Application of multiple response optimization design to quantum dot-encoded microsphere bioconjugates hybridization assay |
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Authors: | Thiollet Sarah Bessant Conrad Morgan Sarah L |
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Affiliation: | aTranslational Medicine Group, Cranfield Health, Cranfield University, Cranfield, Bedfordshire MK43 0AL, UK;bBioinformatics Group, Cranfield Health, Cranfield University, Cranfield, Bedfordshire MK43 0AL, UK |
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Abstract: | The optimization of DNA hybridization for genotyping assays is a complex experimental problem that depends on multiple factors such as assay formats, fluorescent probes, target sequence, experimental conditions, and data analysis. Quantum dot-doped particle bioconjugates have been previously described as fluorescent probes to identify single nucleotide polymorphisms even though this advanced fluorescent material has shown structural instability in aqueous environments. To achieve the optimization of DNA hybridization to quantum dot-doped particle bioconjugates in suspension while maximizing the stability of the probe materials, a nonsequential optimization approach was evaluated. The design of experiment with response surface methodology and multiple optimization response was used to maximize the recovery of fluorescent probe at the end of the assay simultaneously with the optimization of target–probe binding. Hybridization efficiency was evaluated by the attachment of fluorescent oligonucleotides to the fluorescent probe through continuous flow cytometry detection. Optimal conditions were predicted with the model and tested for the identification of single nucleotide polymorphisms. The design of experiment has been shown to significantly improve biochemistry and biotechnology optimization processes. Here we demonstrate the potential of this statistical approach to facilitate the optimization of experimental protocol that involves material science and molecular biology. |
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Keywords: | Design of experiment Multiple response optimization Quantum beads Hybridization Flow cytometry |
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