zeta-, epsilon-, and gamma-Globin mRNA in blood samples and CD71(+) cell fractions from fetuses and from pregnant and nonpregnant women, with special attention to identification of fetal erythroblasts

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Standard

zeta-, epsilon-, and gamma-Globin mRNA in blood samples and CD71(+) cell fractions from fetuses and from pregnant and nonpregnant women, with special attention to identification of fetal erythroblasts. / Høgh, A M; Hviid, T V; Christensen, B; Sørensen, S; Larsen, R D; Smidt-Jensen, S; Bang, J; Philip, J.

I: Clinical Chemistry, Bind 47, Nr. 4, 04.2001, s. 645-53.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Høgh, AM, Hviid, TV, Christensen, B, Sørensen, S, Larsen, RD, Smidt-Jensen, S, Bang, J & Philip, J 2001, 'zeta-, epsilon-, and gamma-Globin mRNA in blood samples and CD71(+) cell fractions from fetuses and from pregnant and nonpregnant women, with special attention to identification of fetal erythroblasts', Clinical Chemistry, bind 47, nr. 4, s. 645-53.

APA

Høgh, A. M., Hviid, T. V., Christensen, B., Sørensen, S., Larsen, R. D., Smidt-Jensen, S., Bang, J., & Philip, J. (2001). zeta-, epsilon-, and gamma-Globin mRNA in blood samples and CD71(+) cell fractions from fetuses and from pregnant and nonpregnant women, with special attention to identification of fetal erythroblasts. Clinical Chemistry, 47(4), 645-53.

Vancouver

Høgh AM, Hviid TV, Christensen B, Sørensen S, Larsen RD, Smidt-Jensen S o.a. zeta-, epsilon-, and gamma-Globin mRNA in blood samples and CD71(+) cell fractions from fetuses and from pregnant and nonpregnant women, with special attention to identification of fetal erythroblasts. Clinical Chemistry. 2001 apr.;47(4):645-53.

Author

Høgh, A M ; Hviid, T V ; Christensen, B ; Sørensen, S ; Larsen, R D ; Smidt-Jensen, S ; Bang, J ; Philip, J. / zeta-, epsilon-, and gamma-Globin mRNA in blood samples and CD71(+) cell fractions from fetuses and from pregnant and nonpregnant women, with special attention to identification of fetal erythroblasts. I: Clinical Chemistry. 2001 ; Bind 47, Nr. 4. s. 645-53.

Bibtex

@article{0bdfc7af144f42a992da7520b943dbca,
title = "zeta-, epsilon-, and gamma-Globin mRNA in blood samples and CD71(+) cell fractions from fetuses and from pregnant and nonpregnant women, with special attention to identification of fetal erythroblasts",
abstract = "BACKGROUND: Information about the appearance of gamma-, epsilon-, and zeta-globin mRNAs in fetal erythroblasts during gestation and about the presence and amounts of these mRNAs in pregnant and nonpregnant women is important from the perspective of using these molecules as a marker of fetal erythroblasts. A specific marker is necessary for isolation and identification of fetal nucleated red blood cells from maternal blood samples for use in antenatal diagnosis of fetal genetic or chromosomal abnormalities.METHODS: We used a very sensitive reverse transcription-PCR (RT-PCR) method, coamplification analysis of gamma- and epsilon-globin cDNA, and quantitative analysis of gamma-globin mRNA based on competitive RT-PCR to investigate these aspects.RESULTS: All adult whole-blood samples were negative for epsilon- and zeta-globin mRNA. Analyses of CD71(+) cell fractions showed that specimens from 19 of 20 nonpregnant and 10 of 14 pregnant women (at 9-13 weeks of gestation) were positive for gamma-globin mRNA (Fisher's exact test, P = 0.13), and those from 3 of 20 nonpregnant and 5 of 14 pregnant women were positive for zeta-globin mRNA (Fisher's exact test, P = 0.23). No epsilon-globin mRNA was detected in CD71(+) cell fractions from 1-mL blood samples from adults. CD71(+) cell fractions from eight fetal blood samples (at 17-20 weeks of gestation) were positive for all three globin mRNAs. We found no statistically significant difference between the amounts of gamma-globin mRNA in pregnant and nonpregnant women.CONCLUSIONS: This study indicates that epsilon-globin mRNA might function as a marker for fetal CD71(+) cells early in pregnancy. Although gamma-globin mRNA can be detected in CD71(+) cell fractions from most adults, these transcripts also may be of use because of a marked difference between adult and fetal values.",
keywords = "Adult, Antigens, CD, Antigens, Differentiation, B-Lymphocyte, Biomarkers, Cell Line, Erythroblasts, Female, Fetal Blood, Fetus, Globins, Humans, Kinetics, Pregnancy, Pregnancy Trimester, First, RNA, Messenger, Receptors, Transferrin, Reverse Transcriptase Polymerase Chain Reaction, Journal Article, Research Support, Non-U.S. Gov't",
author = "H{\o}gh, {A M} and Hviid, {T V} and B Christensen and S S{\o}rensen and Larsen, {R D} and S Smidt-Jensen and J Bang and J Philip",
year = "2001",
month = apr,
language = "English",
volume = "47",
pages = "645--53",
journal = "Clinical Chemistry",
issn = "0009-9147",
publisher = "American Association for Clinical Chemistry, Inc.",
number = "4",

