Nanopore-only Microbial Isolate Sequencing Solution (NO-MISS) - automated ElysION (SQK-RBK114.96)

Descripción general

Automated end-to-end method using the ElysION device outlining sample extraction, library preparation, sequencing and analysis. This protocol:

  • Is an automated method using the ElysION device
  • Uses bacterial or fungi cells
  • Enables multiplexing of up to 24 samples
  • Includes DNA fragmentation
  • Is optimised for high output
  • Is compatible with R10.4.1 flow cells

For Research Use Only

This method is used with an Early Access device.

For more information about our Early Access programmes, please refer to this article on product release phases.

Document version: ISOE_9213_v114_revC_22Nov2024

1. Overview of the protocol

IMPORTANTE

This protocol is a work in progress and some details are expected to change over time. Please make sure you always use the most recent version of the protocol.

Introduction to the automated Nanopore-only Microbial Isolate Sequencing Solution (NO-MISS) protocol using ElysION

This end to end protocol describes our automated Nanopore-Only Microbial Isolate Sequencing Solution (NO-MISS): a flexible approach allowing sequencing of up to 24 microbial isolate genomes per MinION Flow Cell, generating a coverage of 50x per genome.

The 50X coverage threshold is sufficient for downstream analysis including: accurate assembly and plasmid resolution, AMR profiling, core genome (cg) and whole genome (wg) multi-locus sequence typing (MLST), and cg/wgSNP typing. Your sequencing data will be analysed by the device using the wf-bacterial-genomes workflow, which produces a user-friendly report of the results.

We provide multiple DNA extraction approaches, depending on requirements, and starting organism (bacteria, fungi/yeast). These are key in achieving reliable flow cell output and genome coverage.

The extracted gDNA is then tagmented and sequenced using our Rapid Barcoding Kit (SQK-RBK114.96). Up to 24 samples per sequencing experiment for bacterial isolates (up to 7 Mb genomes) and up to 8 samples for fungi/yeast isolates can be processed. Bacteria with a genome size of ≤4Mb can expect to generate a minimum coverage of 50x per genome. Please note, coverage may vary depending on larger genome size and input sample quality.

We recommend sequencing up to 72 hours and generating at least 50x coverage per sample (approx. 0.5 Gb per barcode, assuming 5 Mb genome).

Steps in the sequencing workflow:


Prepare for your experiment

You will need to:

  • Ensure your ElysION device is installed with the required hardware and software package for this workflow.
  • Ensure you have your sequencing kit, the correct equipment and third-party reagents.
  • Check your flow cell to ensure it has enough pores for a good sequencing run.

Sample preparation

We have developed several optimised extraction methods to generate high quality genomic DNA from your cell cultures, allowing maximised sequencing output using the Automated Nanopore-only Microbial Isolate Sequencing Solution (NO-MISS) end-to-end protocol.

What extraction method is right for me?

NO-MISS elysION sample decision tree

Using the relevant gDNA extraction method, you will need to lyse your cells and extract your gDNA:

  • Universal bead-beating method:

    • For high throughput requirements and universal applications, including bacteria and fungi.
  • Bacteria gDNA extraction:

    • This extraction method is recommended for use with general bacterial samples. This method has been validated with Escherichia coli, Klebsiella pneumoniae, Pseudomonas aeruginosa, Serratia marcescens, Enterococcus faecalis, and Bacillus subtilis or staphylococci such as Staphylococcus aureus, and Staphylococcus epidermidis.
  • Hard to lyse organisms gDNA extraction:

    • This extraction method is recommended hard to lyse organisms, such as Mycobacterium tuberculosis, or for bacteria that was not successfully extracted using the Bacteria gDNA extraction method.

Automated library preparation, sequencing and analysis

ElysION NO MISS workflow

The table below is an overview of the steps automated by the ElysION device.

Library preparation step Process
Sample extraction
Bead binding Addition of the DNA binding bead mix from the MagMAX™ DNA Multi-Sample Ultra 2.0 Kit to your lysed sample(s)
Clean-up gDNA purification and clean-up
Elution Elution of your extracted and cleaned sample gDNA
Library preparation
DNA barcoding Tagmentation of the DNA using the Rapid Barcoding Kit V14
Sample pooling Pooling of barcoded samples
Bead binding Addition of AMPure XP Beads
Flow cell priming Prime the flow cell for sequencing
Clean-up Clean-up your samples by performing an Ethanol wash
Elution Elute the pooled and cleaned DNA, and attach the sequencing adapters to the DNA ends
Flow cell loading Prime the flow cell and load the prepared library for sequencing
Sequencing Your sequencing run uses the Gourami software, which will collect raw data to basecall and demultiplex the barcoded reads.
Data analysis Once sequencing is complete, the device will perform downstream analysis of the data uing the isolate mode of the wf-bacterial-genomes workflow.
Flow cell wash or flush Flow cell is washed using the EXP-WSH004 for reuse or flushed for return
IMPORTANTE

Compatibility of this protocol

This protocol should only be used in combination with:

  • Rapid Barcoding Kit 96 V14 (SQK-RBK114.96)
  • R10.4.1 flow cells (FLO-MIN114)
  • Flow Cell Wash Kit (EXP-WSH004)
  • Flow Cell Priming Kit V14 (EXP-FLP004)
  • Sequencing Auxiliary Vials V14 (EXP-AUX003)
  • Rapid Adapter Auxiliary V14 (EXP-RAA114)
  • ElysION device

2. Equipment and consumables

Material
  • Sample input for DNA extraction (see details below)
  • Rapid Barcoding Kit 96 V14 (SQK-RBK114.96)
  • Flow Cell Wash Kit (EXP-WSH004) (kit de lavado de celda de flujo)

