Feb 22, 2024

Public workspaceeDNA extraction from water samples filtered through Sterivex filter units (NucleoMag DNA/RNA Water Kit - MACHEREY NAGEL).

DOI
dx.doi.org/10.17504/protocols.io.ewov1qpkpgr2/v1
  • 1INRAE - Univ. Savoie Mont Blanc - UMR CARRTEL - Pole R&D Ecla
Marine Vautier
Open access
DOI: dx.doi.org/10.17504/protocols.io.ewov1qpkpgr2/v1
Protocol CitationMarine Vautier, Cecile Chardon, Cyrielle GALIEGUE, Isabelle Domaizon 2024. eDNA extraction from water samples filtered through Sterivex filter units (NucleoMag DNA/RNA Water Kit - MACHEREY NAGEL).. protocols.io https://dx.doi.org/10.17504/protocols.io.ewov1qpkpgr2/v1
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: Working
We use this protocol and it's working
Created: February 20, 2024
Last Modified: February 22, 2024
Protocol Integer ID: 95469
Keywords: eDNA, water, Sterivex, DNA, extraction, filter, rare DNA
Abstract
The objective of this protocol is the environmental DNA (eDNA) extraction from water samples filtered through Sterivex filter units. The Sterivex units can be prefilled with preservation buffer or not.

DNA extraction is performed using a MagnetaPure 32 Nucleic Acid Purification System (Dutscher) and with the NucleoMagDNA/RNA Water Kit (Macherey Nagel).

The procedure is based on reversible adsorption of nucleic acids to paramagnetic beads under appropriate buffer conditions.

The benefits of using the MagnetaPure 32 Nucleic Acid Purification System (Dutscher) are increased productivity and repeatability, as well as eliminating human error and the pain of repetitive work.

This protocol is used prior to molecular biology analysis (e.g. qPCR, metabarcoding, ddPCR) to specifically target both macro- and micro-organisms eDNA extracted from water samples.
This protocol is optimised for rare eDNA and the suggested elution volumes are therefore low (between 50 and 65 µL), but can be increased if targets are more abundant.
Image Attribution
Marine Vautier
Guidelines
The main steps of the protocol are:

  • Material preparation
  • Plate preparation
  • Sample lysis
  • Extraction with the MagnetaPure 32 System (Dutscher)
  • DNA elution
Materials
  • Materials:

- 1000 µL pipette
- 100 µL pipette
- Vortex + benchtop centrifuge
- Horizontal vortex with holder for Sterivex (15 mL tube holders)
- Centrifuge for 2 mL tubes (relative centrifugal force needed: 11,000 x g)
- Incubator (temperature needed: 70°C)
- MagnetaPure 32 Nucleic Acid Purification System (Dutscher)
- Specific DNA-workstation (sterile area equipped with air filtration and UV systems)

  • Consumables:

All tubes and tips must be sterile

- 1000 µL tips with filter
- 100 µL tips with filter
- 50 mL tubes: to prepare aliquots
- 5 mL tubes: 1 per 8 samples to prepare NucleoMag B-Beads and MWA2 mix
- 2 mL tubes: 1 per sample to transfer lysate + 2 to prepare aliquots
- 1.5 mL tubes: 1 per sample to transfer eluted DNA
- 5 mL syringes with Luer lock tip
- 96-well plate with 2 mL deep-wells, U-Bottom (Macherey Nagel - 746032.DEEP): 1 per 16 samples
- Magnetic rod coverfor MagnetaPure 32 (Macherey Nagel – 747032.TC): 1 per 8 samples
- Plastic film to protect the 96-well plate
- Gloves

For any manipulation in a rare DNA room, provide complete equipment (disposable coat, cap, mask, shoe covers & gloves).
  • Reagents:

- NucleoMag DNA/RNA Water kit (Macherey Nagel)
                    Note: shelf life of reagents for 24 months from production
- Buffer C1 (Macherey Nagel)
                    Note: Buffer C1 for lysis of Sterivex filtered samples is not supplied in the kit and must be ordered separately from the supplier (900 µL per sample)

  • Samples to be extracted:

- Sterivex filter units prefilled with preservation buffer (e.g. C1) or not

Before start
  • Filtration and preservation of the water samples through Sterivex units

This procedure can be performed with Sterivex filter units prefilled with preservation buffer (e.g. C1 buffer) or not. If the Sterivex is not prefilled with buffer, it should be frozen immediately after water filtration and until DNA extraction.

