Masen Christensen - Academia.edu (original) (raw)
Papers by Masen Christensen
bioRxiv (Cold Spring Harbor Laboratory), Jul 23, 2021
We describe a real time PCR-based technique capable of detecting and quantifying rare somatic mut... more We describe a real time PCR-based technique capable of detecting and quantifying rare somatic mutations in circulating tumor DNA reference materials. Our approach utilizes previously described Cooperative Primers, structurally modified to exhibit high allele-specificity and onecopy target sensitivity. Cooperative Primers are bi-functional molecules, consisting of a high affinity probe fragment that guarantees sensitivity, and a covalently attached lower affinity primer providing specificity. Additional optimization of Cooperative Primer structure generated molecules capable of reliable detection of allele changes as small as a single nucleotide. These highly selective Cooperative Primers maintain excellent discrimination properties in rare mutant allele scenarios, in both monoplex and multiplex assays. With synthetic DNA samples, Cooperative Primers can detect as little as 100 copies of mutant template amongst 1 000 000 copies of wild-type template (minor allele fraction of 0.01 %). Multiplex Cooperative Primer assay was validated with cell-free DNA reference materials and consistently detected the lowest minor allele fraction available (0.1 %) for EGFR L858R, G719S and V769-D770insASV mutations, while simultaneously providing qualitative and quantitative assessment of cell-free DNA with integrated β-Actin assay. Easy to design, rapid and inexpensive, Cooperative Primer-based real time PCR assays are a promising tool for evaluation of cancer therapy response, occurrence of resistance mutations and relapse monitoring.
bioRxiv, 2021
We describe a real time PCR-based technique capable of detecting and quantifying rare somatic mut... more We describe a real time PCR-based technique capable of detecting and quantifying rare somatic mutations in circulating tumor DNA reference materials. Our approach utilizes previously described Cooperative Primers, structurally modified to exhibit high allele-specificity and one-copy target sensitivity. Cooperative Primers are bi-functional molecules, consisting of a high affinity probe fragment that guarantees sensitivity, and a covalently attached lower affinity primer providing specificity. Additional optimization of Cooperative Primer structure generated molecules capable of reliable detection of allele changes as small as a single nucleotide. These highly selective Cooperative Primers maintain excellent discrimination properties in rare mutant allele scenarios, in both monoplex and multiplex assays. With synthetic DNA samples, Cooperative Primers can detect as little as 100 copies of mutant template amongst 1 000 000 copies of wild-type template (minor allele fraction of 0.01 %)...
Cooperative Primers are PCR assays designed by Dr. Brent Satterfield. They consist of a primer an... more Cooperative Primers are PCR assays designed by Dr. Brent Satterfield. They consist of a primer and a capture sequence connected by a polyethylene glycol or oligonucleotide linker. When the capture sequence anneals, the primer is brought into artificially close proximity to its target, thus increasing the local concentration of the primer (Pl) by approximately 15,000X. This allows the primer to be synthesized with a very low Tm (approx. 20C below reaction temperature) while still amplifying in PCR reactions. This virtually eliminates primer dimer formation. By accounting for additional effects caused by the flexibility of the target DNA sequence, DNA bonding angles, and asymmetries in how the polymerase extends, I have reformulated the equations used to maximize the Pl. Using these equations, we have changed the way we make Cooperative Primers to increase the Pl by 200,000X over original reaction concentrations – an order of magnitude improvement over previous design methods. This re...
bioRxiv (Cold Spring Harbor Laboratory), Jul 23, 2021
We describe a real time PCR-based technique capable of detecting and quantifying rare somatic mut... more We describe a real time PCR-based technique capable of detecting and quantifying rare somatic mutations in circulating tumor DNA reference materials. Our approach utilizes previously described Cooperative Primers, structurally modified to exhibit high allele-specificity and onecopy target sensitivity. Cooperative Primers are bi-functional molecules, consisting of a high affinity probe fragment that guarantees sensitivity, and a covalently attached lower affinity primer providing specificity. Additional optimization of Cooperative Primer structure generated molecules capable of reliable detection of allele changes as small as a single nucleotide. These highly selective Cooperative Primers maintain excellent discrimination properties in rare mutant allele scenarios, in both monoplex and multiplex assays. With synthetic DNA samples, Cooperative Primers can detect as little as 100 copies of mutant template amongst 1 000 000 copies of wild-type template (minor allele fraction of 0.01 %). Multiplex Cooperative Primer assay was validated with cell-free DNA reference materials and consistently detected the lowest minor allele fraction available (0.1 %) for EGFR L858R, G719S and V769-D770insASV mutations, while simultaneously providing qualitative and quantitative assessment of cell-free DNA with integrated β-Actin assay. Easy to design, rapid and inexpensive, Cooperative Primer-based real time PCR assays are a promising tool for evaluation of cancer therapy response, occurrence of resistance mutations and relapse monitoring.
bioRxiv, 2021
We describe a real time PCR-based technique capable of detecting and quantifying rare somatic mut... more We describe a real time PCR-based technique capable of detecting and quantifying rare somatic mutations in circulating tumor DNA reference materials. Our approach utilizes previously described Cooperative Primers, structurally modified to exhibit high allele-specificity and one-copy target sensitivity. Cooperative Primers are bi-functional molecules, consisting of a high affinity probe fragment that guarantees sensitivity, and a covalently attached lower affinity primer providing specificity. Additional optimization of Cooperative Primer structure generated molecules capable of reliable detection of allele changes as small as a single nucleotide. These highly selective Cooperative Primers maintain excellent discrimination properties in rare mutant allele scenarios, in both monoplex and multiplex assays. With synthetic DNA samples, Cooperative Primers can detect as little as 100 copies of mutant template amongst 1 000 000 copies of wild-type template (minor allele fraction of 0.01 %)...
Cooperative Primers are PCR assays designed by Dr. Brent Satterfield. They consist of a primer an... more Cooperative Primers are PCR assays designed by Dr. Brent Satterfield. They consist of a primer and a capture sequence connected by a polyethylene glycol or oligonucleotide linker. When the capture sequence anneals, the primer is brought into artificially close proximity to its target, thus increasing the local concentration of the primer (Pl) by approximately 15,000X. This allows the primer to be synthesized with a very low Tm (approx. 20C below reaction temperature) while still amplifying in PCR reactions. This virtually eliminates primer dimer formation. By accounting for additional effects caused by the flexibility of the target DNA sequence, DNA bonding angles, and asymmetries in how the polymerase extends, I have reformulated the equations used to maximize the Pl. Using these equations, we have changed the way we make Cooperative Primers to increase the Pl by 200,000X over original reaction concentrations – an order of magnitude improvement over previous design methods. This re...