Mar 05, 2025

Public workspaceSoil Metagenome PacBio V2 V.2

This protocol is a draft, published without a DOI.
  • 1Quadram Institute Bioscience;
  • 2Earlham Institute;
  • 3Pasteur Institute
  • Quince_Group
Robert S James
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Protocol CitationRobert S James, Gaetan Benoit, sebastien raguideau, Georgina Alabone, Christopher Quince 2025. Soil Metagenome PacBio V2. protocols.io https://protocols.io/view/soil-metagenome-pacbio-v2-d43g8yjwVersion created by Robert S James
License: This is an open access protocol distributed under the terms of the Creative Commons Attribution License,  which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited
Protocol status: In development
We are still developing and optimizing this protocol
Created: August 15, 2024
Last Modified: March 05, 2025
Protocol Integer ID: 123720
Keywords: Metagenomics, Soil, Long-reads, PacBio, Revio
Disclaimer
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Abstract
This protocol describes the sample collection to sequence acquisition workflow for PacBio Revio long-read sequencing of a complex soil sample using SMRT Bell library prep kit 2.0 and Revio SMRT cells.
Attachments
Icon for SPRI_man.pdf
SPRI_man.pdf
565KB
Icon for FastDNA_SPIN_Kit_Protocol.pdf
FastDNA_SPIN_Kit_Pro...
221KB
Icon for Zymo_shield_man.pdf
Zymo_shield_man.pdf
628KB
Guidelines
  • Fully equilibriate Ampure XP SPRI beads to TemperatureRoom temperature before use.
  • Fully equilibriate Qubit solution to TemperatureRoom temperature before use.
  • Fully equilibriate Tape station screen tape and reagents to TemperatureRoom temperature before use.
  • Over drying DNA bound to Ampure XP SPRI beads can reduce SampleSample recovery.
  • Additional time must be given for the Ampure XP beads to clear from the adapter ligation reaction due to the high viscosity of the solution. Failure to provide adequate time for the supernatant to clear can result in SampleSample loss.






Materials
Equipment

  • Bench top centrifuge
  • Thermal cycler
  • ReagentQubit 4 FluorometerThermo Fisher ScientificCatalog #Q33238
  • ReagentCapillary electrophoresis instrument (e.g. Agilent Tapestation 4200)Contributed by users
  • Rotational mixer
  • Heat block
  • Magnetic rack
  • Fridge Temperature4 °C
  • Freezer Temperature-80 °C
  • Ice bucket
  • Pipette set (P10, P20, P200, P1000)
  • Soil corer
  • Soil Sieve
  • Soil collection plate
  • Plate sealer
  • Top pan balance
  • Weigh boat
  • Spatula
  • Measuring cylinder Amount100 mL
  • Conical flask Amount250 mL

Reagents

  • ReagentZymo DNA/RNA ShieldFisher ScientificCatalog #50-125-1706
  • ReagentFastDNA™ SPIN Kit for SoilMPBioCatalog #116560200-CF
  • ReagentMonarch RNase ANew England BiolabsCatalog #T3018L
  • ReagentEthanol (100%, Molecular Biology Grade)Fisher ScientificCatalog #BP2818500
  • ReagentMolecular Biology Grade WaterFisher ScientificCatalog #10154604
  • ReagentAgencourt AMPure XPBeckman CoulterCatalog #A63880
  • ReagentQubit 1X dsDNA HS Assay KitThermo Fisher ScientificCatalog #Q33230
  • ReagentGenomic DNA ReagentsAgilent TechnologiesCatalog #5067-5366
  • ReagentGenomic DNA ScreenTapeAgilent TechnologiesCatalog #5067-5365
  • PacBio SPK 2.0
  • Barcoding overhang kit 8A


Consumables

  • Eppendorf lo-bind Falcon tubes Amount5 mL Catalog no. 0030122348
  • Eppendorf lo-bind microfuge tubes Amount1.5 mL Catalog no. 0030108051
  • ReagentQubit™ Assay TubesInvitrogen - Thermo FisherCatalog #Q32856
  • Thin-walled PCR tubes Amount0.2 mL Catalog no: AB-2000
  • Cryovials Amount2 mL Cataloge no. 41121704
  • Qubit tubes Amount0.2 mL Cataloge no. Q32856
  • P1000 Wide bore pipette tips
  • P1000 pipette tips
  • P200 Pipette tips
  • P20 pipette tips
  • P10 pipette tips
  • Crushed ice















Safety warnings

Safety information
  • Binding Matrix contains components that, when in contact with human tissue, may cause irritation. Wear personal protective equipment to prevent contact with the skin or mucous membranes (gloves, lab coat, and eye protection).

