TruSight Rapid Capture Sample Preparation - Support

TruSight Rapid Capture Sample Preparation - Support
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Part # 15043291 Rev. A
Table of Contents
Table of Contents
Chapter 1 Overview
Introduction
DNA Input Recommendations
Additional Resources
Chapter 2 Protocol
Introduction
Sample PrepWorkflow
Tagment Genomic DNA
Clean Up Tagmented DNA
First PCR Amplification
First PCR Clean Up
First Hybridization
First Capture
Second Hybridization
Second Capture
Capture Sample Clean Up
Second PCR Amplification
Second PCR Clean Up
Validate Library
Sequence Library
Appendix A Supporting Information
Introduction
Acronyms
Kit Contents
Consumables and Equipment
Index Sequences
Low-Plex Pooling Guidelines
DNA Quantitation
Technical Assistance
TruSight Rapid Capture Sample Preparation Guide
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Chapter 1 Overview
Introduction
DNA Input Recommendations
Additional Resources
TruSight Rapid Capture Sample Preparation Guide
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4
1
Chapter 1
Overview
Overview
Introduction
This protocol explains how to prepare up to 96 indexed, paired-end libraries, followed by
enrichment using a TruSight™ Content Set and reagents provided by an Illumina TruSight
Rapid Capture kit. The goal of this protocol is to fragment and add adapter sequences onto
template DNA to generate indexed sequencing libraries that can be carried through
enrichment for targeted resequencing applications.
The TruSight Rapid Capture protocol offers:
} Fast and easy sample preparation
• Prepare up to 96 enriched libraries in approximately 1.5 days, including
approximately 5 hours of hands-on time
• High throughput, automation-friendly procedures with no fragmentation
bottlenecks
} Low DNA input and excellent data quality
• Excellent data quality with low input of 50 ng
• Access precious samples with no impact to performance
• Ability to archive samples for additional analysis
} High enrichment rates, low duplicates, and exceptional coverage uniformity
• Efficient use of sequencing and reliable variant calling
• Reduced hands-on time with the most cost-effective, high-throughput workflow
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Part # 15043291 Rev. A
TruSight Rapid Capture library preparation uses an enzymatic DNA fragmentation step
and thus can be more sensitive to DNA input compared to mechanical fragmentation
methods. The ultimate success of enrichment strongly depends on using an accurately
quantified amount of input DNA. Therefore, accurate quantitation of the gDNA is essential.
Illumina recommends quantifying the starting gDNA using a fluorometric-based method
specific for double-stranded DNA (dsDNA) such as QuantiFluor and running samples in
triplicate to obtain more confident measurements. Methods that measure total nucleic acid
content (e.g. nanodrop or other UV absorbance methods) should be avoided because
common contaminants such as ssDNA, RNA, and oligos are not substrates for the TruSight
Rapid Capture assay. For more information, see DNA Quantitation on page 68.
The TruSight Rapid Capture protocol has been optimized for 50 ng of total gDNA. A
higher mass input of gDNA may result in incomplete tagmentation and larger insert sizes,
which can impact enrichment performance. Conversely, a low mass input of gDNA or low
quality gDNA in the tagmentation reaction may generate smaller than expected insert sizes,
which can be lost during subsequent clean-up steps resulting in lower diversity.
To minimize gDNA sample input variability into the tagmentation step, Illumina strongly
recommends a two-step method of gDNA normalization. After the initial quantification,
gDNA samples are first normalized to 10 ng/ul. Samples are then re-quantified using a
similar fluorometric-based method and normalized to a final 5 ng/ul.
TruSight Rapid Capture Sample Preparation Guide
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DNA Input Recommendations
DNA Input Recommendations
Overview
Additional Resources
The following resources are available for TruSight Rapid Capture protocol guidance and
sample tracking. Access these and other resources on the Illumina website at
support.illumina.com/sequencing/kits.ilmn. Then, select TruSight Rapid Capture Sample
Prep Kit Support.
4
Resource
Description
Best Practices
Provides best practices specific to this protocol. Review this
before starting sample preparation. Topics include:
• Consistency
• Handling Magnetic Beads
• Avoiding Cross-Contamination
• Washing During SPB Clean-Up
• Freeze/thawing for Small Number of Samples
• Preventing PCR Product Contamination
Click Best Practices on the TruSight Rapid Capture Sample
Prep Kit Support page.
TruSight Rapid Capture
Experienced User Card
(part # 15043292)
Provides protocol instructions, but with less detail than what is
provided in this user guide. New or less experienced users
are strongly advised to follow this user guide and not the
EUC.
Click Documentation & Literature on the TruSight Rapid
Capture Sample Prep Kit Support page.
Illumina Experiment Manager
(IEM)
Enables you to create and edit appropriate sample sheets for
Illumina sequencers and analysis software and record
parameters for your sample plate.
To download the software, click Downloads on the TruSight
Rapid Capture Sample Prep Kit Support page.
To download the documentation, click Documentation &
Literature on the TruSight Rapid Capture Sample Prep
Kit Support page.
Part # 15043291 Rev. A
Chapter 2 Protocol
Introduction
Sample PrepWorkflow
Tagment Genomic DNA
Clean Up Tagmented DNA
First PCR Amplification
First PCR Clean Up
First Hybridization
First Capture
Second Hybridization
Second Capture
Capture Sample Clean Up
Second PCR Amplification
Second PCR Clean Up
Validate Library
Sequence Library
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Chapter 2
Protocol
Protocol
Introduction
This chapter describes the TruSight Rapid Capture protocol.
} Review Best Practices before proceeding. See Additional Resources on page 4 for
information on how to access TruSight Rapid Capture Best Practices on the Illumina
website.
} Follow the protocols in the order shown, using the specified volumes and incubation
parameters.
} If you are pooling, record information about your samples before beginning library
preparation for later use in data analysis.
• Use IEM to create and edit well formed sample sheets for Illumina sequencers and
analysis software. See Additional Resources on page 4 for information on how to
download IEM software and documentation from the Illumina website.
• Each column should contain a common index. This will facilitate pipetting
operations when dispensing indexed adapters and pooling indexed libraries later
in the protocol. For more information, see Low-Plex Pooling Guidelines on page 65.
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The following diagram illustrates the workflow using a TruSight Rapid Capture kit. Safe
stopping points are marked between steps.
Figure 1 TruSight Rapid Capture Workflow
TruSight Rapid Capture Sample Preparation Guide
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Sample PrepWorkflow
Sample PrepWorkflow
Protocol
Tagment Genomic DNA
This process tagments (tags and fragments) the gDNA by the Nextera transposome. The
Nextera transposome simultaneously fragments the gDNA and adds adapter sequences to
the ends, allowing amplification by PCR in subsequent processes.
Consumables
Item
Quantity
Storage
Supplied By
Sample Purification Beads (SPB)
1 tube
2° to 8°C
Illumina
Stop Tagment Buffer (ST)
1 tube
15° to 30°C
Illumina
Tagment DNA Buffer (TD)
1 tube
-15° to -25°C
Illumina
Tagment DNA Enzyme (TDE1)
1 tube
-15° to -25°C
Illumina
96-well MIDI plate
1
15° to 30°C
User
gDNA (5 ng/µl)
50 ng
-15° to -25°C
User
Microseal 'B' adhesive seals
2
15° to 30°C
User
RNase/DNase-free Reagent
Reservoir
(for multi-sample processing)
1
15° to 30°C
User
RNase/DNase-free Strip Tubes
and Caps
(for multi-sample processing)
3
15° to 30°C
User
Tris-Cl 10 mM, pH 8.5
as needed
15° to 30°C
User
Preparation
} Remove the Tagment DNA Buffer, Tagment DNA Enzyme 1, and gDNA from -15° to
-25°C storage and thaw on ice.
• After thawing, ensure all reagents are adequately mixed by gently inverting the
tubes 3–5 times, followed by a brief spin in a microcentrifuge.
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Procedure
NOTE
Ensure the reaction is assembled in the order described for optimal kit performance.
The reaction does not need to be assembled on ice.
