Fluorescence resonance energy transfer-based real-time polymerase chain reaction method without DNA extraction for the genotyping of F5, F2, F12, MTHFR, and HFE

Fluorescence resonance energy transfer-based real-time polymerase chain reaction method without DNA extraction for the genotyping of F5, F2, F12, MTHFR, and HFE

Jordi Martinez-Serra,1 Juan Robles,2 Antoni Nicolàs,3 Antonio Gutierrez,1 Teresa Ros,1 Juan Carlos Amat,1 Regina Alemany,4 Oliver Vögler,4 Aina Abelló,2 Aina Noguera,2 Joan Besalduch1 1Department of Hematology, 2Department of Clinical Analysis, Hospital Universitary S...

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Main Authors: Martinez-Serra J, Robles J, Nicolàs A, Gutierrez A, Ros T, Amat JC, Alemany R, Vögler O, Abelló A, Noguera A, Besalduch J
Format: Article
Language:English
Published: Dove Medical Press 2014-06-01
Series:Journal of Blood Medicine
Online Access:http://www.dovepress.com/fluorescence-resonance-energy-transfer-based-real-time-polymerase-chai-a17372
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spelling doaj-98d8a8d26e884494b37a188451e3bd2c2020-11-25T01:44:31ZengDove Medical PressJournal of Blood Medicine1179-27362014-06-012014default9910617372Fluorescence resonance energy transfer-based real-time polymerase chain reaction method without DNA extraction for the genotyping of F5, F2, F12, MTHFR, and HFEMartinez-Serra JRobles JNicolàs AGutierrez ARos TAmat JCAlemany RVögler OAbelló ANoguera ABesalduch J Jordi Martinez-Serra,1 Juan Robles,2 Antoni Nicolàs,3 Antonio Gutierrez,1 Teresa Ros,1 Juan Carlos Amat,1 Regina Alemany,4 Oliver Vögler,4 Aina Abelló,2 Aina Noguera,2 Joan Besalduch1 1Department of Hematology, 2Department of Clinical Analysis, Hospital Universitary Son Espases, Palma de Mallorca, Spain; 3ECOGEN, Barcelona, 4Department of Cell Biology, University of the Balearic Islands, Palma de Mallorca, Spain Abstract: Blood samples are extensively used for the molecular diagnosis of many hematological diseases. The daily practice in a clinical laboratory of molecular diagnosis in hematology involves using a variety of techniques, based on the amplification of nucleic acids. Current methods for polymerase chain reaction (PCR) use purified genomic DNA, mostly isolated from total peripheral blood cells or white blood cells (WBC). In this paper we describe a real-time fluorescence resonance energy transfer-based method for genotyping directly from blood cells. Our strategy is based on an initial isolation of the WBCs, allowing the removal of PCR inhibitors, such as the heme group, present in the erythrocytes. Once the erythrocytes have been lysed, in the LightCycler® 2.0 Instrument, we perform a real-time PCR followed by a melting curve analysis for different genes (Factors 2, 5, 12, MTHFR, and HFE). After testing 34 samples comparing the real-time crossing point (CP) values between WBC (5×106 WBC/mL) and purified DNA (20 ng/µL), the results for F5 Leiden were as follows: CP mean value for WBC was 29.26±0.566 versus purified DNA 24.79±0.56. Thus, when PCR was performed from WBC (5×106 WBC/mL) instead of DNA (20 ng/µL), we observed a delay of about 4 cycles. These small differences in CP values were similar for all genes tested and did not significantly affect the subsequent analysis by melting curves. In both cases the fluorescence values were high enough, allowing a robust genotyping of all these genes without a previous DNA purification/extraction. Keywords: real-time PCR, LightCycler® 2.0 Instrument, melting peak, FRET, white blood cells, lysis, erythrocyteshttp://www.dovepress.com/fluorescence-resonance-energy-transfer-based-real-time-polymerase-chai-a17372
collection DOAJ
language English
format Article
sources DOAJ
author Martinez-Serra J
Robles J
Nicolàs A
Gutierrez A
Ros T
Amat JC
Alemany R
Vögler O
Abelló A
Noguera A
Besalduch J
spellingShingle Martinez-Serra J
Robles J
Nicolàs A
Gutierrez A
Ros T
Amat JC
Alemany R
Vögler O
Abelló A
