Abstract
PURPOSE: To determine the genetic cause of infertility in two unrelated families of female patients suffering from oocyte degeneration and fertilization failure. METHODS: Whole exome sequencing and Sanger sequencing were performed to identify the disease-causing genes of infertility in two unrelated female patients. Minigene experiments were conducted to confirm the effect of splice site mutations on mRNA splicing. RESULTS: In two unrelated female infertility patients, a novel compound heterozygous splicing mutation (c.516-1G > T and c.877-1G > A) in PATL2 gene and a novel homozygous splicing mutation (c.1222-1G > A) in WEE2 gene were identified. Minigene splicing assays revealed that the c.516-1G > T mutation in PATL2 resulted in a deletion of 8 bases in mRNA that causes a frameshift (c.516-523delTCCCCCAG, p.P173Q fs*13). The c.877-1G > A mutation led to the skipping of exons 10 and 11 and retention of introns 8-9 in PATL2 mRNA. The c.1222-1G > A mutation resulted in the deletion of exon 9 in WEE2 mRNA, leading to an in-frame deletion of 57 amino acids in the WEE2 protein (p.408-464del). CONCLUSION: Our study discovered novel splicing mutations in PATL2 and WEE2, further expanding the mutation spectrum of these two genes and providing guidance for genetic counseling and diagnosis of female infertility.