1
Perform the following steps to normalize your gDNA samples:
a Quantify your gDNA samples using a fluorometric method such as QuantiFluor or
Qubit.
b Normalize your gDNA samples in Tris-Cl 10 mM, pH 8.5 to 10 ng/µl.
c Re-quantify the 10 ng/µl normalized sample using the same fluorometric
quantification method.
d Based on this quantification, further dilute your gDNA samples in Tris-Cl 10 mM,
pH 8.5 to a final volume of 10 µl at 5 ng/µl (50 ng total) for use in the
tagmentation reaction.
2
Add 10 µl of gDNA at 5 ng/µl (50 ng total) to each well of the new 96-well MIDI plate
labeled NLT.
3
Add 25 µl of Tagment DNA Buffer to each well of the NLT plate.
4
Add 15 µl of Tagment DNA Enzyme 1 to each well of the NLT plate.
TruSight Rapid Capture Sample Preparation Guide
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Tagment Genomic DNA
} Remove the Sample Purification Beads from 2° to 8°C storage and let stand to bring to
room temperature.
} Make sure the Stop Tagment Buffer has no precipitate. If there is precipitate, vortex
until all particulates are resuspended.
} For multi-sample processing:
• Use a multichannel pipette.
• Distribute the Stop Tagment Buffer, Tagment DNA Buffer, and Tagment DNA
Enzyme 1 into separate eight-tube strips, dispensing equal volumes into each of the
wells.
• Pour the Sample Purification Beads into a multichannel reagent reservoir.
} Place a MIDI plate insert on the microheating system.
} Pre-heat the microheating system to 58°C.
} Label a new 96-well MIDI plate NLT (Nextera Library Tagment) with a smudge
resistant pen.
} Use the Illumina Experiment Manager to determine the index primers to be used. For
more information on IEM, see Additional Resources on page 4.
Protocol
5
Mix thoroughly as follows:
a Seal the NLT plate with a Microseal ‘B’ adhesive seal.
b Shake the NLT plate on a microplate shaker at 1800 rpm for 1 minute.
6
Centrifuge the NLT plate to 280 xg for 1 minute.
7
Place the sealed NLT plate on the pre-heated microheating system. Close the lid and
incubate at 58°C for 10 minutes.
8
Remove the NLT plate from the microheating system.
9
Remove the adhesive seal from the NLT plate.
10 Add 15 µl Stop Tagment Buffer to each well of the NLT plate.
11 Mix thoroughly as follows:
a Seal the NLT plate with a Microseal ‘B’ adhesive seal.
b Shake the NLT plate on a microplate shaker at 1800 rpm for 1 minute.
12 Centrifuge the NLT plate to 280 xg for 1 minute.
13 Incubate the NLT plate at room temperature for 4 minutes.
14 Proceed to Clean Up Tagmented DNA on page 11.
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This process purifies the tagmented DNA from the Nextera transposome. It is critical
because the Nextera transposome can bind tightly to DNA ends and will interfere with
downstream processes if not removed.
Consumables
Item
Quantity
Storage
Supplied By
Resuspension Buffer (RSB)
1 tube
-15° to -25°C
Illumina
Sample Purification Beads (SPB)
1 tube
2° to 8°C
Illumina
96-well hard-shell plate (HSP)
1
15° to 30°C
User
Freshly prepared 80% ethanol
(EtOH)
400 µl per sample
15° to 30°C
User
Microseal 'B' adhesive seals
2
15° to 30°C
User
RNase/DNase-free Reagent
Reservoirs
(for multi-sample processing)
3
15° to 30°C
User
Preparation
} Remove the Resuspension Buffer from -15° to -25°C storage and thaw at room
temperature.
NOTE
The Resuspension Buffer can be stored at 2° to 8°C after the initial thaw.
} Review Best Practices for Handling Magnetic Beads. See Additional Resources on page 4
for information on how to access TruSight Rapid Capture Best Practices on the
Illumina website.
} Make sure that the Sample Purification Beads are at room temperature.
} For multi-sample processing:
• Use a multichannel pipette.
• Pour the Resuspension Buffer, Sample Purification Beads, and 80% EtOH into
separate multichannel reagent reservoirs.
TruSight Rapid Capture Sample Preparation Guide
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Clean Up Tagmented DNA
Clean Up Tagmented DNA
Protocol
} Label a new 96-well HSP plate NLA (Nextera Library Amplification) with a smudge
resistant pen.
Procedure
1
Remove the adhesive seal from the NLT plate.
2
Add 65 µl of well-resuspended Sample Purification Beads to each well of the NLT
plate.
3
Mix thoroughly as follows:
a Seal the NLT plate with a Microseal ‘B’ adhesive seal.
b Shake the NLT plate on a microplate shaker at 1800 rpm for 1 minute.
4
Incubate the NLT plate at room temperature for 8 minutes.
5
Centrifuge the NLT plate to 280 xg for 1 minute.
6
Place the plate on the magnetic stand for 2 minutes or until the liquid appears clear.
7
Remove the adhesive seal from the NLT plate.
8
Using a 200 µl single channel or multichannel pipette set to 130 µl, remove and
discard all of the supernatant from each well of the NLT plate.
NOTE
Leave the NLT plate on the magnetic stand while performing the following
80% EtOH wash steps (9–11).
9
With the NLT plate remaining on the magnetic stand, slowly add 200 µl of freshly
prepared 80% EtOH to each well without disturbing the beads. Wait 30 seconds.
10 Remove and discard the 80% EtOH from each well of the NLT plate.
11 Repeat steps 9 and 10 once for a total of two 80% EtOH washes.
12 Using a 20 µl single channel or multichannel pipette, remove any remaining
80% EtOH from each well of the NLT plate without disturbing the beads.
13 With the NLT plate remaining on the magnetic stand, incubate the plate at room
temperature for 10 minutes to dry.
14 Remove the NLT plate from the magnetic stand.
15 Add 22.5 µl of Resuspension Buffer to each well of the NLT plate. Do not touch the
beads with the pipette tips.
12
Part # 15043291 Rev. A
17 Incubate the NLT plate at room temperature for 2 minutes.
18 Centrifuge the NLT plate to 280 xg for 1 minute.
19 Place the NLT plate on the magnetic stand for 2 minutes or until the liquid appears
clear.
20 Remove the adhesive seal from the NLT plate.
21 Transfer 20 µl of clear supernatant from each well of the NLT plate to the
corresponding well of the new HSP plate labeled NLA. Take care not to disturb the
beads.
NOTE
Illumina recommends using a 20 µl single channel or multichannel pipette
set to 10 µl to perform two consecutive transfers of 10 µl to reduce sample
loss by ensuring that all of the liquid is transferred without disturbing the
beads.
22 [Optional] Load 1 µl of the tagmentation reaction remaining in the NLT plate on an
Agilent Technologies 2100 Bioanalyzer using a Agilent High Sensitivity DNA chip.
Check the size of the sample, which should produce a broad distribution of DNA
fragments with a size range from approximately 150 bp–1 kb.
Figure 2 Example TruSight Rapid Capture Post-Tagmentation Library Distribution
TruSight Rapid Capture Sample Preparation Guide
13
Clean Up Tagmented DNA
16 Mix thoroughly as follows:
a Seal the NLT plate with a Microseal ‘B’ adhesive seal.
b Shake the NLT plate on a microplate shaker at 1800 rpm for 1 minute
Protocol
First PCR Amplification
This process amplifies the purified tagmented DNA via a -cycle PCR program. It also adds
index 1 (i7) and index 2 (i5) needed for sequencing, as well as common adapters (P5 and
P7) required for cluster generation and sequencing. It is critical to use the full amount of
recommended input DNA and it is imperative that no extra cycles are added to the PCR
process to ensure the generation of libraries that produce high-quality sequencing results.
