Abstract
ObjectiveWe present a genetic analysis of an asymptomatic family with a 4q terminal deletion; we also review other similar published studies and discuss the genotype–phenotype correlation.MethodsA karyotype analysis was performed on the amniotic fluid cells of a woman at 24 weeks of pregnancy and peripheral blood lymphocytes from both parents and their older son with the conventional G-banding technique. Chromosomal microarray analysis (CMA) testing was carried out for both parents and the fetus to analyze copy number variation (CNV) in the whole genome.ResultsThe results showed no abnormalities in the karyotypes of the father and older son, and the karyotypes of the mother and fetus were 46,XX,del(4)(q35.1) and 46,XY,del(4)(q35.1), respectively. CMA results showed a partial deletion at the 4q terminus in both the fetus and mother. The deletion region of the fetus was arr[GRCh37] 4q35.1q35.2(186,431,008_190,957,460) × 1; the loss size of the CNV was approximately 4.5 Mb and involved 14 protein-coding genes, namely, CYP4V2, F11, FAM149A, FAT1, FRG1, FRG2, KLKB1, MTNR1A, PDLIM3, SORBS2, TLR3, TRIML1, TRIML2, and ZFP42. No variation on chromosome 4 was detected in the father’s CMA results.ConclusionDeletion of the 4q subtelomeric region is a familial variation. The arr[GRCh37] 4q35.1q35.2(186,431,008_190,957,460) region single-copy deletion did not cause obvious congenital defects or mental retardation. The application of high-resolution genetic testing technology combined with the analysis of public genetic database information can more clearly elucidate the genotype–phenotype correlation of the disease and provide support for both prenatal and postnatal genetic counseling.
Highlights
Chromosomal microdeletions are caused by random genome loss during the formation of a fertilized egg and have different impacts on fetal growth and development
The woman underwent noninvasive prenatal testing (NIPT) at G13+3 W, and the results showed a low risk for trisomy 21, 18, and 13 but a partial copy number variation (CNV) loss at the terminus of chromosome 4q as del(4q35.1-q35.2) (185,880,991_190,988,365) × 1
At G19+1 W of gestation, amniocentesis was performed, and amniocytes were extracted for G-banding karyotype analysis and Cytogenetics (2021) 14:53 microarray analysis (CMA) examination
Summary
Chromosomal microdeletions are caused by random genome loss during the formation of a fertilized egg and have different impacts on fetal growth and development. They can cause mental retardation and low intelligence [1]. Flint et al [2] found that up to 6% of. Xiao et al Molecular Cytogenetics (2021) 14:53 microarray analysis (CMA), and the possible genotypicphenotypic correlation with the 4q terminal deletion was discussed
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