}

RIS

TY - JOUR

T1 - zeta-, epsilon-, and gamma-Globin mRNA in blood samples and CD71(+) cell fractions from fetuses and from pregnant and nonpregnant women, with special attention to identification of fetal erythroblasts

AU - Høgh, A M

AU - Hviid, T V

AU - Christensen, B

AU - Sørensen, S

AU - Larsen, R D

AU - Smidt-Jensen, S

AU - Bang, J

AU - Philip, J

PY - 2001/4

Y1 - 2001/4

N2 - BACKGROUND: Information about the appearance of gamma-, epsilon-, and zeta-globin mRNAs in fetal erythroblasts during gestation and about the presence and amounts of these mRNAs in pregnant and nonpregnant women is important from the perspective of using these molecules as a marker of fetal erythroblasts. A specific marker is necessary for isolation and identification of fetal nucleated red blood cells from maternal blood samples for use in antenatal diagnosis of fetal genetic or chromosomal abnormalities.METHODS: We used a very sensitive reverse transcription-PCR (RT-PCR) method, coamplification analysis of gamma- and epsilon-globin cDNA, and quantitative analysis of gamma-globin mRNA based on competitive RT-PCR to investigate these aspects.RESULTS: All adult whole-blood samples were negative for epsilon- and zeta-globin mRNA. Analyses of CD71(+) cell fractions showed that specimens from 19 of 20 nonpregnant and 10 of 14 pregnant women (at 9-13 weeks of gestation) were positive for gamma-globin mRNA (Fisher's exact test, P = 0.13), and those from 3 of 20 nonpregnant and 5 of 14 pregnant women were positive for zeta-globin mRNA (Fisher's exact test, P = 0.23). No epsilon-globin mRNA was detected in CD71(+) cell fractions from 1-mL blood samples from adults. CD71(+) cell fractions from eight fetal blood samples (at 17-20 weeks of gestation) were positive for all three globin mRNAs. We found no statistically significant difference between the amounts of gamma-globin mRNA in pregnant and nonpregnant women.CONCLUSIONS: This study indicates that epsilon-globin mRNA might function as a marker for fetal CD71(+) cells early in pregnancy. Although gamma-globin mRNA can be detected in CD71(+) cell fractions from most adults, these transcripts also may be of use because of a marked difference between adult and fetal values.

AB - BACKGROUND: Information about the appearance of gamma-, epsilon-, and zeta-globin mRNAs in fetal erythroblasts during gestation and about the presence and amounts of these mRNAs in pregnant and nonpregnant women is important from the perspective of using these molecules as a marker of fetal erythroblasts. A specific marker is necessary for isolation and identification of fetal nucleated red blood cells from maternal blood samples for use in antenatal diagnosis of fetal genetic or chromosomal abnormalities.METHODS: We used a very sensitive reverse transcription-PCR (RT-PCR) method, coamplification analysis of gamma- and epsilon-globin cDNA, and quantitative analysis of gamma-globin mRNA based on competitive RT-PCR to investigate these aspects.RESULTS: All adult whole-blood samples were negative for epsilon- and zeta-globin mRNA. Analyses of CD71(+) cell fractions showed that specimens from 19 of 20 nonpregnant and 10 of 14 pregnant women (at 9-13 weeks of gestation) were positive for gamma-globin mRNA (Fisher's exact test, P = 0.13), and those from 3 of 20 nonpregnant and 5 of 14 pregnant women were positive for zeta-globin mRNA (Fisher's exact test, P = 0.23). No epsilon-globin mRNA was detected in CD71(+) cell fractions from 1-mL blood samples from adults. CD71(+) cell fractions from eight fetal blood samples (at 17-20 weeks of gestation) were positive for all three globin mRNAs. We found no statistically significant difference between the amounts of gamma-globin mRNA in pregnant and nonpregnant women.CONCLUSIONS: This study indicates that epsilon-globin mRNA might function as a marker for fetal CD71(+) cells early in pregnancy. Although gamma-globin mRNA can be detected in CD71(+) cell fractions from most adults, these transcripts also may be of use because of a marked difference between adult and fetal values.

KW - Adult

KW - Antigens, CD

KW - Antigens, Differentiation, B-Lymphocyte

KW - Biomarkers

KW - Cell Line

KW - Erythroblasts

KW - Female

KW - Fetal Blood

KW - Fetus

KW - Globins

KW - Humans

KW - Kinetics

KW - Pregnancy

KW - Pregnancy Trimester, First

KW - RNA, Messenger

KW - Receptors, Transferrin

KW - Reverse Transcriptase Polymerase Chain Reaction

KW - Journal Article

KW - Research Support, Non-U.S. Gov't

M3 - Journal article

C2 - 11274013

VL - 47

SP - 645

EP - 653

JO - Clinical Chemistry

JF - Clinical Chemistry

SN - 0009-9147

IS - 4

ER -

ID: 188691970