Consumables
14
Item
Quantity
Storage
Supplied By
Index 1 primers
(i7, N701–N712)
1 tube each index
-15° to -25°C
Illumina
Index 1 Tube Caps, Orange
1 per Index 1 primer
tube
15° to 30°C
Illumina
Index 2 primers (i5, E501–E502)
1 tube each index
-15° to -25°C
Illumina
Index 2 Tube Caps, White
1 per Index 2 primer
tube
15° to 30°C
Illumina
Nextera Library Amplification
Mix (NLM)
1 tube
-15° to -25°C
Illumina
1.7 ml microcentrifuge tubes
1 per index primer
tube
15° to 30°C
User
Microseal 'A' film
1
15° to 30°C
User
Microseal 'B' adhesive seal
1
15° to 30°C
User
RNase/DNase-free Strip Tube
and Caps
(for multi-sample processing)
1
15° to 30°C
User
[Optional] TruSeq® Index Plate
Fixture Kit
1
15° to 30°C
User
Part # 15043291 Rev. A
} Remove the Nextera Library Amplification Mix from -15° to -25°C storage and thaw on
ice.
} Remove the following from -15° to -25°C storage and thaw at room temperature:
• Index 1 primers (i7, N701–N712) (only remove primers being used)
• Index 2 primers (i5, E501–E502) (only remove primers being used)
NOTE
TruSight Rapid Capture kits are designed to work only with Index 2 primers with the
"E" prefix. Index 2 primers from other sample prep kits should not be used.
} For multi-sample processing:
• Use a multichannel pipette.
• Dispense the Nextera Library Amplification Mix in equal volumes into each of the
wells of an eight-tube strip.
} Pre-program the thermal cycler with the following program and save as NLM AMP:
• Choose the pre-heat lid option and set to 100°C
• 72°C for 3 minutes
• 98°C for 30 seconds
• 10 cycles of:
— 98°C for 10 seconds
— 60°C for 30 seconds
— 72°C for 30 seconds
• 72°C for 5 minutes
• Hold at 10°C
NOTE
Illumina has optimized the number of recommended PCR cycles for enrichment
assays based upon the level of pre-enrichment sample pooling and the size of
the oligonucleotide set. Do not add or reduce the cycles of PCR, as it may
compromise data quality.
Setup Index Primers
1
Vortex the index primer tubes for 5 seconds.
2
Centrifuge the index primer tubes to 600 xg for 5 seconds. Use empty 1.7 ml
microcentrifuge tubes as tube adapters for the microcentrifuge.
TruSight Rapid Capture Sample Preparation Guide
15
First PCR Amplification
Preparation
Protocol
3
Arrange the index primers in a rack on ice (i.e. the TruSeq Index Plate Fixture) using
the following arrangement:
a Arrange the Index 1 Primer tubes (orange caps) vertically, aligned with columns
1-12.
b Arrange the Index 2 Primer tubes (white caps) horizontally, aligned with rows A-H.
Figure 3 Index Plate Fixture
A
B
C
16
Index 1 Primer tubes (orange caps)
Index 2 Primer tubes (white caps)
NLA plate
Part # 15043291 Rev. A
NOTE
For pooling libraries prior to enrichment, it is recommended to pool libraries so all
Index 1 (i7) indices are unique. Choose Index 1 and Index 2 primers for PCR
accordingly. For information, see Low-Plex Pooling Guidelines on page 65.
1
Add 5 µl of Index 1 (i7, N7xx) primer to each well of the NLA plate.
2
Add 5 µl of Index 2 (i5, E5xx) primer to each well of the NLA plate.
3
Add 20 µl of Nextera Library Amplification Mix to each well of the NLA plate.
4
Mix thoroughly as follows:
a Seal the NLA plate with a Microseal ‘A’ film.
b Shake the NLA plate on a microplate shaker at 1200 rpm for 1 minute
5
Centrifuge the NLA plate to 280 xg for 1 minute.
6
Place the sealed NLA plate on the pre-programmed thermal cycler. Close the lid, then
select and run the NLM AMP program.
SAFE STOPPING POINT
If you do not plan to immediately proceed to First PCR Clean Up on page 18, the NLA
plate can remain on the thermocycler overnight. If you are stopping, replace the
Microseal 'A' with a Microseal 'B' adhesive seal and store the NLA plate at 2° to 8°C
for up to two days.
TruSight Rapid Capture Sample Preparation Guide
17
First PCR Amplification
Procedure
Protocol
First PCR Clean Up
This process uses Sample Purification Beads to purify the library DNA and remove
unwanted products.
Consumables
Item
Quantity
Storage
Supplied By
Resuspension Buffer (RSB)
1 tube
2° to 8°C
Illumina
Sample Purification Beads (SPB)
1 tube
2° to 8°C
Illumina
96-well HSP plate
1
15° to 30°C
User
96-well MIDI plate
1
15° to 30°C
User
Freshly prepared 80% ethanol
(EtOH)
400 µl per sample
15° to 30°C
User
Microseal 'B' adhesive seals
3
15° to 30°C
User
RNase/DNase-free Reagent
Reservoirs
(for multi-sample processing)
3
15° to 30°C
User
Preparation
} Review Best Practices for Handling Magnetic Beads. See Additional Resources on page 4
for information on how to access TruSight Rapid Capture Best Practices on the
Illumina website.
} Make sure that the Resuspension Buffer and Sample Purification Beads are at room
temperature.
} For multi-sample processing:
• Use a multichannel pipette.
• Pour the Resuspension Buffer, Sample Purification Beads, and 80% EtOH into
separate multichannel reagent reservoirs.
} Label a new 96-well MIDI plate NLC (Nextera Library Clean Up) with a smudge
resistant pen.
18
Part # 15043291 Rev. A
Procedure
1
Remove the NLA plate from the thermocycler and centrifuge to 280 xg for 1 minute.
2
Remove the adhesive seal from the NLA plate.
3
Transfer 50 µl of clear supernatant from each well of the NLA plate to the
corresponding well of the new 96-well MIDI plate labeled NLC.
4
Vortex the Sample Purification Beads until the beads are well dispersed, then add 90 µl
of well-resuspended Sample Purification Beads to each well of the NLC plate.
5
Mix thoroughly as follows:
a Seal the NLC plate with a Microseal ‘B’ adhesive seal.
b Shake the NLC plate on a microplate shaker at 1800 rpm for 1 minute.
6
Incubate the NLC plate at room temperature for 10 minutes.
7
Centrifuge the NLC plate to 280 xg for 1 minute.
8
Remove the adhesive seal from the NLC plate.
9
Place the NLC plate on the magnetic stand for 2 minutes or until the liquid appears
clear.
10 Carefully remove and discard all of the supernatant from each well of the NLC plate.
NOTE
Leave the NLC plate on the magnetic stand while performing the following
80% EtOH wash steps (11–13).
11 With the NLC plate remaining on the magnetic stand, slowly add 200 µl of freshly
prepared 80% EtOH to each well without disturbing the beads. Wait 30 seconds.
12 Remove and discard the 80% EtOH from each well of the NLC plate.
13 Repeat steps 11 and 12 once for a total of two 80% EtOH washes.
14 Using a 20 µl single channel or multichannel pipette, remove any remaining
80% EtOH from each well of the NLC plate without disturbing the beads.
15 Let the NLC plate stand at room temperature for 10 minutes to dry on the magnetic
stand.
TruSight Rapid Capture Sample Preparation Guide
19
First PCR Clean Up
} Label a new 96-well HSP plate NLS (Nextera Library Sample) with a smudge resistant
pen.
Protocol
16 Remove the NLC plate from the magnetic stand.
17 Add 27 µl of Resuspension Buffer to each well of the NLC plate. Do not touch the
beads with the pipette tips.
18 Mix thoroughly as follows:
a Seal the NLC plate with a Microseal ‘B’ adhesive seal.
b Shake the NLC plate on a microplate shaker at 1800 rpm for 1 minute.
19 Incubate the NLC plate at room temperature for 2 minutes.
20 Centrifuge the NLC plate to 280 xg for 1 minute.
21 Remove the adhesive seal from the NLC plate.
22 Place the NLC plate on the magnetic stand for 2 minutes or until the liquid appears
clear.
23 Transfer 25 µl of clear supernatant from each well of the NLC plate to the
corresponding well of the new HSP plate labeled NLS. Take care not to disturb the
beads.
NOTE
Illumina recommends using a 20 µl single channel or multichannel pipette
set to 12.5 µl to perform two consecutive transfers of 12.5 µl to reduce
sample loss by ensuring that all of the liquid is transferred without
disturbing the beads.
