Comprehensive genotyping reveals novel CFTR variants in cystic fibrosis patients from the Russian Federation.

Single nucleotide variants are represented as lines. The height of the line corresponds to the allele frequency. Gross chromosomal copy number variations are shown as arrows. Color corresponds to the mutation type. Complex alleles represented with a clip. Previously reported variants are located above the schematic gene representation. Their names are presented in Table 1 in main text. Novel variants are depicted beneath the schematic gene representation.

Functional reassessment of PAX6 single nucleotide variants by in vitro splicing assay.

Nucleotide variants that disrupt normal splicing might be the cause of a large number of diseases. Nevertheless, because of the complexity of splicing regulation, it is not always possible to accurately predict the effect of nucleotide sequence changes on splicing events and mRNA structure. Thereby, a number of newly identified nucleotide variants are falsely classified as VUS (a variant of uncertain significance). In the present study we used the minigene assay to analyze the functional consequences of six intronic (c.142-5T>G, c.142-14C>G, c.142-64A>C, c.141+4A>G, c.1032+ 6T>G, c.682+4delA), one missense (c.140A>G) and one synonymous (c.174C>T) variants in the PAX6 gene found in patients with congenital aniridia. We revealed that all except one (c.142-64A>C) variants lead to the disruption of normal splicing patterns resulting in premature termination codon formation followed by mRNA degradation through the nonsense mediated decay pathway. This produces a null allele of the PAX6 gene. That allowed us to reclassify the analyzed variants as loss-of-function and to establish their functional role.

A clinical and molecular analysis of branchio-oculo-facial syndrome patients in Russia revealed new mutations in TFAP2A.

Branchio-oculo-facial syndrome (BOFS, OMIM# 113620) is a rare autosomal dominant disorder characterised by branchial cleft sinus defects, ocular anomalies and facial dysmorphisms, including lip or palate cleft or pseudocleft, and is associated with mutations in the TFAP2A gene. Here, we performed clinical analysis and mutation diagnostics in seven BOFS patients in Russia. The phenotypic presentation of BOFS observed in three patients showed high heterogeneity, including variation in its main clinical manifestations (linear loci of cervical cutaneous aplasia, ocular anomalies and orofacial cleft). In certain other cases, isolated ocular anomalies, or an orofacial cleft with accessory BOFS symptoms, were observed. In five BOFS patients, conductive hearing loss was diagnosed. Direct sequencing of the coding region of the TFAP2A gene revealed missense mutations in four BOFS patients. One patient was observed to have a previously described mutation (p.Arg251Gly), while three patients from two families were found to have novel mutations: p.Arg213Ser and p.Val210Asp. These novel mutations were not present in healthy members of the same family and therefore should be classified as de novo.