Consumibles
  • Celda de flujo MinION/GridION
  • MagMAX™ DNA Multi-Sample Ultra 2.0 Kit (ThermoFisher, cat # A36570)
  • MagMAX™ DNA Cell and Tissue Extraction Buffer (ThermoFisher, cat # A45469)
  • PureLink™ RNase A (20 mg/ml) (ThermoFisher, cat # 12091021)
  • PBS pH 7.4 (e.g. Gibco, cat # 11503387)
  • TE Buffer Solution pH 8.0 (sigma, cat # 8890-OP)
  • Lysozyme human (Sigma, L1667)
  • Achromopeptidase (Sigma, A3547)
  • 5 M Sodium chloride NaCl (Sigma, cat # 71386)
  • Sodium Dodecyl Sulfate SDS (Sigma, cat # 71736)
  • Trizma® hydrochloride solution (Sigma, T2819)
  • BashingBead Buffer (Zymo, D6001-3-40)
  • Empty FastPrep® 2mL Lysing Matrix tubes (MP Biomedicals, 115076200)
  • Screw Cap for 2 mL Lysing Matrix tubes (MP Biomedicals, 115067005)
  • Glass beads, 4 mm (MP Biomedicals, 116914801)
  • PowerBead Pro tube (Qiagen, 19301)
  • Hard-Shell® 96-Well PCR Plates, low profile, thin wall, skirted, red/clear (Bio-Rad™, cat # HSP9611)
  • Thermo Scientific™ Nunc™ 96 Well 2 ml Polypropylene DeepWell Plate (Thermo Scientific, cat # 95040452)
  • 1000 µl Disposable Conductive Tips - Liquid Handling Flexible Channel Arm - Filtered, Pure, Single Stack (Tecan, cat # 30057817)
  • 200 µl Disposable Conductive Tips - Liquid Handling Flexible Channel Arm - Filtered, Pure, Single Stack (Tecan, cat # 30057815)
  • 50 µl Disposable Conductive Tips - Liquid Handling Flexible Channel Arm - Filtered, Pure, Single Stack (Tecan, cat # 30057813)
  • LiHa empty Disposable Tip Box for 10/50/200 µl refill insert tips, ANSI Format (Tecan, cat # 30058506)
  • LiHa empty Disposable Tip Box for 1000 µl refill insert tips, ANSI Format (Tecan, cat # 30058507)
  • Reservoir Plate (Porvair, cat # 390015)
  • Azenta PCR Plate Lid (Azenta, cat # 4ti-0291)
  • Sarstedt Screw Cap Micro tube 2 ml, sterile (Sarstedt™, cat # 72.694.006)
  • Sarstedt Screw Cap Micro tube 0.5 ml, sterile (Sarstedt™, cat # 72.730.106)
  • Waste Bin (Tecan, cat # 30185747)
  • 10 µl inoculating loop
  • (Opcional) Seroalbúmina bovina (BSA) (50 mg/ml) (p. ej., Invitrogen™ UltraPure™ BSA 50 mg/ml, AM2616)
  • Etanol al 80 % recién preparado con agua sin nucleasas
  • Agua sin nucleasas (p. ej., ThermoFisher AM9937)
  • Tubos de 1,5 ml Eppendorf DNA LoBind
  • 0.5 ml Eppendorf DNA LoBind tubes

Instrumental
  • ElysION device with MinION integration
  • Pantalla protectora celdas de flujo MinION/GridION
  • Vortex mixer (Vortex-Genie 2, Scientific Industries SI™ SI-0266)
  • Vortex Adapter (Qiagen 13000-V1-24)
  • Termociclador
  • Temporizador
  • Thermomixer e.g. Eppendorf F2.0 Model (Fisher, cat # 15356551)
  • Gradilla magnética
  • Microplate centrifuge, e.g. Fisherbrand™ Mini Plate Spinner Centrifuge (Fisher Scientific, 11766427)
  • Centrifuge e.g. Eppendorf max speed 15,000rpm (Fisher, cat # 15881635)
  • Multichannel pipette and tips
  • Pipeta y puntas P1000
  • Pipeta y puntas P200
  • Pipeta y puntas P100
  • Pipeta y puntas P20
  • Pipeta y puntas P2
  • Cubeta con hielo
Equipo opcional
  • Mezclador Hula (mezclador giratorio suave)
  • Qubit fluorometer (or equivalent for QC check)
IMPORTANTE

The above list of materials, consumables, and equipment is for all the extraction methods in the sample preparation section, as well as the library preparation section of the protocol. You will only need the consumables for the relevant extraction method for your sample input and the library preparation section.

For this protocol, the following inputs are required per sample:

Sample extraction method Sample type Sample input Expected yield Expected DNA Integrity Number (DIN) Average sequencing read lengths
Universal bead-beating gDNA extraction Universal applications:
bacteria, fungi or yeast
1 ml liquid overnight culture (~1 x 10^8 – 10^9 cfu/ml)

or

half of a loop of colonies from a plate
>200 ng/µl per sample 7-9 ~4-7 kb
Bacteria gDNA extraction Bacterial 200 µl liquid overnight culture (~1 x 10^8 – 10^9 cfu/ml)

or

1/8 of a loop of colonies from a plate
15-20 ng/µl per sample 9 >7 kb - Size will vary based on sample input species
Hard to lyse organisms gDNA extraction Hard to extract bacterial samples (e.g. Mycobacterium tuberculosis) For hard to lyse bacterial samples: 200 µl liquid overnight culture (~1 x 10^8 – 10^9 cfu/ml)

or

1/8 of a loop of colonies from a plate

For Mycobacterium tuberculosis: 5 – 10 mg cells from solid or liquid media
15-40 ng/µl per sample 8 >7 kb - Size will vary based on sample input species

Note: The output and, sequencing read length of extracted DNA may vary depending on sample quality and species. Please ensure you are following the correct method and using high-quality sample inputs.