24 Quantify the library in the NLS plate using a fluorometric method. See DNA
Quantitation on page 68 or an example protocol using the Promega QuantiFluor
method.
25 [Optional] Load 1 µl of the library on an Agilent Technologies 2100 Bioanalyzer using
a Agilent DNA 1000 Chip. Check the size of the library, which should produce a
distribution of DNA fragments with a size range from approximately 150 bp—1 kb.
20
Part # 15043291 Rev. A
First PCR Clean Up
Figure 4 Example TruSight Rapid Capture Post-PCR, Pre-Enriched Library Distribution
NOTE
The sample peak should not be significantly shifted compared to the
example shown in Figure 4, although traces may differ depending on
sample quality. A larger peak distribution (> 350 bp) can be indicative of
> 50 ng gDNA input going into tagmentation and may result in lower
on-target reads. Conversely, a smaller sample peak distribution (< 225 bp)
can be indicative of < 50 ng gDNA or low quality gDNA, which may result
in reduced library diversity or elevated duplicates.
SAFE STOPPING POINT
If you do not plan to proceed to First Hybridization on page 22 immediately, the
protocol can be safely stopped here. If you are stopping, seal the NLS plate with
a Microseal ‘B’ adhesive seal and store it at -15° to -25°C for up to 14 days.
TruSight Rapid Capture Sample Preparation Guide
21
Protocol
First Hybridization
This process mixes the DNA library with capture probes to targeted regions of interest. The
recommended hybridization time makes sure that targeted regions bind to the capture
probes thoroughly. This process also describes how to combine multiple libraries with
different indices into a single pool prior to enrichment.
Consumables
Item
Quantity
Storage
Supplied By
TruSight Content Set CSO
(Custom Selected Oligos)
1 tube
-15° to -25°C
Illumina
Enrichment Hybridization
Buffer (EHB)
1 tube
-15° to -25°C
Illumina
96-well HSP plate
1
15° to 30°C
User
[Optional] Amicon Ultra-0.5
centrifugal filter unit
(0.5 ml, 30 kDa)
1 per pooled sample
15° to 30°C
User
Microseal 'B' adhesive seal
1
15° to 30°C
User
RNase/DNase-free Strip Tubes
and Caps
(for multi-sample processing)
2
15° to 30°C
User
Preparation
} Remove the following from -15° to -25°C storage and thaw them at room temperature:
• Enrichment Hybridization Buffer
• Custom Selected Oligos
} For multi-sample processing:
• Use a multichannel pipette.
• Distribute the Custom Selected Oligos and Enrichment Hybridization Buffer into
separate eight-tube strips, dispensing equal volumes into each of the wells.
} Remove the NLS plate from -15° to -25°C storage, if it was stored at the conclusion of
First PCR Clean Up and thaw on ice.
22
Part # 15043291 Rev. A
Pool Libraries
1
Reference the table below for the amount of DNA libraries to use for enrichment.
Illumina recommends using 500 ng of each DNA library, quantified by QuantiFluor.
See DNA Input Recommendations on page 3.
• If you are pooling libraries, combine 500 ng of each DNA library.
• If the total volume is greater than 40 µl, concentrate the pooled sample using either
a vacuum concentrator or Amicon Ultra-0.5 centrifugal filter unit (0.5 ml, 30 kDa)
according to manufacturer's instructions.
— If you are using a vacuum concentrator, Illumina recommends concentrating
samples with a no heat and medium drying rate setting.
— If you are using a Amicon Ultra-0.5 centrifugal filter unit (0.5 ml, 30 kDa), it is
not required to pre-rinse the device prior to use. The majority of volume will
filter through in 5 minutes, but up to 30 minutes may be required depending
on the starting volume.
• If the pooled sample volume after concentrating is less than 40 µl, bring the
volume up to 40 µl with Resuspension Buffer.
2
The recommended pre-enrichment pooling strategy is to pool libraries so that each
contains a unique Index 1/i7 index. With this pooling approach samples can be
sequenced using a single index read workflow, as described in the HiSeq® and GAIIx
user guides.
• If Index1/i7 indexes are not unique, ensure that libraries with different Index 2/i5
indexes are included (e.g. N703/E501 and N703/E502). With this approach,
sequence samples using a dual index read workflow, as described in the HiSeq and
GAIIx user guides.
• See Low-Plex Pooling Guidelines on page 65 for further details.
TruSight Rapid Capture Sample Preparation Guide
23
First Hybridization
• Centrifuge the thawed NLS plate to 280 xg for 1 minute.
• Remove the adhesive seal from the thawed NLS plate.
} Pre-program the thermal cycler with the following program and save as NRC HYB:
a Choose the pre-heat lid option and set to 100°C
b 95°C for 10 minutes
c 18 cycles of 1 minute incubations, starting at 94°C, then decreasing 2°C per cycle
d 58°C for forever
} Label a new 96-well HSP plate NEH1 (Nextera Enrichment Hyb 1) with a smudge
resistant pen.
Protocol
Table 1 DNA Libraries for Enrichment
Library Pool
Complexity
Total DNA Library
Mass (ng)
1-plex
500
2-plex
1000
3-plex
1500
4-plex
2000
5-plex
2500
6-plex
3000
7-plex
3500
8-plex
4000
9-plex
4500
10-plex
5000
11-plex
5500
12-plex
6000
Procedure
1
Thoroughly vortex the Enrichment Hybridization Buffer tube until the solution is
completely resuspended. Visually make sure that no crystal structures are present.
NOTE
If crystals and cloudiness are observed, vortex the Enrichment
Hybridization Buffer tube until it appears clear.
2
24
Add the following reagents in the order listed below to each well of the new 96-well
HSP plate labeled NEH1.
Part # 15043291 Rev. A
Volume (µl)
40
50
10
100
3
Mix thoroughly as follows:
a Seal the NEH1 plate with a Microseal ‘B’ adhesive seal. Make sure that the plate is
tightly sealed to prevent potential evaporation. Use an adhesive seal roller to apply
force to the seal and make sure the seal is secured.
b Shake the NEH1 plate on a microplate shaker at 1200 rpm for 1 minute.
4
Centrifuge the NEH1 plate to 280 xg for 1 minute.
5
Place the sealed NEH1 plate on the pre-programmed thermal cycler. Close the lid, then
select and run the NRC HYB program.
Incubate the plate at the 58°C holding temperature for at least 90 minutes and up to a
maximum of 24 hours. Do not remove the plate from 58°C incubation until you are
ready to proceed to First Capture on page 26.
TruSight Rapid Capture Sample Preparation Guide
25
First Hybridization
Reagent
DNA library sample or library pool from NLS plate
Enrichment Hybridization Buffer
TruSight Content Set CSO
Total Volume per Sample
Protocol
First Capture
This process uses streptavidin beads to capture probes hybridized to the targeted regions of
interest. Two heated wash procedures remove non-specific binding from the beads. The
enriched library is then eluted from the beads and prepared for a second round of
hybridization.
Consumables
Item
Quantity
Storage
Supplied By
2N NaOH (HP3)
1 tube
-15° to -25°C
Illumina
Elute Target Buffer 2 (ET2)
1 tube
2° to 8°C
Illumina
Enrichment Elution Buffer 1 (EE1)
1 tube
-15° to -25°C
Illumina
Enrichment Wash Solution (EWS)
1 tube
-15° to -25°C
Illumina
Streptavidin Magnetic Beads (SMB)
1 tube
2° to 8°C
Illumina
1.7 ml microcentrifuge tube
1
15° to 30°C
User
96-well HSP plate
1
15° to 30°C
User
96-well MIDI plate
1
15° to 30°C
User
Microseal 'B' adhesive seals
6
15° to 30°C
User
Preparation
} Remove the 2N NaOH, Enrichment Elution Buffer 1, and Enrichment Wash Solution
from -15° to -25°C storage and thaw at room temperature.
} Remove the Elute Target Buffer 2 and Streptavidin Magnetic Beads from 2° to 8°C
storage and let stand at room temperature.
NOTE
Make sure that you use the Streptavidin Magnetic Beads (2 ml tube) and not
the Sample Purification Beads (15 ml tube) for this procedure.