  • EtOH (100%) is a highly flammable liquid and vapour. It can cause serious eye irritation. Keep away from heat, hot surfaces, sparks, open flames and other sources of ignition.

Before start
  • Dilute the concentrated SEWS-M solution with Amount100 mL of Concentration100 % (v/v) EtOH before use.
  • Prepare Amount10 mL of fresh Concentration80 % (v/v) EtOH.


1. Soil sample collection and storage
1. Soil sample collection and storage
Collect approximately Amount15 g of soil using a sterile soil corer or similar device and transfer to a sterile soil sieve and collection plate.

Homogenise the soil sample by passing it through the soil sieve and collecting the output on the collection plate below the sieve. The use of a sterile plate sealer can be used to facilitate sieve homogenisation.
Use a top pan balance, spatular and weigh boat to weigh Amount10-50 g of homogenised soil SampleSample and transfer to a Amount250 mL conical flask. Promptly suspend the soil in Amount100 mL of Zymo DNA/RNA shield for a final concentration of Concentration100-500 mg/mL .

Incubate for at least Duration04:00:00 at room temperature or Temperature4 °C DurationOvernight with occasional mixing.

16h
Incubation
Overnight
Temperature
Gently mix the bulk sample by hand to form a homogenous solution then aspirate Amount1000 µL of the total sample using a P1000 pipette and wide bore tip. Transfer the SampleSample into a new and sterile Amount2 mL cryovial and close the lid securely.

Repeat step 5 until the total volume of sample has exhausted or the desired number of aliquots have been achieved.
Snap freeze and store SampleSample at Temperature-80 °C for future use.

Temperature
2. DNA extraction and sample cleanup
2. DNA extraction and sample cleanup
1h 38m 15s
1h 38m 15s
Defrost the SampleSample for Duration00:15:00 TemperatureOn ice prior to commencing DNA extraction.

15m
Temperature
Transfer Amount1000 µL of the SampleSample to a new and clean 1.5 ml lo-bind Eppendorf tube using a P1000 pipette and wide bore pipette tip.

Centrifuge at Centrifigation5000 x g, 00:04:00 to pellet the SampleSample .

4m
Aspirate and discard the supernatant without disturbing the pellet.
Resuspend the pellet in Amount978 µL of sodium phosphate buffer, then transfer the SampleSample to a new and clean lyzing matrix E tube.

Add Amount122 µL of MT buffer to the SampleSample , mix by inversion and incubate TemperatureOn ice for Duration00:05:00 .

5m
Incubation
Temperature
Place the matrix tube in a MPBio FastPrep instrument (or similar) and homogenise for Duration00:00:10 at Amount5.0 ms then return the SampleSample to ice.

10s
Temperature
Incubate the SampleSample TemperatureOn ice for Duration00:05:00 .

5m
Incubation
Temperature
Repeat steps 14 and 15 then continue to step 17.
Add Amount250 µL of protein precipitation solution (PPS) to a new and clean Amount1.5 mL lo-bind Eppendorf tube and chill TemperatureOn ice .

Incubation
Temperature
Remove the lysing matrix-E tube from the ice and centrifuge at Centrifigation14000 x g, 00:04:00 to pellet the debris.

4m
Decant the supernatant from the lysing matrix E tube into the pre chilled PPS without disturbing the pellet, then mix the SampleSample by inversion 10 times and place TemperatureOn ice .

Temperature
Incubate the SampleSample TemperatureOn ice for Duration00:10:00 to facilitate protein precipitation.

10m
Incubation
Temperature
Remove the SampleSample from the ice and centrifuge at Centrifigation14000 x g, 00:02:00 to pellet the protein precipitate.

2m
Homogenise the binding matrix immediately before use. Add Amount1000 µL of resuspended binding matrix to a clean Amount5 mL lo-bind tube.

Safety information
  • Binding Matrix contains components that, when in contact with human tissue, may cause irritation. Wear personal protective equipment to prevent contact with the skin or mucous membranes (gloves, lab coat, and eye protection).

Gently decant the SampleSample directly into the binding matrix without disturbing the protein pellet, secure the lid and mix the SampleSample by inversion until a homogeneous solution has formed.

