Xiangyin Liu1, Han Zhang1, Xinyue Zhang1, Hongguo Zhang1, Yuting Jiang1, Ruizhi Liu1, Jia Fei2, Ying Wang2, Yang Yu3. 1. Center for Reproductive Medicine, Center of Prenatal Diagnosis, First Hospital, Jilin University, 71th. Xin-min Street, Changchun, 130021, Jilin Province, People's Republic of China. 2. Peking Medriv Academy of Genetics and Reproduction, Peking, 102629, China. 3. Center for Reproductive Medicine, Center of Prenatal Diagnosis, First Hospital, Jilin University, 71th. Xin-min Street, Changchun, 130021, Jilin Province, People's Republic of China. yuyang0351@126.com.
Abstract
PURPOSE: To provide a validated method to identify copy number variation (CNV) in regions of the Y chromosome of infertile men by next-generation sequencing (NGS). METHODS: Semen analysis was used to determine the quality of semen and diagnose infertility. Deletion of the azoospermia factor (AZF) region in the Y chromosome was detected by a routine sequence-tagged-site PCR (STS-PCR) method. We then used the NGS method to detect CNV in the AZF region, including deletions and duplications. RESULTS: A total of 326 samples from male infertility patients, family members, and sperm donors were studied between January 2011 and May 2017. AZF microdeletions were detected in 120 patients by STS-PCR, and these results were consistent with the results from NGS. In addition, of the 160 patients and male family members who had no microdeletions detected by STS-PCR, 51 cases were found to exhibit Y chromosome structural variations by the NGS method (31.88%, 51/160). No microdeletions were found in 46 donors by STS-PCR, but the NGS method revealed 11 of these donors (23.91%, 11/46) carried structural variations, which were mainly in the AZFc region, including partial deletions and duplications. CONCLUSION: The established NGS method can replace the conventional STS-PCR method to detect Y chromosome microdeletions. The NGS method can detect CNV, such as partial deletion or duplication, and provide details of the abnormal range and size of variations.
PURPOSE: To provide a validated method to identify copy number variation (CNV) in regions of the Y chromosome of infertile men by next-generation sequencing (NGS). METHODS: Semen analysis was used to determine the quality of semen and diagnose infertility. Deletion of the azoospermia factor (AZF) region in the Y chromosome was detected by a routine sequence-tagged-site PCR (STS-PCR) method. We then used the NGS method to detect CNV in the AZF region, including deletions and duplications. RESULTS: A total of 326 samples from male infertility patients, family members, and sperm donors were studied between January 2011 and May 2017. AZF microdeletions were detected in 120 patients by STS-PCR, and these results were consistent with the results from NGS. In addition, of the 160 patients and male family members who had no microdeletions detected by STS-PCR, 51 cases were found to exhibit Y chromosome structural variations by the NGS method (31.88%, 51/160). No microdeletions were found in 46 donors by STS-PCR, but the NGS method revealed 11 of these donors (23.91%, 11/46) carried structural variations, which were mainly in the AZFc region, including partial deletions and duplications. CONCLUSION: The established NGS method can replace the conventional STS-PCR method to detect Y chromosome microdeletions. The NGS method can detect CNV, such as partial deletion or duplication, and provide details of the abnormal range and size of variations.
Entities:
Keywords:
Copy number variation (CNV); Male infertility; Next generation sequencing (NGS); Spermatogenic failure; Y chromosome microdeletion