} Pre-heat the microheating system to 50°C.
26
Part # 15043291 Rev. A
First Bind
1
Remove the NEH1 plate from the thermal cycler.
2
Centrifuge the NEH1 plate to 280 xg for 1 minute.
3
Remove the adhesive seal from the NEH1 plate. Take care when removing the seal to
avoid spilling the contents of the wells.
4
Transfer the entire contents (~100 µl) from each well of the NEH1 plate to the
corresponding well of the new 96-well MIDI plate labeled NEW1.
NOTE
If an overnight First Hybridization was performed, it is normal to see a
small degree of sample loss. However, if the sample loss is greater than
15%, Illumina does not recommended proceeding with the sample
preparation. This amount of loss can be caused by poor sealing or not
heating the lid.
5
Vortex the Streptavidin Magnetic Beads tube until the beads are well dispersed, then
add 250 µl of well-mixed Streptavidin Magnetic Beads to the wells of the NEW1 plate.
6
Mix thoroughly as follows:
a Seal the NEW1 plate with a Microseal ‘B’ adhesive seal.
b Shake the NEW1 plate on a microplate shaker at 1200 rpm for 5 minutes.
7
Let the NEW1 plate stand at room temperature for 25 minutes.
8
Centrifuge the NEW1 plate to 280 xg for 1 minute.
9
Remove the adhesive seal from the NEW1 plate.
10 Place the NEW1 plate on the magnetic stand for 2 minutes at room temperature or
until the liquid appears clear.
11 Carefully remove and discard all of the supernatant from each well of the NEW1 plate
without disturbing the beads.
12 Remove the NEW1 plate from the magnetic stand.
TruSight Rapid Capture Sample Preparation Guide
27
First Capture
} Label a new 96-well MIDI plate NEW1 (Nextera Enrichment Wash 1) with a smudge
resistant pen.
} Label a new 96-well HSP plate NEH2 (Nextera Enrichment Hyb 2) with a smudge
resistant pen.
Protocol
First Wash
1
Make sure that the Enrichment Wash Solution tube is at room temperature, then
thoroughly vortex the tube.
NOTE
It is normal that the Enrichment Wash Solution may be cloudy after vortexing.
2
Add 200 µl of Enrichment Wash Solution to each well of the NEW1 plate.
3
Mix thoroughly as follows:
a Seal the NEW1 plate with a Microseal ‘B’ adhesive seal.
b Shake the NEW1 plate on a microplate shaker at 1800 rpm for 4 minutes.
c Remove the adhesive seal from the NEW1 plate.
d Gently pipette the entire volume of each well up and down to ensure complete
resuspension of the sample.
4
Seal the NEW1 plate with a Microseal ‘B’ adhesive seal.
5
Place the sealed NEW1 plate on the pre-heated microheating system. Close the lid and
incubate at 50°C for 30 minutes.
6
Place the magnetic stand next to the microheating system for immediate access.
7
Remove the NEW1 plate from the microheating system and immediately place it on the
magnetic stand for 2 minutes or until the liquid appears clear.
8
Remove the adhesive seal from the NEW1 plate.
9
Immediately remove and discard all of the supernatant from each well of the NEW1
plate.
10 Remove the NEW1 plate from the magnetic stand.
11 Repeat steps 2–10 once for a total of two Enrichment Wash Solution washes.
28
Part # 15043291 Rev. A
1
Add the following reagents in the order listed in a new 1.7 ml microcentrifuge tube to
create the elution pre-mix. Multiply each volume by the number of pooled samples
being prepared. The volumes below include an excess amount for processing multiple
samples.
Reagent
Enrichment Elution Buffer 1
2N NaOH
Total Volume per Sample
Volume (µl )
28.5
1.5
30
2
Vortex the elution pre-mix tube, then add 23 µl of the mix to each well of the NEW1
plate.
3
Mix thoroughly as follows:
a Seal the NEW1 plate with a Microseal ‘B’ adhesive seal.
b Shake the NEW1 plate on a microplate shaker at 1800 rpm for 2 minutes.
4
Let the NEW1 plate stand at room temperature for 2 minutes.
5
Centrifuge the NEW1 plate to 280 xg for 1 minute.
6
Carefully remove the adhesive seal from the NEW1 plate to avoid spilling the contents
of the wells.
7
Place the NEW1 plate on the magnetic stand for 2 minutes or until the liquid appears
clear.
8
Transfer 21 µl of clear supernatant from each well of the NEW1 plate to the
corresponding well of the new HSP plate labeled NEH2. Take care not to disturb the
beads.
NOTE
Illumina recommends using a 20 µl single channel or multichannel pipette
set to 10.5 µl to perform two consecutive transfers of 10.5 µl to reduce
sample loss by ensuring that all of the liquid is transferred without
disturbing the beads.
9
Add 4 µl of Elute Target Buffer 2 to each well of the NEH2 plate containing samples to
neutralize the elution.
TruSight Rapid Capture Sample Preparation Guide
29
First Capture
First Elution
Protocol
10 Mix thoroughly as follows:
a Seal the NEH2 plate with a Microseal ‘B’ adhesive seal.
b Shake the NEH2 plate on a microplate shaker at 1200 rpm for 1 minute.
11 Centrifuge the NEH2 plate to 280 xg for 1 minute.
12 Store the remaining reagents as follows:
a Place the Elute Target Buffer 2 and Streptavidin Magnetic Beads tubes in 2° to 8°C
storage.
b Place the 2N NaOH, Enrichment Elution Buffer 1, and Enrichment Wash Solution
tubes in -15° to -25°C storage.
c Discard any remaining elution pre-mix.
SAFE STOPPING POINT
If you do not plan to proceed to Second Hybridization on page 31 immediately,
the protocol can be safely stopped here. If you are stopping, seal the NEH2 plate
with a Microseal ‘B’ adhesive seal and store it at -15° to -25°C for up to seven
days.
30
Part # 15043291 Rev. A
This process combines the eluted DNA library from the first enrichment round with
additional capture probes to targeted regions of interest. This second hybridization is
required to ensure high specificity of the captured regions.
Consumables
Item
Quantity
Storage
Supplied By
TruSight Content Set CSO
(Custom Selected Oligos)
1 tube
-15° to -25°C
Illumina
Enrichment Hybridization
Buffer (EHB)
1 tube
-15° to -25°C
Illumina
Resuspension Buffer (RSB)
1 tube
2° to 8°C
Illumina
Microseal 'B' adhesive seal
1
15° to 30°C
User
Preparation
} Remove the following from -15° to -25°C storage and thaw them at room temperature:
• Enrichment Hybridization Buffer
• Custom Selected Oligos
} Make sure that the Resuspension Buffer is at room temperature.
} Remove the NEH2 plate from -15° to -25°C storage, if it was stored at the conclusion of
First Capture and thaw on ice.
• Centrifuge the thawed NEH2 plate to 280 xg for 1 minute.
Procedure
1
Thoroughly vortex the Enrichment Hybridization Buffer tube until the solution is
completely resuspended. Visually make sure that no crystal structures are present.
NOTE
If crystals and cloudiness are observed, vortex the Enrichment
Hybridization Buffer tube until it appears clear.
2
Remove the adhesive seal from the NEH2 plate.
TruSight Rapid Capture Sample Preparation Guide
31
Second Hybridization
Second Hybridization
Protocol
32
3
Add 15 µl of Resuspension Buffer to each well of the NEH2 plate.
4
Add 50 µl of Enrichment Hybridization Buffer to each well of the NEH2 plate.
5
Add 10 µl of the CSO tube to each well of the NEH2 plate.
6
Mix thoroughly as follows:
a Seal the NEH2 plate with a Microseal ‘B’ adhesive seal. Make sure that the plate is
tightly sealed to prevent potential evaporation. Use an adhesive seal roller to apply
force to the seal and make sure the seal is secured.
b Shake the NEH2 plate on a microplate shaker at 1200 rpm for 1 minute
7
Centrifuge the NEH2 plate to 280 xg for 1 minute.
8
Place the sealed NEH2 plate on the pre-programmed thermal cycler. Close the lid, then
select and run the NRC HYB program.