Incubate the SampleSample on a rotational mixer at Shaker30 rpm, Room temperature , 00:10:00 .

10m
Incubation
Add Amount1000 µL of DES to a new and clean Amount1.5 mL lo-bind tube and place the tube into an active heat block set to Temperature56 °C .
Incubation
Remove the SampleSample from the rotational mixer and transfer Amount750 µL of sample to an MPbio spin filter using a wide bore P 1000 pipette tip. Return the SampleSample to the rotational mixer.

Centrifuge the spin filter at Centrifigation14000 x g, 00:02:00 and discard flow through.

2m
Repeat steps 26 and 27 until all the binding matrix has been processed through the spin filter.
Add Amount500 µL of prepared SEWS-M buffer to the SampleSample bound binding matrix, close the lid securely and suspend the beads in the SEWS-M solution by flicking the tube.


Safety information
EtOH (100%) is a highly flammable liquid and vapour. It can cause serious eye irritation. Keep away from heat, hot surfaces, sparks, open flames and other sources of ignition.

Centrifuge the SampleSample at Centrifigation14000 x g, 00:02:00 then discard the flow through.

2m
Repeat steps 29 and 30 then continue to step 32.
Centrifuge the SampleSample at Centrifigation14000 x g, 00:02:00 to collect excess EtOH.

2m
Remove the spin filter from the catch tube and place it into a new and clean Amount1.5 mL lo-bind Eppendorf tube.

Allow the binding matrix to air dry for Duration00:02:00 .

2m
Add Amount100 µL of Temperature56 °C DES elution buffer to the binding matrix and agitate the spin filter until a slurry has formed.

Incubate the SampleSample at Temperature56 °C for Duration00:10:00 with intermittent agitation.

10m
Incubation
Temperature
Centrifuge the SampleSample at Centrifigation14000 x g, 00:02:00 . Discard the spin filter and retain the SampleSample eluate.

2m
Allow the SampleSample to equilibrate to TemperatureRoom temperature and add Amount1 µL RNase A at Concentration20 mg/mL . Mix tube by flicking and then incubate at TemperatureRoom temperature for Duration00:02:00 .
2m
Temperature
Add Amount60 µL of TemperatureRoom temperature Ampure XP beads to the SampleSample and mix by flicking the tube until a homogeneous solution has formed.

Incubate the SampleSample on a rotational mixer for Duration00:10:00 at TemperatureRoom temperature .

10m
Incubation
Temperature
Briefly spin down the SampleSample and place on a magnetic rack.

Once the SampleSample has cleared, aspirate and discard the supernatant without disturbing the beads.

Gently add Amount200 µL of Concentration80 % (v/v) EtOH across the beads and incubate on the magnetic rack for at least Duration00:00:30 .

30s
Aspirate and discard the supernatant without disturbing the beads.
Repeat steps 43 and 44 then continue to step 46.
Remove the SampleSample from the magnetic rack and briefly centrifuge at < Centrifigation1000 x g to collect any residual EtOH then return the SampleSample to the magnetic rack.

5s
Centrifigation
Promptly remove the excess EtOH with a P10 pipette and tip without disturbing the beads.
Allow the beads to air dry for Duration00:00:30 or until the beads are satin in appearance. Do not over dry the beads, avoid excess EtOH carry over.

30s
Critical
Remove the SampleSample from the magnetic rack and add Amount46 µL of molecular grade water to the beads.

Resuspend the beads in the water by flicking the tube until a homogenous solution has formed.
Incubate the SampleSample at Temperature37 °C for Duration00:10:00 then return the SampleSample to the magnetic rack.

10m
Incubation
Temperature
Once the solution has cleared, Quantify Amount1 µL of SampleSample using a Qubit 4 fluorometer or similar device.

PacBio SPK 2.0 library preparation
PacBio SPK 2.0 library preparation
5h 6m
5h 6m
DNA blunting

Prepare the following reaction on ice. Scale the reaction volume by sample number.

AB
ReagentVolume (µl)
Enzyme Dilution Buffer4.0
DNA Prep Additive1.0

Prepare the following reaction in a 0.2 ml thin walled PCR tube for each sample and return to ice. Use DNA Prep Additive from step 53.

AB
ReagentVolume (µl)
DNA45.0
DNA Prep Buffer7.0
NAD1.0
DNA Prep Additive1.0
DNA Prep Enzyme1.0
Total55

Mix the sample by flicking and spin down to collect.
Incubate the SampleSample in a thermal cycler at Temperature37 °C for Duration00:15:00 then place the sample TemperatureOn ice .

