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Multiplexing in action – from simplicity to scientific complexity
Multiplexing is reshaping how scientists think about PCR experiments, turning single-target workflows into powerful, multi-dimensional analyses.
In this Science Snapshot, we revisit standout moments from past episodes to explore how multiplexing is applied across research areas, from measuring interferon-related genes in lupus to analyzing complex microbial communities and detecting low-level donor-derived DNA.
Guests highlight both the opportunities and challenges, including assay design, probe optimization, and troubleshooting strategies. The episode also showcases how multiplexing enables entirely new applications, such as comparing chromosome ratios, assessing molecular integrity, and distinguishing functional mRNA from truncated byproducts. Whether using qPCR or digital PCR, multiplexing allows researchers to extract more information per sample, improve precision through multiple data points, and better reflect biological complexity. As platforms and chemistries continue to evolve, multiplexing is becoming more accessible, helping scientists move faster, conserve material, and focus more on interpreting results rather than optimizing reactions.
Visit the Absolute Gene-ius page to learn more about the guests, the hosts, and the science we explore. Discover the Applied Biosystems QuantStudio Digital and Real-Time PCR Systems powering real-world research across neuroscience, oncology, agriculture, and more.
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By Jordan Ruggieri, Lisa CrawfordMultiplexing is reshaping how scientists think about PCR experiments, turning single-target workflows into powerful, multi-dimensional analyses.
In this Science Snapshot, we revisit standout moments from past episodes to explore how multiplexing is applied across research areas, from measuring interferon-related genes in lupus to analyzing complex microbial communities and detecting low-level donor-derived DNA.
Guests highlight both the opportunities and challenges, including assay design, probe optimization, and troubleshooting strategies. The episode also showcases how multiplexing enables entirely new applications, such as comparing chromosome ratios, assessing molecular integrity, and distinguishing functional mRNA from truncated byproducts. Whether using qPCR or digital PCR, multiplexing allows researchers to extract more information per sample, improve precision through multiple data points, and better reflect biological complexity. As platforms and chemistries continue to evolve, multiplexing is becoming more accessible, helping scientists move faster, conserve material, and focus more on interpreting results rather than optimizing reactions.
Visit the Absolute Gene-ius page to learn more about the guests, the hosts, and the science we explore. Discover the Applied Biosystems QuantStudio Digital and Real-Time PCR Systems powering real-world research across neuroscience, oncology, agriculture, and more.