Note: If Sterivex are preserved with C1 buffer or the preservation buffer from the protocol below, the extraction can be performed directly, but for other preservation buffers such as Longmire and CTAB, the protocol proposed here will work, but upstream precipitation is recommended to increase the extraction efficiency.

The following protocol can be used to filter water through the Sterivex and to preserve them with a preservation buffer:
Protocol
Fish eDNA: water sampling and filtration through Sterivex filter unit
NAME

Fish eDNA: water sampling and filtration through Sterivex filter unit

CREATED BY
Marine Vautier


  • The following precautions must be applied:

- Wear gloves throughout the extraction process
- Clean the bench with a DNA-removing solution (e.g. DNA-off, DNA away).
- Use tips with filters to avoid contaminations
- All steps have to be performed under a specific DNA-work station (sterile area equipped with air filtration and UV systems)

For any manipulation in a rare DNA room, provide complete equipment (disposable coat, cap, mask, shoe covers & gloves).

  • Pre and post extraction equipment decontamination:

- Clean a specific DNA work station and apply UV
- MagnetaPure 32 System (Dutscher): Visual check for residues to be removed and UV decontamination – see instrument manual

Material preparation
Material preparation

  • Preheat the incubator at Temperature70 °C

  • To limit contamination of the kit buffers, it is recommended to aliquote them:
- Into 50 mL tubes for C1, MWA2, MWA3 and MWA4
- Into 2 mL tubes for NucleoMag B-Beads solution and DNase-free H2O

  • Tubes annotation
- one 2 mL tube per sample for lysate collection
- one 1.5 mL tube per sample for DNA collection
- one 5 mL tube per 8 samples for the NucleoMag B-Beads and MWA2 mix preparation

Plate preparation 1/2
Plate preparation 1/2
In this step, the buffers provided by the kit are distributed in a 96-well plate.
For DNA extraction from filtered water samples, the 12 columns of the plate are divided into 2 sections of 6 columns each, allowing up to 16 samples to be extracted per plate.

  • Annotate the 96-well plate as recommended below:
Table 1: Recommended plaque annotation

Note: It is useful to mark the dividing line between columns 6 and 7 with a marker pen to provide a visual cue for filling the plate.

  • Add the appropriate buffers into the appropriate wells of the plate.

1stcolumn / 7thcolumn: Will be filled during plate preparation 2/2
2ndcolumn / 8thcolumn: Amount850 µL of MWA3 (1st wash)
3rdcolumn / 9thcolumn: Amount850 µL of MWA3 (2nd wash)
4thcolumn /10thcolumn: Amount850 µL of MWA4 (3rd wash and bead drying)
5thcolumn / 11thcolumn: not used
6thcolumn / 12thcolumn: Amount50 µL or Amount65 µL of DNase-free H2O (DNA elution)

Note: The choice of elution volume is based on the expected eDNA amount. The smaller the amount, the smaller the elution volume in order to obtain more concentrated DNA.

Table 2: Plate preparation 1/2

  • Film and reserve the plate at TemperatureRoom temperature
30m
  • Preparation of the NucleoMag B-Beads and MWA2 mix:
- Prepare one 5 mL tube / maximum 8 samples  
- Add MWA2 only, the NucleoMag B-beads will be added during plate preparation 2/2 (allow a margin of one sample for the mix preparation. For example: plan a mix for 9 samples if 8 samples are to be extracted)

Table 3: Volume required to prepare NucleoMag B-beads and MWA2 mix (no margin)

5m
Sample Lysis
Sample Lysis
During this step, a mechanical and chemical lysis of the sample is performed.

