RNA Flow Cell Wash Protocol

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Revision as of 15:08, 1 November 2024 by Tj (talk | contribs) (Created page with "{{info|'''This protocol is not officially supported by Oxford Nanopore'''. This protocol is an adapted version of the [https://www.protocols.io/view/modified-nuclease-flush-protocol-for-nanopore-rna-6qpvr8p6plmk/v1 Clark Lab Protocol], developed by '''Anathea Hull''' at the University of Melbourne. The intent behind this protocol is to increase the number of available pores in RNA specific flow cells by adding in RNases, in addition to DNase provided by the wash mix, to...")
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Information

This protocol is not officially supported by Oxford Nanopore. This protocol is an adapted version of the Clark Lab Protocol, developed by Anathea Hull at the University of Melbourne. The intent behind this protocol is to increase the number of available pores in RNA specific flow cells by adding in RNases, in addition to DNase provided by the wash mix, to help free up pores or motor proteins clogged by excess RNAs. I have had great success with this protocol, so I have provided it here with my modifications. If you intend to use this protocol, please proceed at your own risk.

Introduction

The Oxford Nanopore Flow Cell Wash Kit (EXP-WSH004) was designed to wash flow cells containing DNA by adding in a nuclease (DNase) to a wash buffer and flushing the solution through the flow cell. However, this wash kit does not include any RNases, and therefore fails to adequately wash either R9.4.1 or RNA004 flow cells. This protocol is an adapted version of the Oxford Nanopore wash protocol, which is fairly similar with the exception of added RNases, and can be used to greatly restore nanopores on RNA flow cells that may be clogged with excess RNA, or remove RNA that may be wrapped around motor proteins.

To carry out the protocol, you will need the following reagents. Links to each reagent are also provided.

Reagents Required
Reagent Manufacturer Catalog No. and Link
Flow Cell Wash Kit Oxford Nanopore EXP-WSH004/XL
RNase Cocktail Enzyme Mix Invitrogen AM2286
RNase H NEBio M0297

Protocol

  1. Place the Wash Mix (WMX) on ice. Do NOT vortex the tube.
  2. Thaw one tube of Wash Diluent (DIL) at room temperature.
  3. Mix the contents of the Wash Diluent (DIL) thoroughly by vortexing, then spin down briefly and place on ice.
  4. In a clean 1.5 mL Eppendorf DNA LoBind tube, prepare the following Flow Cell Wash Mix:
Flow Cell Wash Mix
Reagent Volume
Wash Diluent† (DIL) 396 μL
Wash Mix (WMX) 2 μL
RNase Cocktail Enzyme Mix 1 μL
RNase H 1 μL
Total 400 μL
†Note: The Wash Diluent appears to be 300 mM KCl, 2 mM CaCl2, 10 mM MgCl2, and 15 mM HEPES in PCR H2O adjusted to a pH of 8.0. You may be able to make more using reagents in the lab, although I have not tested this.
  1. Mix well by pipetting and place on ice. Do NOT vortex the tube.
  2. Stop or pause the sequencing experiment in MinKNOW, and leave the flow cell in the device.
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