Total submissions: 1
Submitter | RCV | SCV | Clinical significance | Condition | Last evaluated | Review status | Method | Comment |
---|---|---|---|---|---|---|---|---|
Laboratory of Molecular Genetics, |
RCV000855400 | SCV000995036 | likely pathogenic | Cataract 18 | 2018-12-02 | criteria provided, single submitter | research | Congenital cataract is a major cause of vision loss in children worldwide, as it leads to lens opacity that consequently could lead to different impairment of vision including vision loss Identification c.1621C>T (p.Gln541*) in gene FYCO1 We examined 57 visually impaired and blind students of special boarding schools in Yakutsk. 32 children were selected from 29 families (three affected siblings in two families) with congenital cataract (Table 1). In one from 3 samples of affected children with congenital cataract from one Yakut family we used whole exome sequencing (WES) on Illumina NextSeq 500. The results of WES showed a novel homozygous variant c.1621C>T (p.Gln541*) in exon 8 FYCO1 gene (FYVE and coiled-coil domain containing 1) (chr3:46009205G>A). The FYCO1 gene is located in chromosome 3 (3p21.31) and consists of 21 exons. The variant c.1621C>T (p.Gln541*) was found in homozygous state in other affected siblings and in heterozygous state in their non-affected parents of this Yakut family. The presence of this pathogenic variant in FYCO1 gene was further tested by Sanger sequencing and PCR-RLFP methods in all members from this Yakut family. Screening of the variant c.1621C>T (p.Gln541*) in FYCO1 in 29 families with congenital cataract We conducted the screening of the variant c.1621C>T (p.Gln541*) in other 29 families with congenital cataract from the Sakha Republic of Russia. The variant c.1621C>T (p.Gln541*) was detected in affected individuals in 25 out of 29 families and autosomal recessive cataract (CTRCT18, OMIM 610019) was approved by segregating with phenotypes of non-affected relatives. In one family in affected individual the substitution of c.1621C>T was found in heterozygous state (1/29, 3%), in three families the substitution was not found (3/29, 10%). Thus, in these Yakut families the DNA-testing was not informative, as other changes both in FYCO1 and other genes caused the congenital cataract. Therefore, in 25 out of 29 unrelated families (87,5%) with congenital cataract from the Sakha Republic of Russia were caused by homozygous transition c.1621C>T (p.Gln541*) in FYCO1 gene. |