Incubate the plate at the 58°C holding temperature overnight for at least 14.5 hours and
up to a maximum of 24 hours. Do not remove the plate from 58°C incubation until you
are ready to proceed to Second Capture on page 33.
Part # 15043291 Rev. A
This process uses streptavidin beads to capture probes hybridized to the targeted regions of
interest. Two heated wash procedures remove non-specific binding from the beads. The
enriched library is then eluted from the beads and prepared for sequencing.
NOTE
These procedures are similar to the First Capture on page 26.
Consumables
Item
Quantity
Storage
Supplied By
2N NaOH (HP3)
1 tube
-15° to -25°C
Illumina
Elute Target Buffer 2 (ET2)
1 tube
2° to 8°C
Illumina
Enrichment Elution Buffer 1 (EE1)
1 tube
-15° to -25°C
Illumina
Enrichment Wash Solution (EWS)
1 tube
-15° to -25°C
Illumina
Streptavidin Magnetic Beads (SMB)
1 tube
2° to 8°C
Illumina
1.7 ml microcentrifuge tube
1
15° to 30°C
User
96-well MIDI plates
2
15° to 30°C
User
Microseal 'B' adhesive seals
6
15° to 30°C
User
Preparation
} Remove the 2N NaOH, Enrichment Elution Buffer 1, and Enrichment Wash Solution
from -15° to -25°C storage and thaw at room temperature.
} Remove the Elute Target Buffer 2 and Streptavidin Magnetic Beads from 2° to 8°C
storage and let stand at room temperature.
NOTE
Make sure that you use the Streptavidin Magnetic Beads (2 ml tube) and not
the Sample Purification Beads (15 ml tube) for this procedure.
} Pre-heat the microheating system to 50°C.
TruSight Rapid Capture Sample Preparation Guide
33
Second Capture
Second Capture
Protocol
} Label a new 96-well MIDI plate NEW2 (Nextera Enrichment Wash 2) with a smudge
resistant pen.
} Label a new 96-well MIDI plate NEC1 (Nextera Enriched Clean Up 1) with a smudge
resistant pen.
Second Bind
1
Remove the NEH2 plate from the thermal cycler.
2
Centrifuge the room temperature NEH2 plate to 280 xg for 1 minute.
3
Remove the adhesive seal from the NEH2 plate. Take care when removing the seal to
avoid spilling the contents of the wells.
4
Transfer the entire contents (~100 µl) from each well of the NEH2 plate to the
corresponding well of the new 96-well MIDI plate labeled NEW2.
NOTE
It is normal to see a small degree of sample loss after overnight hybridization.
However, if the sample loss is greater than 15%, Illumina does not
recommended proceeding with the sample preparation. This amount of loss can
be caused by poor sealing or not heating the lid.
5
Vortex the Streptavidin Magnetic Beads tube until the beads are well dispersed, then
add 250 µl of well-mixed Streptavidin Magnetic Beads to the wells of the NEW2 plate.
6
Mix thoroughly as follows:
a Seal the NEW2 plate with a Microseal ‘B’ adhesive seal.
b Shake the NEW2 plate on a microplate shaker at 1200 rpm for 5 minutes
7
Let the NEW2 plate stand at room temperature for 25 minutes.
8
Centrifuge the NEW2 plate to 280 xg for 1 minute.
9
Remove the adhesive seal from the NEW2 plate.
10 Place the NEW2 plate on the magnetic stand for 2 minutes at room temperature or
until the liquid appears clear.
11 Carefully remove and discard all of the supernatant from each well of the NEW2 plate
without disturbing the beads.
12 Remove the NEW2 plate from the magnetic stand.
34
Part # 15043291 Rev. A
1
Make sure that the Enrichment Wash Solution tube is at room temperature, then
thoroughly vortex the tube.
NOTE
It is normal that the Enrichment Wash Solution may be cloudy after vortexing.
2
Add 200 µl of Enrichment Wash Solution to each well of the NEW2 plate.
3
Mix thoroughly as follows:
a Seal the NEW2 plate with a Microseal ‘B’ adhesive seal.
b Shake the NEW2 plate on a microplate shaker at 1800 rpm for 4 minutes
c Remove the adhesive seal from the NEW2 plate.
d Gently pipette the entire volume of each well up and down to ensure complete
resuspension of the sample.
4
Seal the NEW2 plate with a Microseal ‘B’ adhesive seal.
5
Incubate the NEW2 plate on the pre-heated microheating system, with the lid closed, at
50°C for 30 minutes.
6
Place the magnetic stand next to the microheating system for immediate access.
7
Remove the NEW2 plate from the microheating system and immediately place it on the
magnetic stand for 2 minutes or until the liquid appears clear.
8
Remove the adhesive seal from the NEW2 plate.
9
Immediately remove and discard all of the supernatant from each well of the NEW2
plate.
10 Remove the NEW2 plate from the magnetic stand.
11 Repeat steps 2–10 once for a total of two Enrichment Wash Solution washes.
TruSight Rapid Capture Sample Preparation Guide
35
Second Capture
Second Wash
Protocol
Second Elution
1
Add the following reagents in the order listed in a new 1.7 ml microcentrifuge tube to
create the elution pre-mix. Multiply each volume by the number of pooled samples
being prepared. The volumes below include an excess amount for processing multiple
samples.
Reagent
Enrichment Elution Buffer 1
2N NaOH
Total Volume per Sample
Volume (µl )
28.5
1.5
30
2
Vortex the elution pre-mix tube, then add 23 µl of the mix to each well of the NEW2
plate.
3
Mix thoroughly as follows:
a Seal the NEW2 plate with a Microseal ‘B’ adhesive seal.
b Shake the NEW2 plate on a microplate shaker at 1800 rpm for 2 minutes.
4
Let the NEW2 plate stand at room temperature for 2 minutes.
5
Centrifuge the NEW2 plate to 280 xg for 1 minute.
6
Carefully remove the adhesive seal from the NEW2 plate to avoid spilling the contents
of the wells.
7
Place the NEW2 plate on the magnetic stand for 2 minutes or until the liquid appears
clear.
8
Transfer 21 µl of clear supernatant from each well of the NEW2 plate to the
corresponding well of the new MIDI plate labeled NEC1. Take care not to disturb the
beads.
NOTE
Illumina recommends using a 20 µl single channel or multichannel pipette
set to 10.5 µl to perform two consecutive transfers of 10.5 µl to reduce
sample loss by ensuring that all of the liquid is transferred without
disturbing the beads.
9
36
Add 4 µl Elute Target Buffer 2 to each well of the NEC1 plate containing samples to
neutralize the elution.
Part # 15043291 Rev. A
11 Centrifuge the NEC1 plate to 280 xg for 1 minute.
12 Store the remaining reagents as follows:
a Place the Elute Target Buffer 2 and Streptavidin Magnetic Beads tubes in 2° to 8°C
storage.
b Place the 2N NaOH, Enrichment Elution Buffer 1, and Enrichment Wash Solution
tubes in -15° to -25°C storage.
c Discard any remaining elution pre-mix.
TruSight Rapid Capture Sample Preparation Guide
37
Second Capture
10 Mix thoroughly as follows:
a Seal the NEC1 plate with a Microseal ‘B’ adhesive seal.
b Shake the NEC1 plate on a microplate shaker at 1800 rpm for 1 minute.
Protocol
Capture Sample Clean Up
This process uses Sample Purification Beads to purify the captured library prior to PCR
amplification.
Consumables
Item
Quantity
Storage
Supplied By
Resuspension Buffer (RSB)
1 tube
2° to 8°C
Illumina
Sample Purification Beads (SPB)
1 tube
2° to 8°C
Illumina
96-well HSP plate
1
15° to 30°C
User
Freshly prepared 80% ethanol
(EtOH)
400 µl per sample
15° to 30°C
User
Microseal 'B' adhesive seals
3
15° to 30°C
User
Preparation
} Make sure that the Resuspension Buffer and Sample Purification Beads are at room
temperature.
} Label a new 96-well HSP plate NEA (Nextera Enrichment Amplification) with a
smudge resistant pen.
