UNLABELLED: A quantitative duplex polymerase chain reaction (PCR) method using the LightCycler detection system was developed to generate a reproducible and convenient method to quantitatively measure chimeric states in murine transplantational models using male and female BALB/c mice. MATERIALS AND METHODS: DNA mixtures isolated from male and female murine BALB/c bone marrow cells were analyzed with Y-chromosome and control autosomal GAPDH specific primers by either monoplex or duplex real-time quantitative PCR using the LightCycler detection system to determine chimeric states. RESULTS: High specific Y-chromosome and control autosomal GAPDH primers gave a detection sensitivity of approximately 0.01% using LightCycler PCR. Analysis of standard curve distribution of diluted DNA samples accurately matched the proportional dilutions. Y6 primers run on male DNA samples against a female background showed amplification slope initiations reflecting the amounts of male DNA contained in these mixtures. Mixed samples run with GAPDH primers showed amplification corresponding to 100% DNA amounts of limiting dilution runs which were used as controls. Calculated engraftment generated by monoplex PCR lacked reproducibility. Quantitation using duplex PCR using specific detection probes for both Y-chromosome Y6 and autosomal GAPDH primer amplicons allowed precise and reproducible calculations of engraftment levels. CONCLUSION: Duplex PCR using specific detection probes for Y-chromosome Y6 and autosomal GAPDH primer amplicons allows for rapid, precise and specific engraftment determination after transplantation of male BALB/c marrow cells into female BALB/c recipients.
UNLABELLED: A quantitative duplex polymerase chain reaction (PCR) method using the LightCycler detection system was developed to generate a reproducible and convenient method to quantitatively measure chimeric states in murine transplantational models using male and female BALB/c mice. MATERIALS AND METHODS: DNA mixtures isolated from male and female murine BALB/c bone marrow cells were analyzed with Y-chromosome and control autosomal GAPDH specific primers by either monoplex or duplex real-time quantitative PCR using the LightCycler detection system to determine chimeric states. RESULTS: High specific Y-chromosome and control autosomal GAPDH primers gave a detection sensitivity of approximately 0.01% using LightCycler PCR. Analysis of standard curve distribution of diluted DNA samples accurately matched the proportional dilutions. Y6 primers run on male DNA samples against a female background showed amplification slope initiations reflecting the amounts of male DNA contained in these mixtures. Mixed samples run with GAPDH primers showed amplification corresponding to 100% DNA amounts of limiting dilution runs which were used as controls. Calculated engraftment generated by monoplex PCR lacked reproducibility. Quantitation using duplex PCR using specific detection probes for both Y-chromosome Y6 and autosomal GAPDH primer amplicons allowed precise and reproducible calculations of engraftment levels. CONCLUSION: Duplex PCR using specific detection probes for Y-chromosome Y6 and autosomal GAPDH primer amplicons allows for rapid, precise and specific engraftment determination after transplantation of male BALB/c marrow cells into female BALB/c recipients.
Authors: Kathrin Terres Bauermeister; Stephanie Stölting; Piotr M Kaczmarek; Roger Nadrowitz; Thomas Wagner; Stefan O Peters Journal: Int J Hematol Date: 2004-06 Impact factor: 2.490
Authors: Yu-An Zhang; Anirban Maitra; Jer-Tsong Hsieh; Charles M Rudin; Craig D Peacock; Collins Karikari; Rolf A Brekken; Victor Stastny; Boning Gao; Luc Girard; Ignacio Wistuba; Eugene Frenkel; John D Minna; Adi F Gazdar Journal: Cancer Biol Ther Date: 2011-10-01 Impact factor: 4.875