Noninvasive prenatal diagnosis of fetal sex by single-cell PEP-PCR method

Wang Taoran; Chen Hanping; Ma Tingyuan

doi:10.1007/BF02830709

Current Medical Science ›› 2004, Vol. 24 ›› Issue (18) : 66 -67. DOI: 10.1007/BF02830709

Article

Noninvasive prenatal diagnosis of fetal sex by single-cell PEP-PCR method

Author information +

History +

PDF

Abstract

A new method for noninvasive prenatal diagnosis of fetal sex was developed by using single-cell PEP-PCR techniques. Micromamipulation techniques were used to obtain single fetal cells from 273 maternal blood samples. The genome of single cells was preamplified by PEP and SRY genes were analyzed by PCR method. The SRY genes of 149 samples were detected by the new method among 153 samples carrying male fetus, while 119 out of 120 samples carrying female fetus were proved negative for SRY genes. The sensitivity and specificity of the new method were 97.39% and 99.17% respectively and the correct rate was 98.17%. The new method has the advantage of high sensitivity and specificity in noninvasive prenatal diagnosis of fetal sex and provides the basis of other researches such as sex-linked inherited diseases.

Keywords

primer extension preamplification / prenatal diagnosis / noninvasive / sex determination

Cite this article

Download citation ▾

Wang Taoran, Chen Hanping, Ma Tingyuan. Noninvasive prenatal diagnosis of fetal sex by single-cell PEP-PCR method. Current Medical Science, 2004, 24(18): 66-67 DOI:10.1007/BF02830709

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	XuK, TangY, GrifoJ A, et al.. Primer extension preamplification for detection of multiple genetic loci from single human blastomeres. Hum Reprod, 1993, 8(12): 2206-2206

[2]	ZhangL, CuiX F, SchmittK, et al.. Whole genome from a single cell: implications for genetic analysis. Proc Natl Acad Sci U S A, 1992, 89: 5847-5847

[3]	KristjanssonK, ChongS S, VanI B, et al.. Preimplantation single cell analysis of dystrophin gene detections using whole genome amplification. Nat Genet, 1994, 6(1): 19-19

[4]	HeinmollerE, LiuQ, SunY, et al.. Toward efficient analysis of mutations in single cells from ethanol-fixed, paraffin-embedded and immunohistochemically stained tissues. Lab Invest, 2002, 82(4): 443-443

[5]	SchaaffF, WedemannH, SchwingerE. Analysis of sex and delta F508 in single amniocytes using primer extension preamplification. Hum Genet, 2004, 98(2): 158-158

[6]	WangJ Y, ZhenD K, ZilbersteinM E, et al.. Noninvasive exclusion of fetal aneuploidy in an at-risk couple with a balanced translocation. Mol Hum Reprod, 2000, 6(2): 103-103

[7]	SekizawaA, TaguchiA, WatanabeA, et al.. Analysis of HLA-DQ alpha sequences for prenatal diagnosis in single fetal cells from maternal blood. Hum Genet, 1998, 102(4): 393-393

[8]	AkihikoS, AkiraW, TakehikoK, et al.. Prenatal diagnosis of the fetal RhD blood type using a single fetal nucleated erythrocyte from maternal blood. Obstet Gynecol, 2004, 87: 501-501

[9]	ChenH P, ShenY, ZhangH F, et al.. Frequency of fetal nucleated red blood cells in maternal peripheral blood and relationship to gestational age using flow cytometry. Progre Obstet Gynecol (Chinese), 2001, 10(6): 406-406