Procedure
38
1
Remove the adhesive seal from the NEC1 plate.
2
Vortex the Sample Purification Beads tube until the beads are well dispersed, then add
45 µl of the well-mixed Sample Purification Beads to each well of the NEC1 plate.
3
Mix thoroughly as follows:
a Seal the NEC1 plate with a Microseal ‘B’ adhesive seal.
b Shake the NEC1 plate on a microplate shaker at 1800 rpm for 1 minute.
4
Incubate the NEC1 plate at room temperature for 10 minutes.
5
Centrifuge the NEC1 plate to 280 xg for 1 minute.
Part # 15043291 Rev. A
Remove the adhesive seal from the NEC1 plate.
7
Place the NEC1 plate on the magnetic stand for 2 minutes or until the liquid appears
clear.
8
Remove and discard all of the supernatant from each well of the NEC1 plate.
NOTE
Leave the NEC1 plate on the magnetic stand while performing the
following 80% EtOH wash steps (9–11).
9
With the NEC1 plate remaining on the magnetic stand, slowly add 200 µl of freshly
made 80% EtOH to each well without disturbing the beads. Wait 30 seconds.
10 Remove and discard the 80% EtOH from each well of the NEC1 plate.
11 Repeat steps 9 and 10 once for a total of two 80% EtOH washes.
12 Using a 20 µl single channel or multichannel pipette, remove any remaining
80% EtOH from each well of the NEC1 plate without disturbing the beads.
13 Let the NEC1 plate stand at room temperature for 10 minutes to dry on the magnetic
stand.
14 Remove the NEC1 plate from the magnetic stand.
15 Add 27.5 µl of Resuspension Buffer to each well of the NEC1 plate. Do not touch the
beads with the pipette tips.
16 Mix thoroughly as follows:
a Seal the NEC1 plate with a Microseal ‘B’ adhesive seal.
b Shake the NEC1 plate on a microplate shaker at 1800 rpm for 1 minute.
17 Incubate the NEC1 plate at room temperature for 2 minutes.
18 Centrifuge the NEC1 plate to 280 xg for 1 minute.
19 Remove the adhesive seal from the NEC1 plate.
20 Place the NEC1 plate on the magnetic stand for 2 minutes or until the liquid appears
clear.
TruSight Rapid Capture Sample Preparation Guide
39
Capture Sample Clean Up
6
Protocol
21 Transfer 25 µl of clear supernatant from each well of the NEC1 plate to the
corresponding well of the new HSP plate labeled NEA. Take care not to disturb the
beads.
NOTE
Illumina recommends using a 20 µl single channel or multichannel pipette
set to 12.5 µl to perform two consecutive transfers of 12.5 µl to reduce
sample loss by ensuring that all of the liquid is transferred without
disturbing the beads.
SAFE STOPPING POINT
If you do not plan to proceed to Second PCR Amplification on page 41
immediately, the protocol can be safely stopped here. If you are stopping, seal
the NEA plate with a Microseal ‘B’ adhesive seal and store it at -15° to -25°C for
up to seven days.
40
Part # 15043291 Rev. A
This process amplifies the captured library via a 12-cycle PCR program. It is critical to use
the full amount of recommended input DNA and not add extra PCR cycles to ensure
libraries produce high-quality sequencing results.
Consumables
Item
Quantity
Storage
Supplied By
Nextera Enrichment
Amplification Mix (NEM)
1 tube
-15° to -25°C
Illumina
PCR Primer Cocktail (PPC)
1 tube
-15° to -25°C
Illumina
Microseal 'A' film
1
15° to 30°C
User
Microseal 'B' adhesive seal
1
15° to 30°C
User
Preparation
} Remove the Nextera Enrichment Amplification Mix and PCR Primer Cocktail from
-15° to -25°C storage and thaw on ice.
• Briefly centrifuge the thawed Nextera Enrichment Amplification Mix and PCR
Primer Cocktail tubes for 5 seconds.
NOTE
If you do not intend to consume the Nextera Enrichment Amplification Mix and
PCR Primer Cocktail in one use, dispense the reagents into single use aliquots
and freeze in order to avoid repeated freeze thaw cycles.
} Remove the NEA plate from -15° to -25°C storage, if it was stored at the conclusion of
Second Capture and thaw on ice.
• Centrifuge the thawed NEA plate to 280 xg for 1 minute.
• Remove the adhesive seal from the thawed NEA plate.
TruSight Rapid Capture Sample Preparation Guide
41
Second PCR Amplification
Second PCR Amplification
Protocol
} Pre-program the thermal cycler with the following program and save as NEM AMP:
• Choose the pre-heat lid option and set to 100°C
• 98°C for 30 seconds
• 12 cycles of:
— 98°C for 10 seconds
— 60°C for 30 seconds
— 72°C for 30 seconds
• 72°C for 5 minutes
• Hold at 10°C
NOTE
Illumina has optimized the number of recommended PCR cycles for enrichment
assays based upon the level of pre-enrichment sample pooling and the size of
the oligonucleotide set. Do not add or reduce the cycles of PCR, as it may
compromise data quality.
Procedure
1
Add 5 µl of PCR Primer Cocktail to each well of the NEA plate.
2
Add 20 µl of Nextera Enrichment Amplification Mix to each well of the NEA plate.
3
Mix thoroughly as follows:
a Seal the NEA plate with a Microseal ‘A’ film. Use an adhesive seal roller to apply
force to the film and make sure the film is secured.
b Shake the NEA plate on a microplate shaker at 1200 rpm for 1 minute
4
Centrifuge the NEA plate to 280 xg for 1 minute.
5
Place the sealed NEA plate on the pre-programmed thermal cycler. Close the lid, then
select and run the NEM AMP program.
SAFE STOPPING POINT
If you do not plan to immediately proceed to Second PCR Clean Up on page 43, the
NEA plate can remain on the thermocycler overnight. If you are stopping, replace the
Microseal 'A' with a Microseal 'B' adhesive seal and store the NEA plate at 2° to 8°C
for up to two days.
42
Part # 15043291 Rev. A
This process uses Sample Purification Beads to purify the enriched library and remove
unwanted products.
Consumables
Item
Quantity
Storage
Supplied By
Resuspension Buffer (RSB)
1 tube
2° to 8°C
Illumina
Sample Purification Beads (SPB)
1 tube
2° to 8°C
Illumina
96-well HSP plate
1
15° to 30°C
User
96-well MIDI plate
1
15° to 30°C
User
Freshly prepared 80% ethanol
(EtOH)
400 µl per sample
15° to 30°C
User
Microseal 'B' adhesive seals
3
15° to 30°C
User
Preparation
} Review Best Practices for Handling Magnetic Beads. See Additional Resources on page 4
for information on how to access TruSight Rapid Capture Best Practices on the
Illumina website.
} Make sure that the Resuspension Buffer and Sample Purification Beads are at room
temperature.
} Remove the NEA plate from 2° to 8°C storage, if it was stored at the conclusion of
Second PCR Amplification and let stand to bring to room temperature.
} Label a new 96-well MIDI plate NEC2 (Nextera Enriched Clean Up 2) with a smudge
resistant pen.
} Label a new 96-well HSP plate NES (Nextera Enrichment Sample) with a smudge
resistant pen.
TruSight Rapid Capture Sample Preparation Guide
43
Second PCR Clean Up
Second PCR Clean Up
Protocol
Procedure
1
Centrifuge the NEA plate to 280 xg for 1 minute.
2
Remove the adhesive seal from the NEA plate.
3
Transfer the entire contents from each well of the NEA plate to the corresponding well
of the new 96-well MIDI plate labeled NEC2.
4
Vortex the Sample Purification Beads until the beads are well dispersed, then add 90 µl
of the well-mixed Sample Purification Beads to each well of the NEC2 plate containing
50 µl of the PCR amplified library.
5
Mix thoroughly as follows:
a Seal the NEC2 plate with a Microseal ‘B’ adhesive seal.
b Shake the NEC2 plate on a microplate shaker at 1800 rpm for 1 minute.
6
Incubate the NEC2 plate at room temperature for 10 minutes.
7
Centrifuge the NEC2 plate to 280 xg for 1 minute.
