1. Investigation of Genetic Defects in Severe Combined Immunodeficiency Patients from Turkey by Targeted Sequencing.
- Author
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Erman, B., Bilic, I., Hirschmugl, T., Salzer, E., Boztug, H., Sanal, Ö., Çağdaş Ayvaz, D., Tezcan, I., and Boztug, K.
- Subjects
IMMUNODEFICIENCY ,DISEASE susceptibility ,GENE targeting ,MEDICAL decision making ,GENETICS ,THERAPEUTICS - Abstract
Primary immunodeficiencies ( PIDs) represent a large group of disorders with an increased susceptibility to infections. Severe combined immunodeficiency ( SCID) is the most severe form of primary immunodeficiencies ( PIDs) with marked T-cell lymphopenia. Investigation of the genetic aetiology using classical Sanger sequencing is associated with considerable diagnostic delay. We here established a custom-designed, next-generation sequencing (NGS)-based panel to efficiently identify disease-causing genetic defects in PID patients and applied this method in SCID patients of Turkish origin with previously undefined genetic aetiology. We used HaloPlex enrichment technology, a targeted, NGS-based method which was designed to diagnose patients with SCID and other PIDs. Our HaloPlex panel included a total of 356 PID-related genes, and we searched disease-causing mutations in 19 Turkish SCID patients without a genetic diagnosis. The coverage of targeted regions ranged from 97.47% to 99.62% with an average of 98.31% for all patients. All known SCID genes were covered with a percentage of at least 97.3%. We made a genetic diagnosis in six of 19 (33%) patients, including four novel disease-causing mutations identified in RAG1, JAK3 and IL2 RG, respectively. We showed that this NGS-based method can provide rapid genetic diagnosis for patients suffering from SCID, potentially facilitating clinical treatment decisions. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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