For staphylococcal inputs

Staphylococcal Lysis Buffer (SLB) is required for the bacterial gDNA extraction method for staphylococcal inputs.

Reagent Stock Final concentration Volume for 12 samples with excess Volume for 24 samples with excess
Trizma hydrochloride solution, pH 9 1 M 100 mM 150 ul 300 µl
Sodium chloride 5 M 10 mM 3 ul 6 µl
SDS 10% v/v 0.1% v/v 15 ul 30 µl
Nuclease-free water - - 1332 ul 2664 µl
Total volume - - 1,500 ul 3,000 µl

The SDS in the Staphylococcal Lysis Buffer (SLB) is essential for preventing the degradation of staphylococci DNA. Exclusion of SDS from the buffer results in a larger smear of DNA when run on a gel.

Third-party reagents

Depending on the extraction protocol used, not all third-party reagents are required.

We have validated and recommend the use of all the third-party reagents used in this protocol. Alternatives have not been tested by Oxford Nanopore Technologies.

For all third-party reagents, we recommend following the manufacturer's instructions to prepare the reagents for use.

Check your flow cell

The number of pores in your flow cell will be checked by the ElysION device at the start of your assay. Flow cells should be checked within 12 weeks of purchasing for MinION/GridION/PromethION.

Oxford Nanopore Technologies will replace any flow cell with fewer than the number of pores in the table below, when the result is reported within two days of performing the flow cell check, and when the storage recommendations have been followed. To do the flow cell check, please follow the instructions on the ElysION on-screen display.

Flow cell Minimum number of active pores covered by warranty
MinION/GridION Flow Cell 800
PromethION Flow Cell 5000
IMPORTANTE

The Rapid Adapter (RA) used in this kit and protocol is not interchangeable with other sequencing adapters.

Rapid Barcoding Kit 96 V14 (SQK-RBK114.96) contents

RBK114.96 tubes (1)

Name Acronym Cap colour No. of vials Fill volume per vial (µl)
Rapid Adapter RA Green 2 15
Adapter Buffer ADB Clear 1 100
AMPure XP Beads AXP Amber 3 1,200
Elution Buffer EB Black 1 1,500
Sequencing Buffer SB Red 1 1,700
Library Beads LIB Pink 1 1,800
Library Solution LIS White cap, pink label 1 1,800
Flow Cell Flush FCF Clear 1 15,500
Flow Cell Tether FCT Purple 2 200
Rapid Barcodes RB01-96 - 3 plates 8 µl per well

This Product Contains AMPure XP Reagent Manufactured by Beckman Coulter, Inc. and can be stored at -20°C with the kit without detriment to reagent stability.

3. ElysION NO-MISS sample sheet setup

Sample sheet information

The sample sheet assigns a barcode to each sample, allowing a user to pick a range from the 96-well plate, and for a sample ID to be tracked from input to results.

For more information on setting up a sample sheet please refer to the ElysION User Guide.

Set up your sample sheet as a .csv file with the following information:

Required field User input Definition / field info
v1 Version field, no input required outside of field
assay isoseq-1-24:v1.1 Assay ID and version
library_id User-defined Identification for the DNA library
created_by User-defined Identification of operator setting up sample sheet
created_at User-defined Date and time of creation. Please follow the format outlined in the ElysION user guide
sample_count User-defined Number of samples processed in run (up to 24 samples)
well_id A1-H3 Positions in 96-well plate being used (up to 24 samples).

Samples must start from position A1 in the 96-well plate and run consecutively column-wise.
barcode barcode01-barcode96 Rapid barcodes from SQK-RBK114.96 being used in library preparation.

Up to 96 barcodes are available in the sequencing kit, these should be used in sub-sets of up to 24 barcodes, used sequentially. (e.g. Barcodes 01-24, or Barcodes 50-60)
sample_type User-defined Description or characteristics of sample input
sample_id User-defined from LIMS system (lims-sampleid-12345) Identification for each sample input (e.g. from LIMS system)



Below is an example of a sample sheet CSV file for 10 samples:

Sample sheet example NO MISS ElysION oct2024

4. Option 1: Universal bead-beating sample preparation for ElysION

Material
  • 1 ml liquid overnight culture (~1 x 10^8 – 10^9 cfu/ml) OR half of a loop of colonies from a plate

Consumibles
  • Proteinase K (from the MagMAX DNA Multi-Sample Ultra 2.0 Kit)
  • PureLink™ RNase A (20 mg/ml) (ThermoFisher, cat # 12091021)
  • PBS pH 7.4 (e.g. Gibco, cat # 11503387)
  • BashingBead Buffer (Zymo, D6001-3-40)
  • PowerBead Pro tube (Qiagen, 19301)
  • Agua sin nucleasas (p. ej., ThermoFisher AM9937)
  • Tubos de 1,5 ml Eppendorf DNA LoBind
  • Thermo Scientific™ Nunc™ 96 Well 2 ml Polypropylene DeepWell Plate (Thermo Scientific, cat # 95040452)
  • 10 µl inoculating loop

Instrumental
  • Vortex Adapter (Qiagen 13000-V1-24)
  • Eppendorf 5424 centrifuge (or equivalent)
  • Thermomixer
  • Mezclador vórtex
  • P1000 pipette and tips
  • P200 pipette and tips
  • P20 pipette and tips
  • P2 pipette and tips
Equipo opcional
  • Mezclador Hula (mezclador giratorio suave)

Universal bead-beating gDNA extraction

This extraction method is a universal gDNA extraction from bacteria and fungi/yeast. It uses vortex bead-beating followed by a proteinase K and RNase treatment.

