Kei Ohashi 1 , Takao Togawa 1 , Tokio Sugiura 1 , Koichi Ito 1 , Takeshi Endo 1 , Kohei Aoyama 1 , Yutaka Negishi 1 , Toyoichiro Kudo 2 , Reiko Ito 2 , Shinji Saitoh 1 Show Affiliations »
Abstract
AIM: We evaluated combined genetic analyses with targeted next-generation sequencing (NGS), multiplex ligation probe amplification (MLPA) of Jagged1 (JAG1) genes and microarray comparative genomic hybridisation (CGH) in subjects with Alagille syndrome, incomplete clinical features of Alagille syndrome and biliary atresia. METHODS: Subjects recruited from April 2013 to December 2015 underwent a targeted NGS analysis, including JAG1 and Notch homolog 2 (NOTCH2). If no mutations were detected in JAG1 or NOTCH2, or if copy number variations were suggested by the NGS analysis, we performed an MLPA analysis of JAG1. We also performed a microarray CGH analysis with whole-exon deletion detected by the MLPA analysis. RESULTS: We analysed 30 subjects with Alagille syndrome, nine with incomplete Alagille syndrome and 17 with biliary atresia and detected pathogenic mutations in JAG1 or NOTCH2 in 24/30 subjects with Alagille syndrome and in 4/9 subjects with incomplete Alagille syndrome. No pathogenic mutations were detected in subjects with biliary atresia. The frequency of JAG1 mutations was as follows: single nucleotide variants (51.9%), small insertion or deletion (29.6%) and gross deletion (18.5%). CONCLUSION: Combined genetic analyses achieved efficient diagnostic yields for subjects with Alagille syndrome and incomplete Alagille syndrome. ©2017 Foundation Acta Paediatrica. Published by John Wiley & Sons Ltd.
AIM: We evaluated combined genetic analyses with targeted next-generation sequencing (NGS), multiplex ligation probe amplification (MLPA) of Jagged1 (JAG1 ) genes and microarray comparative genomic hybridisation (CGH) in subjects with Alagille syndrome , incomplete clinical features of Alagille syndrome and biliary atresia . METHODS: Subjects recruited from April 2013 to December 2015 underwent a targeted NGS analysis, including JAG1 and Notch homolog 2 (NOTCH2 ). If no mutations were detected in JAG1 or NOTCH2 , or if copy number variations were suggested by the NGS analysis, we performed an MLPA analysis of JAG1 . We also performed a microarray CGH analysis with whole-exon deletion detected by the MLPA analysis. RESULTS: We analysed 30 subjects with Alagille syndrome , nine with incomplete Alagille syndrome and 17 with biliary atresia and detected pathogenic mutations in JAG1 or NOTCH2 in 24/30 subjects with Alagille syndrome and in 4/9 subjects with incomplete Alagille syndrome . No pathogenic mutations were detected in subjects with biliary atresia . The frequency of JAG1 mutations was as follows: single nucleotide variants (51.9%), small insertion or deletion (29.6%) and gross deletion (18.5%). CONCLUSION: Combined genetic analyses achieved efficient diagnostic yields for subjects with Alagille syndrome and incomplete Alagille syndrome . ©2017 Foundation Acta Paediatrica. Published by John Wiley & Sons Ltd.
Entities: Disease
Gene
Keywords:
Alagille syndrome; Biliary atresia; Microarray comparative genomic hybridisation; Multiplex ligation probe amplification; Next-generation sequencing
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Year: 2017
PMID: 28695677 DOI: 10.1111/apa.13981
Source DB: PubMed Journal: Acta Paediatr ISSN: 0803-5253 Impact factor: 2.299