Noguera A
Besalduch J
Fluorescence resonance energy transfer-based real-time polymerase chain reaction method without DNA extraction for the genotyping of F5, F2, F12, MTHFR, and HFE
Journal of Blood Medicine
author_facet Martinez-Serra J
Robles J
Nicolàs A
Gutierrez A
Ros T
Amat JC
Alemany R
Vögler O
Abelló A
Noguera A
Besalduch J
author_sort Martinez-Serra J
title Fluorescence resonance energy transfer-based real-time polymerase chain reaction method without DNA extraction for the genotyping of F5, F2, F12, MTHFR, and HFE
title_short Fluorescence resonance energy transfer-based real-time polymerase chain reaction method without DNA extraction for the genotyping of F5, F2, F12, MTHFR, and HFE
title_full Fluorescence resonance energy transfer-based real-time polymerase chain reaction method without DNA extraction for the genotyping of F5, F2, F12, MTHFR, and HFE
title_fullStr Fluorescence resonance energy transfer-based real-time polymerase chain reaction method without DNA extraction for the genotyping of F5, F2, F12, MTHFR, and HFE
title_full_unstemmed Fluorescence resonance energy transfer-based real-time polymerase chain reaction method without DNA extraction for the genotyping of F5, F2, F12, MTHFR, and HFE
title_sort fluorescence resonance energy transfer-based real-time polymerase chain reaction method without dna extraction for the genotyping of f5, f2, f12, mthfr, and hfe
publisher Dove Medical Press
series Journal of Blood Medicine
issn 1179-2736
publishDate 2014-06-01
description Jordi Martinez-Serra,1 Juan Robles,2 Antoni Nicolàs,3 Antonio Gutierrez,1 Teresa Ros,1 Juan Carlos Amat,1 Regina Alemany,4 Oliver Vögler,4 Aina Abelló,2 Aina Noguera,2 Joan Besalduch1 1Department of Hematology, 2Department of Clinical Analysis, Hospital Universitary Son Espases, Palma de Mallorca, Spain; 3ECOGEN, Barcelona, 4Department of Cell Biology, University of the Balearic Islands, Palma de Mallorca, Spain Abstract: Blood samples are extensively used for the molecular diagnosis of many hematological diseases. The daily practice in a clinical laboratory of molecular diagnosis in hematology involves using a variety of techniques, based on the amplification of nucleic acids. Current methods for polymerase chain reaction (PCR) use purified genomic DNA, mostly isolated from total peripheral blood cells or white blood cells (WBC). In this paper we describe a real-time fluorescence resonance energy transfer-based method for genotyping directly from blood cells. Our strategy is based on an initial isolation of the WBCs, allowing the removal of PCR inhibitors, such as the heme group, present in the erythrocytes. Once the erythrocytes have been lysed, in the LightCycler® 2.0 Instrument, we perform a real-time PCR followed by a melting curve analysis for different genes (Factors 2, 5, 12, MTHFR, and HFE). After testing 34 samples comparing the real-time crossing point (CP) values between WBC (5×106 WBC/mL) and purified DNA (20 ng/µL), the results for F5 Leiden were as follows: CP mean value for WBC was 29.26±0.566 versus purified DNA 24.79±0.56. Thus, when PCR was performed from WBC (5×106 WBC/mL) instead of DNA (20 ng/µL), we observed a delay of about 4 cycles. These small differences in CP values were similar for all genes tested and did not significantly affect the subsequent analysis by melting curves. In both cases the fluorescence values were high enough, allowing a robust genotyping of all these genes without a previous DNA purification/extraction. Keywords: real-time PCR, LightCycler® 2.0 Instrument, melting peak, FRET, white blood cells, lysis, erythrocytes
url http://www.dovepress.com/fluorescence-resonance-energy-transfer-based-real-time-polymerase-chai-a17372
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AT nogueraa fluorescenceresonanceenergytransferbasedrealtimepolymerasechainreactionmethodwithoutdnaextractionforthegenotypingoff5f2f12mthfrandhfe
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