Note: If your desired yield is not achieved or you are looking to maximise the contiguity of your assemblies by generating longer read lengths, try one of our sample-tailored extraction methods:

  • Bacteria gDNA extraction
  • Hard to lyse organisms gDNA extraction

Extraction method overview: Universal bead-beating gDNA extraction for ElysION

Sample extraction method Sample type Sample input Expected yield Expected DNA Integrity Number (DIN) Average sequencing read lengths
Universal bead-beating gDNA extraction Universal applications:
bacteria, fungi or yeast
1 ml liquid overnight culture (~1 x 10^8 – 10^9 cfu/ml)

or

half of a loop of colonies from a plate
>200 ng/µl per sample 7-9 ~4-7 kb

Note: The output and, sequencing read length of extracted DNA may vary depending on sample quality and species. Please ensure you are following the correct method and using high-quality sample inputs.

Prepare your sample depending on your sample type by following the instructions below:

If using liquid media for your culture:
1. Centrifuge 1 ml liquid overnight culture (~10^8 – 10^9 cfu/ml) at 12,000 xg for 1 minute
2. Remove the supernatant and resuspend the pellet in 1 ml Phosphate Buffered Saline (PBS)

Note: Washing the sample by removing the supernatant and resuspending the pellet in clean Phosphate Buffered Saline (PBS) removes potential inhibitors from the nutrient broth and removes free DNA that may be degraded
3. Centrifuge at 12,000 x g 1 minute
4. Remove the supernatant, without disturbing the pellet
5. Resuspend the pellet in 350 µl bashing bead buffer (Zymo, D6001-3-40)
6. Add the 350 µl of resuspended sample to a PowerBead Pro tube (Qiagen, 19301)
7. Take forward the PowerBead Pro tube containing 350 µl of resuspended sample into the next step

If using solid media for your culture:
1. Add 350 µl BashingBead Buffer (Zymo, D6001-3-40) to a PowerBead Pro tube (Qiagen, 19301)
2. Using a sterile 10 µl inoculating loop, pick half a loop worth of colonies, avoiding scratching the agar
3. Place the inoculating loop with the colonies in the PowerBead Pro tube containing the BashingBead Buffer, and agitate to relieve the cells into the tube
4. Discard the used inoculating loop
5. Take forward the PowerBead Pro tube containing 350 µl of resuspended sample into the next step

Secure the PowerBead Tube(s) containing your 350 µl of resuspended sample from the previous step to a vortex mixer using a Vortex Adapter (e.g. Qiagen, 13000-V1-24).

Vortex at maximum speed for 10 minutes (~3000 RPM).

Centrifuge the tube(s) containing your sample at 12,000 x g for 30 seconds.

Transfer the supernatant from the bead-beating tube into a clean 1.5 ml Eppendorf DNA LoBind tube.

Note: Expect ~200–250 µl of supernatant.

Add the following reagents with your sample in the 1.5 ml Eppendorf DNA LoBind tube, and mix by vortexing.

For bacterial samples:

Reagent Volume
Proteinase K 10 µl
RNase A 3 µl

For fungi/yeast samples:

Reagent Volume
Proteinase K 30 µl
RNase A 3 µl
IMPORTANTE

The full 15-minute incubation must be completed to ensure the proteinase and RNase activity occurs, regardless of turbidity.

Incubate at 56°C for 15 minutes in a thermomixer at 1000 RPM.

Note: Depending on the bacterial input, the solution may become fully transparent or may remain hazy.

Spin down the sample tube(s) and transfer the full sample volume into a Nunc™ 96 Well 2 ml DeepWell Plate for library preparation on ElysION.

Note: Ensure you keep your samples separate, with each sample being transferred into a separate well of the Nunc™ 96 Well 2 ml DeepWell Plate.

FIN DEL PROCESO

Take forward the Nunc™ 96 Well 2 ml DeepWell Plate containing your sample(s) into the automated gDNA extraction and library preparation section of this protocol.

5. Option 2: Bacterial sample preparation for ElysION

Material
  • 200 µl liquid overnight culture (~1 x 10^8 – 10^9 cfu/ml) OR 1/8 of a loop of colonies from a plate

Consumibles
  • PBS pH 7.4 (e.g. Gibco, cat # 11503387)
  • TE Buffer Solution pH 8.0 (sigma, cat # 8890-OP)
  • Lysozyme human (Sigma, L1667)
  • Staphylococcal Lysis Buffer (SLB) (100 mM Tris pH9, 10 mM NaCl, 0.1% SDS)
  • 10 µl inoculating loop
  • Proteinase K (from the MagMAX DNA Multi-Sample Ultra 2.0 Kit)
  • PureLink™ RNase A (20 mg/ml) (ThermoFisher, cat # 12091021)
  • MagMAX™ DNA Cell and Tissue Extraction Buffer (ThermoFisher, cat # A45469)
  • Agua sin nucleasas (p. ej., ThermoFisher AM9937)
  • Achromopeptidase (Sigma, A3547)
  • 1.5 ml Eppendorf DNA LoBind tubes
  • 5 ml Eppendorf DNA LoBind tubes
  • Thermo Scientific™ Nunc™ 96 Well 2 ml Polypropylene DeepWell Plate (Thermo Scientific, cat # 95040452)

Instrumental
  • Eppendorf 5424 centrifuge (or equivalent)
  • Thermomixer
  • Vortex mixer
  • Pipeta y puntas P1000
  • P200 pipette and tips
  • Pipeta y puntas P100
  • Pipeta y puntas P20
  • P2 pipette and tips

Bacteria gDNA extraction

This extraction protocol is recommended for use with general bacterial samples. We have validated this method with Escherichia coli, Klebsiella pneumoniae, Pseudomonas aeruginosa, Serratia marcescens, Enterococcus faecalis, and Bacillus subtilis or staphylococci such as Staphylococcus aureus, and Staphylococcus epidermidis.

If the desired yield is not achieved from your extraction, try one of the following recommendations:

  • The enzymatic reaction time in step 7 can be increased.
  • Use the staphylococcal enzyme.
  • Follow the Hard to lyse organisms gDNA extraction method.

