Optimization of small-scale sample preparation for high-throughput OpenArray analysis

OpenArray is one of the most high-throughput qPCR platforms available but its efficiency can be limited by sample preparation methods that are slow and costly. To optimize the sample workflow for high-throughput qPCR processing by OpenArray, small-scale sample preparation methods were compared for c...

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Veröffentlicht in:	Journal of biological methods 2021-02, Vol.8 (1), p.e143-e143
Hauptverfasser:	Abraham, Neeta A, Campbell, Anne C, Hirst, Warren D, Nezich, Catherine L
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Sprache:	eng
Schlagworte:	Benchmark
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creator	Abraham, Neeta A Campbell, Anne C Hirst, Warren D Nezich, Catherine L
description	OpenArray is one of the most high-throughput qPCR platforms available but its efficiency can be limited by sample preparation methods that are slow and costly. To optimize the sample workflow for high-throughput qPCR processing by OpenArray, small-scale sample preparation methods were compared for compatibility with this system to build confidence in a method that maintains quality and accuracy while using less starting material and saving time and money. This study is the first to show that the Cells-to-CT kit can be used to prepare samples within the dynamic range of OpenArray directly from cultured cells in a single well of a 96-well plate when used together with a cDNA preamplification PCR step. Use of Cells-to-CT produced results of similar quality and accuracy to that of a preparation method using purified RNA in less than half the sample preparation time. While Cells-to-CT samples also exhibited slightly increased variance, which affects the ability of OpenArray to distinguish small differences in gene expression, overall gene expression mean results correlated well between small-scale methods. This work demonstrates that Cells-to-CT with preamplification can be used to reliably prepare samples for OpenArray analysis while saving time, money, and starting material.
doi_str_mv	10.14440/jbm.2021.339
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title	Optimization of small-scale sample preparation for high-throughput OpenArray analysis
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