ABSTRACT
OBJECTIVE: To investigate the value of single-sperm sequencing technology in preimplantation genetic testing. METHODS: Haplotypes were constructed by single-sperm isolation combined with single-sperm sequencing for a patient with autosomal dominant polycystic kidney disease (ADPKD) caused by de novo mutation of the PKD1 gene c.3815T>G. 50. Single-sperm samples were isolated by mechanical braking, whole-genome amplification was performed, and mutation loci and their 187 upstream and downstream single nucleotide polymorphisms (SNP) were designed. The amplified products were verified for determination of the chromosome haplotypes carrying or not carrying pathogenic mutations. The embryos carrying pathogenic mutations were identified in 7 embryonic trophectoderm cell biopsy samples by high-throughput sequencing after whole-genome amplification. Available blastocysts were selected for embryo transfer, and amniotic fluid samples were collected at 18 weeks of gestation to determine whether the fetuses carried pathogenic mutations. RESULTS: A total of 30 SNPs were identified by single-sperm sequencing, and haplotypes were successfully constructed. Preimplantation haplotype analysis indicated that 5 embryos carried pathogenic mutations and 2 did not. mid-gestation amniotic fluid genetic testing revealed no PKD1 gene c.3815T>G mutation in the fetuses. CONCLUSION: SNPs can be identified by single-sperm sequencing in males carrying de novo pathogenic mutation, and haplotypes can be constructed by linkage analysis for preimplantation genetic testing of embryos.
