BACKGROUND: The cystic fibrosis transmembrane conductance regulator (CFTR) gene, responsible for the development of cystic fibrosis, is known as a pancreatitis susceptibility gene. Direct DNA sequencing of PCR-amplified CFTR gene segments is a first-line method to detect unknown mutations, but it is a tedious and labor-intensive endeavor given the large size of the gene (27 exons, 1,480 amino acids). Next-generation sequencing (NGS) is becoming standardized, reducing the cost of DNA sequencing, and enabling the generation of millions of reads per run. We here report a comprehensive analysis of CFTR variants in Japanese patients with chronic pancreatitis using NGS coupling with target capture. METHODS: Exon sequences of the CFTR gene from 193 patients with chronic pancreatitis (121 idiopathic, 46 alcoholic, 17 hereditary, and nine familial) were captured by HaloPlex target enrichment technology, followed by NGS. RESULTS: The sequencing data covered 91.6 % of the coding regions of the CFTR gene by ≥ 20 reads with a mean read depth of 449. We could identify 12 non-synonymous variants including three novel ones [c.A1231G (p.K411E), c.1753G>T (p.E585X) and c.2869delC (p.L957fs)] and seven synonymous variants including three novel ones in the exonic regions. The frequencies of the c.4056G>C (p.Q1352H) and the c.3468G>T (p.L1156F) variants were higher in patients with chronic pancreatitis than those in controls. CONCLUSIONS: Target sequence capture combined with NGS is an effective method for the analysis of pancreatitis susceptibility genes.
BACKGROUND: The cystic fibrosis transmembrane conductance regulator (CFTR) gene, responsible for the development of cystic fibrosis, is known as a pancreatitis susceptibility gene. Direct DNA sequencing of PCR-amplified CFTR gene segments is a first-line method to detect unknown mutations, but it is a tedious and labor-intensive endeavor given the large size of the gene (27 exons, 1,480 amino acids). Next-generation sequencing (NGS) is becoming standardized, reducing the cost of DNA sequencing, and enabling the generation of millions of reads per run. We here report a comprehensive analysis of CFTR variants in Japanese patients with chronic pancreatitis using NGS coupling with target capture. METHODS: Exon sequences of the CFTR gene from 193 patients with chronic pancreatitis (121 idiopathic, 46 alcoholic, 17 hereditary, and nine familial) were captured by HaloPlex target enrichment technology, followed by NGS. RESULTS: The sequencing data covered 91.6 % of the coding regions of the CFTR gene by ≥ 20 reads with a mean read depth of 449. We could identify 12 non-synonymous variants including three novel ones [c.A1231G (p.K411E), c.1753G>T (p.E585X) and c.2869delC (p.L957fs)] and seven synonymous variants including three novel ones in the exonic regions. The frequencies of the c.4056G>C (p.Q1352H) and the c.3468G>T (p.L1156F) variants were higher in patients with chronic pancreatitis than those in controls. CONCLUSIONS: Target sequence capture combined with NGS is an effective method for the analysis of pancreatitis susceptibility genes.
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Authors: Daniel Trujillano; Maximilian E R Weiss; Julia Köster; Efstathios B Papachristos; Martin Werber; Krishna Kumar Kandaswamy; Anett Marais; Sabrina Eichler; Jenny Creed; Erol Baysal; Iqbal Yousuf Jaber; Dina Ahmed Mehaney; Chantal Farra; Arndt Rolfs Journal: Mol Genet Genomic Med Date: 2015-04-16 Impact factor: 2.183
Authors: Marco L Leung; Deborah J Watson; Courtney N Vaccaro; Fernanda Mafra; Adam Wenocur; Tiancheng Wang; Hakon Hakonarson; Avni Santani Journal: Sci Data Date: 2020-01-08 Impact factor: 6.444