Quantitation of fetal DNA in maternal serum during the first trimester of pregnancy by the use of a DAZ repetitive probe

Stanghellini, Ilaria; Bertorelli, Roberto; Capone, L.; Mazza, Vincenzo; Neri, Claudia; Forabosco, Antonino

doi:10.1093/molehr/gal052

Cited by 36 publications

(29 citation statements)

References 27 publications

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“…In this way, the primer pair used for the DAZ assay produces five amplicons with 100% identity, mapping on the 2.4-Kb repetitive motifs of the DAZ gene region (one for each of DAZ1, DAZ2, and DAZ3 and two for DAZ4). 25 Thus, the utilization of this sequence as confirmation could give a higher sensitivity compared with the SRY assay when a negative result for this gene is obtained. Likewise, a positive result for SRY in combination with negative or inconclusive results for multicopy sequences, as a result of their better sensitivity, 26 was considered a technical failure.…”

Section: Discussionmentioning

confidence: 99%

“…[13][14][15] However, other simple and sensitive tests for fetal gender determination using a unique multicopy region of the Y chromosome, such as the DAZ family, have been developed. 16,17 Although results are encouraging, the diagnostic accuracy varies widely depending on the protocols and methods used, with sensitivity and specificity ranging from 31% to 100%. 18,19 Moreover, most data have been obtained in a research setting rather than from clinical practice.…”

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confidence: 99%

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Noninvasive fetal sex determination in maternal plasma: a prospective feasibility study

Fernández-Martínez¹,

Galindo

García-Burguillo

et al. 2012

Genetics in Medicine

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Purpose: To prospectively validate a protocol for noninvasive fetal sex determination in maternal plasma and demonstrate its applicability to clinical practice. methods: Peripheral blood from 404 pregnant women undergoing prenatal invasive testing was collected from 6 to 23 weeks of gestation. Real-time PCR was performed for the SRY gene and multicopy DYS14 marker sequence located within the TSPY gene by the TaqMan minor groove binder probe assay as a first-line test. Owing to a false-positive result, amplification of repetitive motifs of the DAZ gene region was also tested as a second-line test performed in the last 232 patients enrolled in our series. A diagnostic algorithm was designed using a combination of these three markers. Fetal gender determined by noninvasive prenatal diagnosis (NIPD) was compared with that diagnosed by quantitative fluorescent PCR after invasive testing or ultrasound.Results: A single false-positive result was obtained in the first 172 pregnancies. Reporting criteria were modified in the subsequent 232 pregnancies, giving an overall sensitivity and specificity of 100% (95% CI 99.8-100%) and 99.5% (95% CI 98

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

Noninvasive fetal sex determination in maternal plasma: a prospective feasibility study

Fernández-Martínez¹,

Galindo

García-Burguillo

et al. 2012

Genetics in Medicine

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“…56: [639][640][641][642] 2010) he discovery of fetal DNA (fDNA) in maternal circulation [1] and transcervical cells has led to noninvasive prenatal genetic diagnosis and sex prediction for fetuses during early pregnancy in women [2]. Although it was recently demonstrated that fDNA in women and rhesus monkeys could be used as a tool for fetal sex determination as early as at the 5th gestational week using the Y chromosome DNA sequence as a probe for screening male fetuses with an accuracy rate of 100% [3][4][5][6], little is known about fDNA in domestic animals. In 1996, Kadokawa et al believed, based on their previous research, that fetal cells were very rare or may be absent in bovine maternal blood and that they could not be used for prenatal sexing by a PCR method [7].…”

