Xp;Yq Unbalanced Translocation with Pseudoautosomal Region Aberrations in a Natural Two-Generation Transmission

Recurrent Xp22.31-Yq11 Unbalanced Translocations: Molecular Diagnosis and Clinical Implications in Three Families

Unbalanced translocation between chromosomes X and Y is a recurring chromosomal rearrangement. The presence of a derivative chromosome X (derX), where a Yq11-qter segment is attached to the short arm of chromosome X, replacing a terminal Xpter-p22.31, poses challenges for interpretation of findings by prenatal cell-free DNA (cfDNA) screening, establishing genotype-phenotype correlation in male and female individuals, and for genetic counseling. In this report, we provide clinical outcomes, inheritance, and clinical implications of derX in three families referred to diagnostic testing due to discrepant results for sex chromosomes reported by cfDNA, abnormal prenatal ultrasound findings, recurrent pregnancy losses, or affected family members with derX transmitted through multiple generations. Reports of discrepant sex and risk for sex chromosome aneuploidy such as 45,X, 47,XXY and 47,XYY are common false positive outcomes of a prenatal cfDNA screening if either a mother or a fetus has unbalanced Xp-Yq translocation. In addition, mothers who carry der(X) facing a recurrent risk of ambiguity in prenatal testing. Pregnancy loss and neonatal death/stillbirth of male offspring are common in affected families, but this risk does not directly correlate with the size of deleted Xp region. This study emphasizes the importance of CMA and familial testing for accurate diagnosis and genetic counseling.

Repetitive DNA Sequences in the Human Y Chromosome and Male Infertility

The male-specific Y chromosome, which is well known for its diverse and complex repetitive sequences, has different sizes, genome structures, contents and evolutionary trajectories from other chromosomes and is of great significance for testis development and function. The large number of repetitive sequences and palindrome structure of the Y chromosome play an important role in maintaining the stability of male sex determining genes, although they can also cause non-allelic homologous recombination within the chromosome. Deletion of certain Y chromosome sequences will lead to spermatogenesis disorders and male infertility. And Y chromosome genes are also involved in the occurrence of reproductive system cancers and can increase the susceptibility of other tumors. In addition, the Y chromosome has very special value in the personal identification and parentage testing of male-related cases in forensic medicine because of its unique paternal genetic characteristics. In view of the extremely high frequency and complexity of gene rearrangements and the limitations of sequencing technology, the analysis of Y chromosome sequences and the study of Y-gene function still have many unsolved problems. This article will introduce the structure and repetitive sequence of the Y chromosome, summarize the correlation between Y chromosome various sequence deletions and male infertility for understanding the repetitive sequence of Y chromosome more systematically, in order to provide research motivation for further explore of the molecules mechanism of Y-deletion and male infertility and theoretical foundations for the transformation of basic research into applications in clinical medicine and forensic medicine.