  • For samples prefilled with buffer:
- Collect the Sterivex cartridges
Note: If the Sterivex cartridges are frozen, defrost them Duration00:10:00 at TemperatureRoom temperature
- Place the Sterivex on the horizontal vortex Duration00:00:05 at maximum speed
- Place the Sterivex into the incubator at Temperature70 °C - Duration00:05:00 , and if possible with automatic or manual agitation
- Aspirate the lysate from the Sterivex with a 5 mL syringue and transfer the lysate into a 2 mL tube (volumes recovered may vary and it may therefore be relevant to note them)
- Centrifuge at Shaker11000 x g, 00:00:30
- Replace the tubes into the rack and reserve them at TemperatureRoom temperature until their distribution into the 96-well plate

  • For samples without buffer:
- Collect the Sterivex cartridges from the freezer and place TemperatureOn ice
- Add immediately Amount900 µL of C1 buffer into each Sterivex and shake manually
- Place the Sterivex on the horizontal vortex Duration00:00:05 at maximum speed
- Place the Sterivex into the incubator at Temperature70 °C - Duration00:05:00 , and if possible with automatic or manual agitation
- Aspirate the lysate from the Sterivex with a 5 mL syringue and transfer the lysate into a 2 mL tube (volumes recovered may vary and it may therefore be relevant to note them)
- Centrifuge at Shaker11000 x g, 00:00:30
- Replace the tubes into the rack and reserve them at TemperatureRoom temperature until their distribution into the 96-well plate

20m 10s
Plate preparation 2/2
Plate preparation 2/2
  • Preparation of the NucleoMag B-Beads and MWA2 mix
NucleoMag B-Beads and MWA2 mix sediment quickly, vortex between each samples to ensure homogeneity

- Vigorously vortex NucleoMag B-Beads tube
- For each tube containing MWA2 buffer (previously prepared), add the appropriate volume of NucleoMag B-Beads (see Table 3 above
- Vortex

  • NucleoMag B-Beads - MWA2 mix and lysate distribution
- Remove the film from the plate
- Add the appropriate solution into each well of the plate

1stcolumn / 7thcolumn:
Amount500 µL of NucleoMag B-Beads and MWA2 mix
Amount450 µL of Lysate (supernatant from the 2 mL tubes)

Table 4: Plate preparation 2/2

15m
Extraction step performed in the MagnetaPure 32 System
Extraction step performed in the MagnetaPure 32 System
  • Place the plate into the MagnetaPure 32 System and insert the magnetic rod coverfor – see instrument manual

- Select the appropriate program to the chosen elution volume and elution temperature
Table 5: MagnetaPure 32 System program for NucleoMag DNA/RNA Water Kit DNA extraction

Note: Heating to 56°C during elution gives a higher yield of DNA, but there is a risk of evaporation which reduces the volume of eluted DNA recovered
- Start the run (The run lasts approximately Duration00:40:00 )

40m
Transfer of DNA extracts
Transfer of DNA extracts
30m
30m
  • At the end of the run, remove the plate and place it into the DNA-workstation
- Remove the magnetic rod cover and start UV for decontamination – see instrument manual
- In the DNA-workstation, transfer each DNA extract into a 1.5 mL tube previously annotated

Note: DNA concentration and quality can be measured at this step (e.g. Nanodrop)

  • Store DNA extracts at Temperature4 °C for immediate use, or at Temperature-20 °C or Temperature-80 °C for long-term preservation

Protocol references
NucleoMag DNA/RNA Water kit (Macherey Nagel) manual : https://www.mn-net.com/media/pdf/ce/b5/38/Instruction-NucleoMag-DNA-RNA-Water.pdf

MagnetaPure 32 Nucleic Acid Purification System (Dutscher) manual : https://pdf.dutscher.com/doc/255743/255743_MEen.pdf