Lin Shaobin, Luo Yanmin, Wu Jianzhu, Chen Baojiang, Ji Yuanjun, Zhou Yi
Fetal Medicine Center, The First Affiliated Hospital of Sun Yat-sen University, Guangzhou, Guangdong 510080,China.
Zhonghua Yi Xue Yi Chuan Xue Za Zhi. 2017 Feb 10;34(1):89-92. doi: 10.3760/cma.j.issn.1003-9406.2017.01.021.
To perform molecular cytogenetic study on two fetuses with abnormal ultrasound findings and analyze their genotype-phenotype correlation.
G-banded karyotyping, single nucleotide polymorphism array (SNP array) and fluorescence in situ hybridization (FISH) were performed on amniotic fluid cells from both fetuses and peripheral blood samples from their parents. Results of SNP array were analyzed with bioinformatics software.
G-banded karyotyping failed to detect any abnormalities in both fetuses and their parents. SNP array detected a 2.484 Mb terminal deletion at 17p13.3 [arr[hg19] 17p13.3 (83 035-2 567 405)×1] in fetus 1 and a 3.295 Mb terminal deletion at 17p13.3p13.2 [arr[hg19] 17p13.3p13.2 (83 035- 3 377 560)×1] in fetus 2. Both deletions have overlapped with the critical region of Miller-Dieker syndrome (MDS) and involved candidate genes such as PAFAH1B1, YWHAE and CRK. In addition, SNP array and FISH analyses on the parental peripheral blood samples demonstrated that both 17p13.3 and 17p13.3p13.2 deletions were of de novo origin. Metaphase FISH performed on amniotic fluid cells confirmed the presence of 17p13.3 and 17p13.3p13.2 deletions detected by the SNP array, while metaphase FISH performed on the parents excluded any potential chromosome rearrangements.
Abnormal ultrasound features for fetuses with MDS mainly include central nervous system anomalies. SNP array can efficiently detect 17p13.3 microdeletions underlying MDS, and accurately map the breakpoints and involved genes, which may facilitate understanding of the genotype and phenotype correlations for MDS.
对两例超声检查结果异常的胎儿进行分子细胞遗传学研究,并分析其基因型与表型的相关性。
对两例胎儿的羊水细胞及其父母的外周血样本进行G显带核型分析、单核苷酸多态性芯片(SNP芯片)检测和荧光原位杂交(FISH)。利用生物信息学软件分析SNP芯片结果。
G显带核型分析未在两例胎儿及其父母中检测到任何异常。SNP芯片检测到胎儿1在17p13.3处有一个2.484 Mb的末端缺失[arr[hg19] 17p13.3 (83 035 - 2 567 405)×1],胎儿2在17p13.3p13.2处有一个3.295 Mb的末端缺失[arr[hg19] 17p13.3p13.2 (83 035 - 3 377 560)×1]。这两个缺失均与米勒 - 迪克尔综合征(MDS)的关键区域重叠,并涉及PAFAH1B1、YWHAE和CRK等候选基因。此外,对父母外周血样本进行的SNP芯片和FISH分析表明,17p13.3和17p13.3p13.2缺失均为新发。对羊水细胞进行的中期FISH证实了SNP芯片检测到的17p13.3和17p13.3p13.2缺失的存在,而对父母进行的中期FISH排除了任何潜在的染色体重排。
患有MDS的胎儿超声异常特征主要包括中枢神经系统异常。SNP芯片能够有效检测出MDS潜在的17p13.3微缺失,并准确绘制断点和受累基因图谱,这可能有助于理解MDS的基因型与表型相关性。