Extraction method overview: Bacteria gDNA extraction for ElysION

Sample extraction method Sample type Sample input Expected yield Expected DNA Integrity Number (DIN) Average sequencing read lengths
Bacteria gDNA extraction Bacterial 200 µl liquid overnight culture (~1 x 10^8 – 10^9 cfu/ml)

or

1/8 of a loop of colonies from a plate
15-20 ng/µl per sample 9 >7 kb - Size will vary based on sample input species

Note: The output and, sequencing read length of extracted DNA may vary depending on sample quality and species. Please ensure you are following the correct method and using high-quality sample inputs.

Reconstitute your sample depending on your sample type by following the instructions below:

For general bacterial inputs:
1. Reconstitute the bacterial lysozyme in TE buffer to 10 mg/ml.

Note: The Lysozyme can be stored at 100 mg/ml in a stabilized solution for long-term use as follows: 25 mM Sodium acetate, 50% glycerol 100 mg/ml lysozyme – stored at -20C.

For staphylococcal inputs:
1. Prepare the Staphylococcal Lysis Buffer (SLB) (100 mM Tris pH9, 10 mM NaCl, 0.1% SDS).

Information for preparing the Staphylococcal Lysis Buffer (SLB) can be found in the Equipment and consumables section of this protocol.
2. Reconstitute the achromopeptidase in nuclease-free water to 10 mg/ml.

Tip: We recommend preparing enzymes freshly on the day as enzymatic activity reduces over time once reconstituted.

Prepare your sample depending on your sample type by following the instructions below:

If using liquid media for your culture:
1. Centrifuge 200 µl liquid overnight culture (~10^8 – 10^9 cfu/ml) at 12,000 x g for 1 minute
2. Remove the supernatant and resuspend the pellet in 1 ml Phosphate Buffered Saline (PBS)

Note: Washing the sample by removing the supernatant and resuspending the pellet in clean Phosphate Buffered Saline (PBS) removes potential inhibitors from the nutrient broth and removes free DNA that may be degraded
3. Centrifuge at 12,000 x g 1 minute
4. Remove the supernatant, without disturbing the pellet

Note: It is important to remove as much PBS as possible without disturbing the pellet as the buffer has an inhibitory effect on enzyme activity.
5. Resuspend the pellet depending on your input type:

For bacterial samples: resuspend the pellet in 100 µl TE buffer with 10 µl lysozyme (10 mg/ml)

For staphylococci samples: Resuspend the pellet in 100 µl SLB with 10 µl achromopeptidase (10 mg/ml)

If using solid media for your culture:
1. Add 1 ml of PBS to a fresh 1.5 ml Eppendorf DNA LoBind tube.
2. Using a sterile 10 µl inoculating loop, pick 1/8 a loop worth of colonies, avoiding scratching the agar
3. Place the inoculating loop with the colonies in the tube containing the PBS, and agitate to relieve the cells into the tube
4. Discard the used inoculating loop
5. Centrifuge at 12,000 x g 1 minute
6. Remove the supernatant, without disturbing the pellet

Note: It is important to remove as much PBS as possible without disturbing the pellet as the buffer has an inhibitory effect on enzyme activity.
7. Resuspend the pellet depending on your input type:

For bacterial samples: resuspend the pellet in 100 µl TE buffer with 10 µl lysozyme (10 mg/ml)

For staphylococci samples: Resuspend the pellet in 100 µl SLB with 10 µl achromopeptidase (10 mg/ml).

Incubate at 37°C for 10 minutes in a thermomixer at 500 RPM.

If a thermomixer is unavailable, the reaction can be incubated stationary and agitated by gently flicking for 10 seconds every two minutes.

Combine the following reagents with your sample in the 1.5 ml Eppendorf DNA LoBind tube, and mix by pipetting.

Reagent Volume
Proteinase K 10 µl
RNase A 3 µl
Total (including your sample) 113 µl

Add 500 µl MagMAX™ DNA Cell and Tissue Extraction Buffer, mix and spin down.

IMPORTANTE

The full 30-minute incubation must be completed to ensure the proteinase and RNase activity occurs, regardless of turbidity.

Incubate at 56°C for 30 minutes in a thermomixer at 1000 RPM.

Note: Depending on the bacterial input, the solution may become fully transparent or may remain hazy.

Spin down the sample tube(s) and transfer the full sample volume into a Nunc™ 96 Well 2 ml DeepWell Plate for library preparation on ElysION.

Note: Ensure you keep your samples separate, with each sample being transferred into a separate well of the Nunc™ 96 Well 2 ml DeepWell Plate.

FIN DEL PROCESO

Take forward the Nunc™ 96 Well 2 ml DeepWell Plate containing your sample(s) into the automated gDNA extraction and library preparation section of this protocol.

6. Option 3: Hard to lyse organisms sample preparation for ElysION

Material
  • For hard to lyse bacterial samples: 200 µl liquid overnight culture (~1 x 10^8 – 10^9 cfu/ml) OR 1/8 of a loop of colonies from a plate
  • For Mycobacterium tuberculosis: 5 – 10 mg cells from solid or liquid media

Consumibles
  • PBS pH 7.4 (e.g. Gibco, cat # 11503387)
  • TE Buffer Solution pH 8.0 (sigma, cat # 8890-OP)
  • Lysozyme human (Sigma, L1667)
  • Glass beads, 4 mm (MP Biomedicals, 116914801)
  • 10 µl inoculating loop
  • Proteinase K (from the MagMAX DNA Multi-Sample Ultra 2.0 Kit)
  • PureLink™ RNase A (20 mg/ml) (ThermoFisher, cat # 12091021)
  • MagMAX™ DNA Cell and Tissue Extraction Buffer (ThermoFisher, cat # A45469)
  • 5 M Sodium chloride NaCl (Sigma, cat # 71386)
  • Agua sin nucleasas (p. ej., ThermoFisher AM9937)
  • Empty FastPrep® 2mL Lysing Matrix tubes (MP Biomedicals, 115076200)
  • 1.5 ml Eppendorf DNA LoBind tubes
  • Thermo Scientific™ Nunc™ 96 Well 2 ml Polypropylene DeepWell Plate (Thermo Scientific, cat # 95040452)

