extremely important in clinical diagnostics and research in human genetics. The technique of array-comparative genomic hybridization (CGH) using BAC and PAC clones is very sensitive methodology and is rapidly becoming the method of choice for high-resolution screening of genomic copy-number changes. An alternative methodology to CGH is the multiplex amplifiable probe hybridization (MAPH) methodology, a DNA based method that allows the accurate and reliable determination of changes in copy number in "known" or "unknown locations" in the human genome.

Identification of high frequency of Y chromosome deletions in patients with sex chromosome mosaicism and correlation with the clinical phenotype and Y-chromosome instability.

A mosaic karyotype consisting of a 45,X cell line and a second cell line containing a normal or an abnormal Y chromosome is relatively common and is associated with a wide spectrum of clinical phenotypes. The aim of this study was to investigate patients with such a mosaic karyotype for Y chromosome material loss and then study the possible association of the absence of these regions with the phenotype, diagnosis, and Y-chromosome instability. We studied 17 clinically well-characterized mosaic patients whose karyotype consisted of a 45,X cell line and a second cell line containing a normal or an abnormal Y chromosome.