15m
DNA damage repair (FFPE).
Add Amount2 µL of DNA damage repair mix v2 to each SampleSample and mix by flicking then spin down to collect.

Incubate at Temperature37 °C for Duration00:30:00 then place the SampleSample TemperatureOn ice .

30m
End-repair and A-tailing.
Add Amount3 µL of End Prep Mix to each SampleSample mix by flicking and spin down to collect.

Incubate the SampleSample at Temperature20 °C for Duration00:30:00 , then at Temperature65 °C for Duration00:30:00 then place the sample TemperatureOn ice

1h
SMRT bell adapter ligation
Defrost one barcoded overhang SMRT bell adapter per sample, mix by flicking, spin down and place TemperatureOn ice

Add Amount5 µL of a single barcoded overhang SMRT bell adapter to each SampleSample , mix by flicking, spin down and place TemperatureOn ice .

Add Amount30 µL of Ligation mix, Amount1 µL of Ligation aditive and Amount1 µL of Ligation Enhancer to each sample, mix by flicking, spin down and return to ice.

Incubate the sample at Temperature20 °C for Duration01:00:00 then at Temperature4 °C for up to 16 h.

1h
Incubate the SampleSample at Temperature65 °C for Duration00:10:00 then place TemperatureOn ice .

10m
Nuclease treatment

Prepare the following reaction and place on ice. Scale the reaction volume by sample number.


AB
ReagentVolume (µl)
Enzyme A4.0
Enzyme B1.0
Enzyme C1.0
Enzyme D2.0

Add Amount8 µL of Enzyme mix to eacg SampleSample and mix by flicking then spin down to collect.

Incubate at Temperature37 °C for Duration01:00:00 then place the sample TemperatureOn ice .

1h
Spri cleanup.
Add Amount47.25 µL (0.45x) of SPRI beads at TemperatureRoom temperature and mix by flicking.

Incubate on a rotational mixer for Duration00:10:00 .

10m
Briefly spin to collect the SampleSample .

Place the sample on a magnetic rack and allow the solution to fully clear.
Aspirate and discard the supernatant without disturbing the beads.
Add Amount200 µL of Concentration80 % (v/v) EtOH across the beads and allow to sit for Duration00:00:30 .

30s
Aspirate and discard the EtOH.
Repeat steps 74 and 75, then continue.
Spin down to collect the tube contents and return to the magentic rack.
Promptly remove residual EtOH with a pippette.
Add Amount31 µL of PB 1X Elution buffer to the beads and mix by flicking.

Incubate the SampleSample atTemperature37 °C for Duration00:30:00 with occasional mixing.


30m
Place sample on a magnetic rack and allow the sample to clear.
Aspirate Amount31 µL of SampleSample and transfer to a new 1.5 ml lo-bind tube.

Add Amount1 µL of SampleSample to Amount9 µL of water and mix by flicking.

Quantify Amount2 µL of diluted sample using a Qubit fluorometer and HS assay kit. Quantify Amount1 µL of diluted library on a tape station or similar fragment analyser.

Dilute SPRI bead clean up

Add Amount350 µL of SPRI beads to Amount650 µL of 1 x PB elution buffer and mix by flicking.

Dilute the SampleSample to < 10 ng/µL with PB elution buffer.

Add 3.7 x volume of SampleSample of dilute SPRI beads to the SampleSample and mix by flicking.

Place on a rotational mixer for Duration00:30:00 at TemperatureRoom temperature

Briefly spin the sample to collect and place on a magnetic rack, then allow the sample to clear.
Aspirate and retain the supernatant in a new 1.5 lo-bind tube.
Add Amount250 µL of Concentration80 % volume EtOH across the beads and allow to sit for Duration00:00:30 .

30s
Remove and discard the EtOH without disturbing the beads.
Repeat the wash step and briefly spin to collect residual EtOH.
Remove residual EtOH then add Amount21 µL of 1x PB elution buffer to the beads and mix by flicking.

Incubate the SampleSample at Temperature37 °C for Duration00:30:00 with occasional mixing then return to the magnetic rack.

30m
Dilute Amount1 µL of final library in Amount9 µL of molecular grade water and retain for QC.

Aspirate Amount20 µL of final library to a new 1.5 ml lo-bind tube and place on ice.

Store final library at Temperature4 °C for imminent SMRT cell loading or a Temperature-20 °C for longterm storage.