Instrumental
  • Eppendorf 5424 centrifuge (or equivalent)
  • Thermomixer
  • Vortex mixer
  • Pipeta y puntas P1000
  • P200 pipette and tips
  • Pipeta y puntas P100
  • Pipeta y puntas P20
  • P2 pipette and tips

Hard to lyse organisms gDNA extraction

This extraction method is recommended for hard to lyse organisms, such as Mycobacterium tuberculosis, or for bacteria that was not successfully extracted using the Bacteria gDNA extraction method.

Extraction method overview: Hard to lyse organisms gDNA extraction for ElysION

Sample extraction method Sample type Sample input Expected yield Expected DNA Integrity Number (DIN) Average sequencing read lengths
Hard to lyse organisms gDNA extraction Hard to extract bacterial samples (e.g. Mycobacterium tuberculosis) For hard to lyse bacterial samples: 200 µl liquid overnight culture (~1 x 10^8 – 10^9 cfu/ml)

or

1/8 of a loop of colonies from a plate

For Mycobacterium tuberculosis: 5 – 10 mg cells from solid or liquid media
15-40 ng/µl per sample 8 >7 kb - Size will vary based on sample input species

Note: The output and, sequencing read length of extracted DNA may vary depending on sample quality and species. Please ensure you are following the correct method and using high-quality sample inputs.

CONSEJO

We recommend preparing enzymes freshly on the day as enzymatic activity reduces over time once reconstituted.

Prepare the lysozyme by reconstituting in TE buffer to 10 mg/ml.

Prepare your sample depending on your sample type by following the instructions below:

For hard to lyse bacterial samples

If using liquid media for your culture:
1. Centrifuge 200 µl liquid overnight culture (~10^8 – 10^9 cfu/ml) at 12,000 x g for 1 minute.
2. Remove the supernatant without disturbing the pellet.

If using solid media for your culture:
1. Using a sterile 10 µl inoculating loop, collect 1/8 a loop worth of colonies into a fresh 1.5 ml Eppendorf tube, avoiding scratching the agar

For Mycobacterium tuberculosis samples

IMPORTANT: For Mycobacterium tuberculosis, we recommend avoiding overgrowing the cultures:

  • For Mycobacterium tuberculosis solid media: ~2-4 weeks of growth should provide sufficient biomass.
  • For Mycobacterium tuberculosis liquid media: ~ 2 weeks of growth should provide sufficient biomass.

We also strongly advise harvesting the recommended amount of input material to yield the correct amount of gDNA for the library preparation step.

  • Less than 5 mg will not yield enough gDNA for library preparation (less than 10 ng/µl), negatively impacting sequencing output.

  • More than 10 mg may result in carryover of sequencing inhibitors onto the flow cell, also negatively impacting sequencing output.


For Mycobacterium tuberculosis solid media:
1. Harvest 5-10 mg of cells from your Mycobacterium tuberculosis solid media and transfer to a 1.5 ml Eppendorf DNA LoBind tube.

For Mycobacterium tuberculosis liquid media:
1. Add ~500 µl of Mycobacterium tuberculosis liquid media to a fresh 1.5 ml Eppendorf DNA LoBind tube.
2. Centrifuge at 12,000 x g 1 minute
3. Remove the supernatant, without disturbing the pellet.
4. Harvest 5-10 mg of cells from the pellet and transfer to a 1.5 ml Eppendorf DNA LoBind tube.

Resuspend the pellet in 500 µl PBS and pipette mix using a P1000 pipette.

If the pipette tip becomes clogged, gently press the pipette tip down on the bottom of the tube to break up clumps while pipetting up and down.

Incubate the sample at 80°C for 20 minutes.

We do not recommend increasing the temperature of the incubation as this may negatively impact DNA quality and sequencing data.

This heated incubation is important for efficient cell lysis.

Centrifuge at 12,000 x g for 1 minute.

Remove the supernatant without disturbing the pellet, then resuspend the pellet in 500 µl of fresh PBS.

Centrifuge at 12,000 x g for 1 minute.

Remove the supernatant and resuspend in 100 µl of TE buffer (10 mM Tris, pH 8 and 1 mM EDTA).

Transfer 100 µl of your sample to an empty 2 ml FastPrep lysing matrix tube and add two 4 mm glass beads.

Vortex the sample for 30 seconds.

Vortexing with beads helps homogenise the sample to improve efficiency of later steps. Using 4 mm beads avoids overshearing of the DNA.

Add 10 µl lysozyme and mix by pulse vortexing.

Light agitation prevents aggregation and precipitation in the reaction and allows the enzyme to access the cell walls.

Incubate at 37°C for 15 minutes at 800 RPM in a thermomixer.

Constant shaking is essential to achieve sufficient lysis within 15 minutes and occasional agitation may not prevent the cells from clumping.

Note: If a thermomixer is not available, briefly vortex at regular intervals of 2 minutes.

Combine the following reagents with your sample in the 1.5 ml Eppendorf DNA LoBind tube, and mix by pipetting.

Reagent Volume
Proteinase K 10 µl
RNase A 3 µl
Total (including your sample) 123 µl

Add 500 µl MagMAX™ DNA Cell and Tissue Extraction Buffer, mix and spin down.

Incubate at 56°C for 30 minutes in a thermomixer at 1000 RPM.

