Burg et al., “Real-Time Fluorescence Detection of RNA Amplified by Qβ Replicase”, Analytical Biochemistry, 230, 263-272, (1995). |
Gerard, et al., “Improved Quantitation of Minimal Residual Disease in Multiple Myeloma Using Real-Time Polymerase Chain Reaction and Plasmid-DNA Complementarity Determining Region III Standards”, Cancer Research, 58, 3957-3964, (Sep. 1, 1998). |
Lovatt et al., “High throughput detection of retrovirus-associated reverse transcriptase using an improved fluorescent product enhanced reverse transcriptase assay and its comparison to conventional detection methods”, Journal of Biological Methods, 82, 185-200, (1999). |
Gut et al., “One-tube fluorogenic reverse transcription-polymerase chain reaction for the quantitation of feline coronaviruses”, Journal of Virological Methods, 77, 37-46, (1999). |
Buchanan, et al., “A mathematical approach toward defining and calculating the duration of the lag phase”, Food Microbiology, 7, 237-240, (1990). |
Nath et al., “Growth Analysis By the First, Second, and Third Derivatives of the Richards Function”, Growth Development & Aging, 56, 237-247, (1992). |
Wittwer, C. T., et al. , Continuous Fluorescence Monitoring of Rapid Cycle DNA Amplification, BioTechniques 22, pp. 130-138 (1997). |
Higuchi et al., “Kinetic PCR Analysis: Real-Time Monitoring of DNA Amplification Reactions,” BioTechnology, vol. 11, pp. 1026-1030 (Sep. 1993). |
Ririe et al., “Product Differentiation by Analysis of DNA Melting Curves During the Polymerase Chain Reaction,” Analytical Biochemistry, 245, pp. 154-160, (1997). |
Morrison et al., “Quantification of Low-Copy Transcripts by Continuous SYBR® Green 1 Monitoring During Amplification,” BioTechniques, vol. 24, No. 6, pp. 954-962, (1998). |
Higuchi et al., “Simultaneous Amplification and Detection of Specific DNA Sequences,” BioTechnology, vol. 10, pp. 4;3-417 (1992). |
R.A.P.I.D. Biological Agent Identification System Brochure, Idaho Technology, Inc. 2001. |
Ozawa et al., “Quantitative determination of deleted mitochondrial DNA relative to normal DNA in parkinsonian stratum by a Kinetic PCR analysis,” Biochem. Biophys. Res. Comm., 172 (2): 483-489. |
Chen et al., “Fluorescence energy transfer detection as a homogenous DNA diagnostic method.” Proc. Natl. Acad. Sc. USA, vol. 94, pp. 10756-10761 (1997). |
Passing et al., “A New Biometrical Procedure for Testing Equality of Measurements from Two Different Analytical Methods.”. Clin. Chem. Clin. Biochem., vol. 21, pp. 704-720 (1983). |