ABSTRACT
<p><b>OBJECTIVE</b>To performe the immuneserological and RHD Genotype analyses for DVI type 3 genotype pregnemt women with anti-D.</p><p><b>METHODS</b>RhD blood type of this pregnant women was identified by common serological methods, then the blood group specific antibodies was screened and identified; the polymerase chain reaction-sequence specific primer(PCR-SSP) was used to identify the pregnant women's RHD genotype; RhD blood group for the pregnant women, her spouse and daughter was genogrouped and genetically analyzed by multiplex ligation-dependent probe amplification(MLPA). The heredity of this family was analyzed finally.</p><p><b>RESULTS</b>The titer of IgG anti-D in the pregnant woman serum was 1:8; the PCR-SSP showed that the 3rd to 6th exons of RHD gene were missing in the pregnant woman. the genotype of pregnant woman was identified as DVI type 3; the MLPA analysis showed that this pregnant women owned only one RHD allele with 3rd to 6th exons missed, and her genotype was identified as CDe/cde; her spouse was identified as CDe/CDe homozygous genotype, and her daughter as CDe/CDe.</p><p><b>CONCLUSION</b>Accurate identification of RhD blood type is of great significance for a safe and effective clinical blood transfusion strategy, and for taking appropriate measures to prevent hemolytic disease of newborn (HDN) at women childbearing age.</p>
ABSTRACT
<p><b>BACKGROUND</b>Nonsyndromic hearing loss (NSHL) is highly heterogeneous, in which more than 90 causative genes have currently been identified. DFNA5 is one of the deafness genes that known to cause autosomal dominant NSHL. Until date, only five DFNA5 mutations have been described in eight families worldwide. In this study, we reported the identification of a novel pathogenic mutation causing DFNA5 deafness in a five-generation Chinese family.</p><p><b>METHODS</b>After detailed clinical evaluations of this family, the genomic DNA of three affected individuals was selected for targeted exome sequencing of 101 known deafness genes, as well as mitochondrial DNA and microRNA regions. Co-segregation analysis between the hearing loss and the candidate variant was confirmed in available family members by direct polymerase chain reaction (PCR)-Sanger sequencing. Real-time PCR (RT-PCR) was performed to investigate the potential effect of the pathogenic mutation on messenger RNA splicing.</p><p><b>RESULTS</b>Clinical evaluations revealed a similar deafness phenotype in this family to that of previously reported DFNA5 families with autosomal dominant, late-onset hearing loss. Molecular analysis identified a novel splice site mutation in DFNA5 intron 8 (IVS8+1 delG). The mutation segregated with the hearing loss of the family and was absent in 120 unrelated control DNA samples of Chinese origin. RT-PCR showed skipping of exon 8 in the mutant transcript.</p><p><b>CONCLUSIONS</b>We identified a novel DFNA5 mutation IVS8+1 delG in a Chinese family which led to skipping of exon 8. This is the sixth DFNA5 mutation relates to hearing loss and the second one in DFNA5 intron 8. Our findings provide further support to the hypothesis that the DFNA5-associated hearing loss represents a mechanism of gain-of-function.</p>