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confidence: 99%

Prediction of Fetal Sex by Amplification of Fetal DNA Present in Cow Plasma

Wang

Cui

Cheng

et al. 2010

Journal of Reproduction and Development

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Abstract. The aim of the present study was to predict fetal sex at different time points of gestation in cattle by detecting the fetal SRY gene in cow plasma. Plasma DNA was extracted from the blood samples of 110 pregnant cows during the gestational period of 30 to 242 days. Nested PCR was employed to detect the fetal SRY, which the male fetus carries exclusively, in cow plasma. The cows positive for SRY were predicted to carry male fetuses. The results showed that the fetal DNA from cow plasma was successfully amplified and that fetuses could be sexed with an overall accuracy rate of 100% (43/43) for males and 91.0% (61/67) for females and with accuracy rates of 100% (3/3) for males and 85.7% (12/14) for females at 30 EN 59 days of gestation and 100% (40/40) for males and 92.5% (49/53) for females at more than 2 months of gestation, respectively. This suggests that the molecular method developed here could be used in sex prediction for fetuses. Key words: Cow plasma, Fetal Sex, Nested PCR, Sry (J. Reprod. Dev. 56: [639][640][641][642] 2010) he discovery of fetal DNA (fDNA) in maternal circulation [1] and transcervical cells has led to noninvasive prenatal genetic diagnosis and sex prediction for fetuses during early pregnancy in women [2]. Although it was recently demonstrated that fDNA in women and rhesus monkeys could be used as a tool for fetal sex determination as early as at the 5th gestational week using the Y chromosome DNA sequence as a probe for screening male fetuses with an accuracy rate of 100% [3][4][5][6], little is known about fDNA in domestic animals. In 1996, Kadokawa et al. believed, based on their previous research, that fetal cells were very rare or may be absent in bovine maternal blood and that they could not be used for prenatal sexing by a PCR method [7]. However, Xi et al. reported in 2006 that they had successfully predicted fetal sex by amplifying the SRY gene from pregnant cow blood [8]. However, only 30 cows were tested in their report, and the overall accuracy rate was 80%; the accuracy rate for 30-59 days of gestation was 60% (6/10), and they also did not analyze the sequences of the PCR products.The aim of present study was to verify the possibility of detecting fDNA in cow plasma and develop a noninvasive method of fetal sex identification in pregnant cows in order to offer a way for sex selection in dairy production and for early selection of cattle in breeding programs as well as for elimination of harmful genes in bulls in the fetal phase. Materials and Methods Blood samples and DNA isolationTen ml of blood was collected from each of 110 pregnant Holstein cows that were 3-6 years of age and at 30-242 days of gestation through the vena caudalis by single-use syringe. All the blood samples were put into acid citrate dextrose anticoagulant tubes and centrifuged at 4 C and 1600 × g for 10 min. Supernatants were stored at -20 C for further analysis. Blood samples from 2 virgin heifers at 3 months of age with no history of contact with bulls or semen and 6 bulls that were 5 yea...

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“…ccff DNA isolated from plasma samples from pregnant women is still a scarce resource. Results of published studies indicate that the mean number of DNA molecules found in 1 mL of plasma is around 2000, with a fetal component of around 15% ( 27,29,31 ). Both of these values are subject to a large spread across individuals, and therefore it is desirable to minimize the DNA consumption of an assay that controls for the presence of fetal DNA.…”

Section: Discussionmentioning

confidence: 99%

“…Quantification that uses competitive PCR and MALDI-TOF MS relies on the relative evaluation of a target signal against a reference signal. Various published reports have indicated that the total amount of circulating cell-free DNA is around 2000 copies/mL of plasma and the fraction of fetal DNA is between 3% and 20% (27)(28)(29). Consequently we chose 3000 copies of single-stranded competitor DNA for the estimation of total DNA and 300 copies of competitor DNA for the estimation of fetal DNA.…”

Section: Model System and Verification Of Dynamic Rangementioning

confidence: 99%

Quantification of Fetal DNA by Use of Methylation-Based DNA Discrimination

et al. 2010

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BACKGROUND:Detection of circulating cell-free fetal nucleic acids in maternal plasma has been used in noninvasive prenatal diagnostics. Most applications rely on the qualitative detection of fetal nucleic acids to determine the genetic makeup of the fetus. This method leads to an analytic dilemma, because test results from samples that do not contain fetal DNA or are contaminated with maternal cellular DNA can be misleading. We developed a multiplex approach to analyze regions that are hypermethylated in placenta relative to maternal blood to evaluate the fetal portion of circulating cell-free DNA isolated from maternal plasma.

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Quantitation of fetal DNA in maternal serum during the first trimester of pregnancy by the use of a DAZ repetitive probe

Cited by 36 publications

References 27 publications

Noninvasive fetal sex determination in maternal plasma: a prospective feasibility study

Noninvasive fetal sex determination in maternal plasma: a prospective feasibility study

Prediction of Fetal Sex by Amplification of Fetal DNA Present in Cow Plasma

Quantification of Fetal DNA by Use of Methylation-Based DNA Discrimination

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