SLAS Technology (Feb 2023)

Improving an rRNA depletion protocol with statistical design of experiments

  • Benjamin M. David,
  • Paul A. Jensen

Journal volume & issue
Vol. 28, no. 1
pp. 16 – 21

Abstract

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In prokaryotic RNA-seq library preparation, rRNA depletion is required to remove highly abundant rRNA transcripts from total RNA. rRNA is so abundant that small improvements in depletion efficiency lead to large increases in mRNA sequencing coverage. The current gold-standard method for rRNA depletion makes rRNA depletion the most expensive step in prokaryotic RNA-seq library preparation. A variety of commercial and home-made methods exist to lower the cost or increase the efficiency of rRNA removal. Many of these techniques are suboptimal when applied to new species of bacteria or when the protocol or reagents need to be changed. Re-optimizing a protocol by trial-and-error is an expensive and laborious process. Systematic frameworks like the statistical design of experiments (DOE) can efficiently improve processes by exploring the quantitative relationship between multiple factors. DOE allows experimenters to find factor interactions that may not be apparent when factors are studied in isolation.We used DOE to optimize an rRNA depletion protocol by updating reagents and identifying factors that maximize rRNA removal and minimize cost. The optimized protocol more efficiently removes rRNA, uses fewer reagents, and is less expensive than the original protocol. Our optimization required only 36 experiments and identified two significant interactions among three protocol factors. Overall, our approach demonstrates the utility of a rational, DOE framework for improving complex molecular biology protocols.

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