0000000000353737

AUTHOR

Thomas Beiter

0000-0001-7299-7303

showing 3 related works from this author

Direct quantification of cell-free, circulating DNA from unpurified plasma.

2014

Cell-free DNA (cfDNA) in body tissues or fluids is extensively investigated in clinical medicine and other research fields. In this article we provide a direct quantitative real-time PCR (qPCR) as a sensitive tool for the measurement of cfDNA from plasma without previous DNA extraction, which is known to be accompanied by a reduction of DNA yield. The primer sets were designed to amplify a 90 and 222 bp multi-locus L1PA2 sequence. In the first module, cfDNA concentrations in unpurified plasma were compared to cfDNA concentrations in the eluate and the flow-through of the QIAamp DNA Blood Mini Kit and in the eluate of a phenol-chloroform isoamyl (PCI) based DNA extraction, to elucidate the D…

Gene Identification and Analysislcsh:MedicineCoronary DiseaseReal-Time Polymerase Chain ReactionBiochemistrylaw.inventionMolecular Geneticschemistry.chemical_compoundDiagnostic MedicinelawNucleic AcidsMolecular Cell BiologyBlood plasmaGeneticsHumanslcsh:ScienceExerciseBiologyPolymerase chain reactionDNA PrimersPlasma ProteinsMultidisciplinaryBase SequenceCell-Free SystemChemistrylcsh:RProteinsDNAMolecular biologyDNA extractionCoronary heart diseaseReal-time polymerase chain reactionCase-Control StudiesRNAMedicineCirculating DNAlcsh:QGene expressionGene FunctionPrimer (molecular biology)DNA modificationDNAResearch ArticlePLoS ONE
researchProduct

Short-term treadmill running as a model for studying cell-free DNA kinetics in vivo.

2011

BACKGROUND Increased plasma concentrations of cell-free DNA (cf-DNA) are considered a hallmark of various clinical conditions. Despite intensive research in this field, limited data are available concerning the time course of release and clearance of cf-DNA in vivo. METHODS We extracted cf-DNA from plasma samples taken before and immediately after a 10-km cross-country run, and from samples taken before, immediately after, and 30 min after exhaustive short-term treadmill exercise. The contribution of nuclear (nDNA) and mitochondrial DNA (mtDNA) was measured by quantitative real-time PCR. The incremental treadmill exercise setup was exploited to delineate the precise sequencing and timing o…

AdultMalemedicine.medical_specialtyAdolescentClinical BiochemistryKineticsBiologyRunningYoung AdultTreadmill runningIn vivoInternal medicinemedicineHumansTreadmillPlasma samplesCell-Free SystemBiochemistry (medical)DNAMiddle AgedSurgeryKineticsEndocrinologyCell-free fetal DNATime courseFemaleClearanceClinical chemistry
researchProduct

Direct and long-term detection of gene doping in conventional blood samples

2010

The misuse of somatic gene therapy for the purpose of enhancing athletic performance is perceived as a coming threat to the world of sports and categorized as 'gene doping'. This article describes a direct detection approach for gene doping that gives a clear yes-or-no answer based on the presence or absence of transgenic DNA in peripheral blood samples. By exploiting a priming strategy to specifically amplify intronless DNA sequences, we developed PCR protocols allowing the detection of very small amounts of transgenic DNA in genomic DNA samples to screen for six prime candidate genes. Our detection strategy was verified in a mouse model, giving positive signals from minute amounts (20 μl)…

Vascular Endothelial Growth Factor ACandidate geneAthletic PerformanceBiologyPolymerase Chain ReactionDNA sequencinglaw.inventionMicelawGene dopingGeneticsAnimalsHumansTransgenesMolecular BiologyGenePolymerase chain reactionDoping in SportsGeneticsGenetic transferGenetic TherapyNucleic acid amplification techniqueDependovirusgenomic DNAGene ComponentsMolecular MedicineNucleic Acid Amplification TechniquesGene Therapy
researchProduct