Alpha-thalassemia has been estimated to account for over 60% of hydrops fetalis cases in Taiwan. The most common genotypic lesion found in alpha-thalassemia-1 cases in Taiwan is deletion of a large segment of the alpha-globin gene cluster, termed the Southeast Asian-type deletion (-SEA/; further referred to as SEA-type deletion). Seven chorionic villus samples (CVS) from pregnancies of couples both heterozygous for SEA-type deletion were studied. Non-radioactive Southern-blot hybridization using the dig-alkaline phosphatase detection system was developed to fulfill this purpose. The results were compared with corresponding polymerase chain reaction (PCR) data to elucidate the effectiveness of these two protocols in the diagnosis of the SEA-type deletion. The data showed that of the seven CVS, three demonstrated a distinctive band pattern, indicating their homozygous status of SEA-type deletion, whereas two showed heterozygous patterns, and the other two were free of the deletion. Homozygosity of the deletion was confirmed by Southern-blot hybridization performed on DNA samples extracted from the abortus tissue. However, two of the three cases with SEA-type deletion showed heterozygous PCR results. Maternal cell contamination could be responsible for the artifacts in the PCR results, but the influence due to the contamination is minimal in non-radioactive Southern-blot hybridization. We concluded that PCR is suitable for screening of carrier adults with SEA-type deletion, and non-radioactive Southern hybridization is ideal for early prenatal diagnosis of the SEA-type deletion.
Alpha-thalassemia has been estimated to account for over 60% of hydrops fetalis cases in Taiwan. The most common genotypic lesion found in alpha-thalassemia-1 cases in Taiwan is deletion of a large segment of the alpha-globin gene cluster, termed the Southeast Asian-type deletion (-SEA/; further referred to as SEA-type deletion). Seven chorionic villus samples (CVS) from pregnancies of couples both heterozygous for SEA-type deletion were studied. Non-radioactive Southern-blot hybridization using the dig-alkaline phosphatase detection system was developed to fulfill this purpose. The results were compared with corresponding polymerase chain reaction (PCR) data to elucidate the effectiveness of these two protocols in the diagnosis of the SEA-type deletion. The data showed that of the seven CVS, three demonstrated a distinctive band pattern, indicating their homozygous status of SEA-type deletion, whereas two showed heterozygous patterns, and the other two were free of the deletion. Homozygosity of the deletion was confirmed by Southern-blot hybridization performed on DNA samples extracted from the abortus tissue. However, two of the three cases with SEA-type deletion showed heterozygous PCR results. Maternal cell contamination could be responsible for the artifacts in the PCR results, but the influence due to the contamination is minimal in non-radioactive Southern-blot hybridization. We concluded that PCR is suitable for screening of carrier adults with SEA-type deletion, and non-radioactive Southern hybridization is ideal for early prenatal diagnosis of the SEA-type deletion.
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