Note: Depending on the bacterial input, the solution may become fully transparent or may remain hazy.

IMPORTANTE

The full 30-minute incubation must be completed to ensure the proteinase and RNase activity occurs, regardless of turbidity.

Add 100 µl 5 M sodium chloride and centrifuge at 17,000 x g for 5 minutes.

The high salt step reduces yield but is essential to remove any inhibitors of the library preparation.

Avoiding the pellet, transfer 623 µl of the sample supernatant into a Nunc™ 96 Well 2 ml DeepWell Plate for library preparation on ElysION.

Note: Ensure you keep your samples separate, with each sample being transferred into a separate well of the Nunc™ 96 Well 2 ml DeepWell Plate.

FIN DEL PROCESO

Take forward the Nunc™ 96 Well 2 ml DeepWell Plate containing your sample(s) into the automated gDNA extraction and library preparation section of this protocol.

7. ElysION run setup

Material
  • Rapid Barcoding Kit 96 V14 (SQK-RBK114.96)
  • Flow Cell Wash Kit (EXP-WSH004) (kit de lavado de celda de flujo)

Consumibles
  • MagMAX™ DNA Multi-Sample Ultra 2.0 Kit (ThermoFisher, cat # A36570)
  • Hard-Shell® 96-Well PCR Plates, low profile, thin wall, skirted, red/clear (Bio-Rad™, cat # HSP9611)
  • Thermo Scientific™ Nunc™ 96 Well 2 ml Polypropylene DeepWell Plate (Thermo Scientific, cat # 95040452)
  • 1000 µl Disposable Conductive Tips - Liquid Handling Flexible Channel Arm - Filtered, Pure, Single Stack (Tecan, cat # 30057817)
  • 200 µl Disposable Conductive Tips - Liquid Handling Flexible Channel Arm - Filtered, Pure, Single Stack (Tecan, cat # 30057815)
  • 50 µl Disposable Conductive Tips - Liquid Handling Flexible Channel Arm - Filtered, Pure, Single Stack (Tecan, cat # 30057813)
  • LiHa empty Disposable Tip Box for 10/50/200 µl refill insert tips, ANSI Format (Tecan, cat # 30058506)
  • LiHa empty Disposable Tip Box for 1000 µl refill insert tips, ANSI Format (Tecan, cat # 30058507)
  • Reservoir Plate (Porvair, cat # 390015)
  • Azenta PCR Plate Lid (Azenta, cat # 4ti-0291)
  • Sarstedt Screw Cap Micro tube 2 ml, sterile (Sarstedt™, cat # 72.694.006)
  • Sarstedt Screw Cap Micro tube 0.5 ml, sterile (Sarstedt™, cat # 72.730.106)
  • Waste Bin (Tecan, cat # 30185747)
  • Etanol al 80 % recién preparado con agua sin nucleasas
  • Agua sin nucleasas (p. ej., ThermoFisher AM9937)
  • (Opcional) Seroalbúmina bovina (BSA) (50 mg/ml) (p. ej., Invitrogen™ UltraPure™ BSA 50 mg/ml, AM2616)
  • 1.5 ml Eppendorf DNA LoBind tubes
  • 0.5 ml Eppendorf DNA LoBind tubes

Instrumental
  • Microfuge
  • Vortex mixer (Vortex-Genie 2, Scientific Industries SI™ SI-0266)
  • Microplate centrifuge, e.g. Fisherbrand™ Mini Plate Spinner Centrifuge (Fisher Scientific, 11766427)
  • P1000 pipette and tips
  • Pipeta y puntas P200
  • Pipeta y puntas P100
  • Pipeta y puntas P20
  • Pipeta y puntas P10
  • Pipeta y puntas P2
  • Multichannel pipette and tips
  • Cubeta con hielo

The automated sample extraction, library preparation and sequencing method using the ElysION device can be followed using the on-screen display on the device.

Please ensure you have all the correct hardware components, software packages and workflows installed to carry out this method.

For more information on the device and the processes please refer to the ElysION User Guide.

Thaw kit components at room temperature, spin down briefly using a microfuge and mix by pipetting as indicated by the table below:

Reagent 1. Thaw at room temperature 2. Briefly spin down 3. Mix well by pipetting
Rapid Barcode Plate (RB01-96) Not frozen
Rapid Adapter (RA) Not frozen
AMPure XP Beads (AXP) Mix by pipetting or vortexing immediately before use
Elution Buffer (EB)
Adapter Buffer (ADB) Mix by vortexing
Flow Cell Flush (FCF)
Flow Cell Tether (FCT)
Sequencing Buffer (SB)
Library Beads (LIB) Mix by pipetting or vortexing immediately before use
Wash Mix (WMX)
Wash Diluent (DIL) Mix by vortexing
Storage Buffer (S) Mix by vortexing
Bovine Serum Albumin (BSA)

Thoroughly mix and resuspend the Binding Beads from the MagMAX DNA Multi-Sample Ultra 2.0 Kit by vortexing.

Prepare the DNA Binding Bead Mix as instructed below:

Note: The volumes will change depending on the number of samples being processed.


For runs with 1-9 samples

Use the Sarstedt Screw Cap Micro tube 2 ml, with 1980 µl DNA Binding Bead Mix in each tube per 3 samples.

Reagent Volume for 1-3 samples (1x Sarstedt tubes) For 4-6 samples (2x Sarstedt tubes) For 7-9 samples (3x Sarstedt tubes)
Lysis/Binding Solution 1.8 ml 3.6 ml 5.4 ml
Binding Beads 180 µl 360 µl 540 µl
Total volume 1980 µl 3960 µl 5940 µl

For runs with 10-24 samples

Use the reservoir plate, with 6 ml of DNA Binding Bead Mix + 600 µl additional volume per sample being processed.

Reagent For 10 samples (Reservoir Plate) For 12 samples (Reservoir Plate) For 18 samples (Reservoir Plate) For 24 samples (Reservoir Plate)
Lysis/Binding Solution 5,455 µl + 5,455 µl =
10,910 µl
5,455 µl + 6,545 µl =
12,000 µl
5,455 µl + 9,818 µl =
15,273 µl
5,455 µl + 13,090 µl =
18,545 µl
Binding Beads 545 µl + 545 µl =
1,090 µl
545 µl + 655 µl =
1,200 µl
545 µl + 982 µl =
1,527 µl
545 µl + 1,310 µl =
1,855 µl
Total volume 6,000 µl + 6,000 µl =
12,000 µl
6,000 µl + 7,200 µl =
13,200 µl
6,000 µl + 10,800 µl =
16,800 µl
6,000 µl + 14,400 µl =
20,400 µl

Switch on the ElysION device and its computer following the user guide.

IMPORTANTE

The Background Services application must run continuously whilst using the ElysION, and should not be closed.

Ensure the Background Services application is running.

If the application is not running, double click the "Background Services" desktop application on your ElysION device.

Open the ElysION UI application.

IMPORTANTE

Ensure the ElysION deck is clear of any labware before performing automated checks.

Failure to ensure the deck is clear can lead to errors in checks or damage to the equipment.

Close the door to the robot and select "Initialise" on the display.

Note: The ElysION device will perform automated checks.

Allow the initialisation checks to complete before proceeding with the library preparation method.

Select "Run method" on the on-screen display.

Select the method “Nanopore-only Microbial Isolate Sequencing Solution” on the on-screen display.

Click "next" to proceed.

Insert a MinION and GridION Flow Cell into the MinION Mk1D device on the ElysION deck.

Instructions for inserting a flow cell onto the ElysION device can be found in the ElysION User Guide.

Select "Check flow cell" on the on-screen display.

Once flow cell check begins, click next to proceed.

Select "Import" on the on-screen display to upload your sample sheet.

Once completed click "next" to proceed.

In a new 0.5 ml Sarstedt Screw tube, prepare the Rapid Adapter Master Mix as follows and pipette mix:

Reagent Volume
Rapid Adapter (RA) 1.5 μl
Adapter Buffer (ADB) 3.5 μl
Total 5 μl

Prepare the remaining reagents in accordance with the reagent preparation page on the on-screen display.

Once completed click "next" to proceed.

Once your flow cell check has successfully completed, set up your sequencing run conditions on the on-screen display:

  1. Select the sequencing time limit, or to stop run when the flow cell pores are depleted.
  2. Select a data target.
  3. Select whether to perform:
    3.1. A flow cell flush to return the used flow cell.
    3.2. A flow cell wash using the Flow cell wash kit (EXP-WSH004) to reuse your flow cell.

Note: Reagent volumes and guidance for flow cell wash or flush will be given on the deck loading page.

For more information on the run conditions please refer to the ElysION User Guide.

IMPORTANTE

Reagent and consumables requirements

Please consider the following when preparing and loading your reagents and consumables into the ElysION device to mitigate risk of workflow failure and equipment damage:

  • Ensure that the correct consumables are used with each reagent.
  • Spin down all samples and reagents, making sure they do not contain bubbles.
  • Ensure plates are flat in their deck position and sit within the barriers on the deck, and tubes are fully inserted into the rack.

Set up the ElysION deck according to the deck layout outlined in the UI of on-screen display.

Note: The position of the tip boxes and reagents will change depending on the sample count, and run setup. Please ensure you are following the instructions on the on-screen display correctly for your run.

Insert two empty waste bins into the disposable waste draw below the deck.

Close the door of the ElysION device.

Click "Begin run" to start the automated library preparation and sequencing.

Data analysis will automatically be carried out by the ElysION device once your sequencing run is complete.

The analysis pipeline used is the wf-bacterial-genomes.

For more information on how to access your sequencing data and the analysis outputs please consult the ElysION User Guide.

FIN DEL PROCESO

Once the run is finished, unload labware, empty the bins, and discard or store in the freezer any unused reagents.

8. Issues during DNA extraction and automated library preparation

A continuación hay una lista de los problemas más frecuentes, con algunas posibles causas y soluciones propuestas.

También disponemos de una página de preguntas frecuentes, FAQ, en la sección Support de la comunidad Nanopore.

Si ha probado las soluciones propuestas y continúa teniendo problemas, póngase en contacto con el departamento de asistencia técnica, bien por correo electrónico (support@nanoporetech.com) o a través del Live Chat de la comunidad Nanopore.

Low sample quality

Observation Possible cause Comments and actions
Inefficient lysis Enzyme activity has degraded in the solution or the isolate species is hard to lyse. - Make a fresh enzyme solution.
- Follow the hard to lyse gDNA extraction option.
- Increase the enzyme incubation for longer than 10 minutes.
Low DNA concentration Low input into the extraction method - Check the cell input used
- Add more input and perform the extraction again
Low DNA integrity number (DIN) Low quality or concentration of sample input - Repeat the extraction with freshly made enzyme solution
Low sequencing yield Low sample concentration - Check the DNA concentration and quality. RNA presence may affect quantification of total DNA.
Low DNA purity (Nanodrop reading for DNA OD 260/280 is <1.8 and OD 260/230 is <2.0–2.2) The DNA extraction method does not provide the required purity The effects of contaminants are shown in the Contaminants Know-how piece. Please try an alternative extraction method that does not result in contaminant carryover.

Consider performing an additional SPRI clean-up step.

ElysION device troubleshooting

For commonly encountered issues please refer to the ElysION User Guide.

For in-depth troubleshooting please refer to the Set-up and operating manual: Early access ElysION provided with your ElysION device.

For additional customer support contact the nanoporetech support channels.

Last updated: 11/22/2024

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