8
Remove the adhesive seal from the NEC2 plate.
9
Place the NEC2 plate on the magnetic stand at room temperature for 2 minutes or until
the liquid appears clear.
10 Carefully remove and discard all of the supernatant from each well of the NEC2 plate.
NOTE
Leave the NEC2 plate on the magnetic stand while performing the
following 80% EtOH wash steps (11–13).
11 With the NEC2 plate remaining on the magnetic stand, slowly add 200 µl of freshly
prepared 80% EtOH to each well without disturbing the beads. Wait 30 seconds.
12 Remove and discard the 80% EtOH from each well of the NEC2 plate.
13 Repeat steps 11–12 once for a total of two 80% EtOH washes.
14 Using a 20 µl single channel or multichannel pipette, remove any remaining
80% EtOH from each well of the NEC2 plate without disturbing the beads.
15 Let the NEC2 plate stand at room temperature for 10 minutes to dry on the magnetic
stand.
16 Remove the NEC2 plate from the magnetic stand.
44
Part # 15043291 Rev. A
18 Mix thoroughly as follows:
a Seal the NEC2 plate with a Microseal ‘B’ adhesive seal.
b Shake the NEC2 plate on a microplate shaker at 1800 rpm for 1 minute.
19 Incubate the NEC2 plate at room temperature for 2 minutes.
20 Centrifuge the NEC2 plate to 280 xg for 1 minute.
21 Remove the adhesive seal from the NEC2 plate.
22 Place the NEC2 plate on the magnetic stand for 2 minutes or until the liquid appears
clear.
23 Transfer 30 µl of clear supernatant from each well of the NEC2 plate to the
corresponding well of the new HSP plate labeled NES. Take care not to disturb the
beads.
NOTE
Illumina recommends using a 20 µl single channel or multichannel pipette
set to 15 µl to perform two consecutive transfers of 15 µl to reduce sample
loss by ensuring that all of the liquid is transferred without disturbing the
beads.
24 Seal the NES plate with a Microseal ‘B’ adhesive seal.
SAFE STOPPING POINT
If you do not plan to immediately proceed to Validate Library on page 46, store the
sealed NES plate at -15° to -25°C for up to seven days. If the plate is stored for more
than seven days, re-quantify your library to guarantee the accuracy of your
enrichment results.
TruSight Rapid Capture Sample Preparation Guide
45
Second PCR Clean Up
17 Add 32 µl of Resuspension Buffer to each well of the NEC2 plate. Do not touch the
beads with the pipette tips.
Protocol
Validate Library
Illumina recommends performing the following procedures for quality control analysis and
quantification of your enriched library.
Quantify Libraries
In order to achieve the highest data quality on Illumina sequencing platforms, it is
important to create optimum cluster densities across every lane of every flow cell. This
requires accurate quantitation of DNA library templates.
Quantify the post-enriched library in the NES plate using a fluorometric method. See DNA
Quantitation on page 68 for an example protocol using the Promega QuantiFluor method.
Alternatively, you can quantitate libraries using qPCR according to the Sequencing Library
qPCR Quantification Guide (part # 11322363).
NOTE
You can download the Sequencing Library qPCR Quantification Guide from the
Illumina website at support.illumina.com/sequencing/kits.ilmn.
Click TruSight Rapid Capture Sample Prep Kit Support. Then click
Documentation & Literature on TruSight Rapid Capture Sample Prep
Kit Support.
NOTE
Use the following formula to convert from ng/µl to nM. Assume a 400 bp library size or
calculate based on the average size of the enriched library:
(concentration in ng/µl)
(660 g/mol *average library size)
x 10^6
= concentration in nM
x 10^6
= 57 nM
For example:
15 ng/µl)
(660 g/mol *400)
Assess Quality [Optional]
To assess library quality, load 1 µl of the post-enriched library on an Agilent Technologies
2100 Bioanalyzer using a Agilent DNA High Sensitivity Chip. Depending on the level of
indexing, an initial dilution of your sample may be necessary. For a 12-plex pool, Illumina
recommends a 1:10 dilution of your sample prior to loading.
46
Part # 15043291 Rev. A
Figure 5 Example TruSight Rapid Capture Post-Enrichment (12-plex Enrichment) Library
Distribution
NOTE
A second minor peak at ~100 bp may be present and and likely corresponds
to residual single-stranded probes in the sample. The presence of these
residual probes will not impact downstream clustering and sequencing of
your enriched sample.
TruSight Rapid Capture Sample Preparation Guide
47
Validate Library
Check the size of the library, which should produce a distribution of DNA fragments with
a size range from approximately 200 bp—1 kb. Depending on the level of indexing, insert
size distribution may vary slightly, however the sample peak should not be significantly
shifted compared to the example in Figure 5.
Protocol
Sequence Library
Proceed to cluster generation. For more information, see the cluster generation section of the
user guide for your Illumina platform.
} When quantifying a TruSight Rapid Capture post-enriched library using a fluorometric
method, clustering at 8–12 pM generates cluster densities in the range of 750,000—
950,000 clusters/mm2. Results may vary based on your method of quantification.
Illumina recommends that you determine the library concentration to cluster density
relationship based on your lab instrumentation.
} A short sequencing run on a MiSeq® can also be performed to optimize cluster density
prior to performing a high density sequencing run.
} TruSight Rapid Capture prepared libraries contain dual 8 bp indexes. Depending on
the combination of indexes used in your library pool, configure the sequencing run for
either single or dual 8 bp index reads. See the Low-Plex Pooling Guidelines on page 65
for additional information.
} When clustering TruSight Rapid Capture libraries on the cBot™ and sequencing on the
HiSeq 1000/2000, GAIIx, or in High Output mode on the HiSeq 1500/2500, new primers
are required whether performing a non-indexed, single-indexed, or dual-indexed run.
Use the TruSeq Dual Index Sequencing Primer Kit for Paired End runs (catalog # PE121-1003), which is good for a single run and contains the required primers for
sequencing (HP10, HP11, HP12). These primers are included with MiSeq and HiSeq
1500/2500 rapid run reagent kits.
} For sequencing TruSight Rapid Capture libraries, Illumina recommends a paired-end
150-cycle sequencing run. Due to the library sizes generated in TruSight Rapid Capture,
sequencing at longer read lengths can lead to an increase in the likelihood of
sequencing into the flanking adapter sequence.
48
Part # 15043291 Rev. A
Appendix A Supporting Information
Introduction
Acronyms
Kit Contents
Consumables and Equipment
Index Sequences
Low-Plex Pooling Guidelines
DNA Quantitation
TruSight Rapid Capture Sample Preparation Guide
50
51
53
60
64
65
68
49
Appendix A
Supporting Information
Supporting Information
Introduction
The protocols described in this guide assume that you are familiar with the contents of this
appendix, have confirmed your kit contents, and have obtained all of the requisite
equipment and consumables.
50
Part # 15043291 Rev. A
Acronyms
Acronyms
Table 2 TruSight Rapid Capture Acronyms
Acronym
Definition
dsDNA
Double-stranded DNA
EE1
Enrichment Elution Buffer 1
EHB
Enrichment Hybridization Buffer
ET2
Elute Target Buffer 2
EWS
Enrichment Wash Solution
gDNA
Genomic DNA
HP3
2N NaOH
HSP
Hard Shell Plate
NEA
Nextera Enrichment Amplification Plate
NEC1
Nextera Enriched Clean Up Plate 1
NEC2
Nextera Enriched Clean Up Plate 2
NEH1
Nextera Enrichment Hyb Plate 1
NEH2
Nextera Enrichment Hyb Plate 2
NEM
Nextera Enrichment Amplification Mix
NES
Nextera Enrichment Sample Plate
NEW1
Nextera Enrichment Wash Plate 1
NEW2
Nextera Enrichment Wash Plate 2
NLA
Nextera Library Amplification Plate
NLC
Nextera Library Clean Up Plate
TruSight Rapid Capture Sample Preparation Guide
51
Supporting Information
52
Acronym
Definition
NLM
Nextera Library Amplification Mix
NLS
Nextera Library Sample Plate
NLT
Nextera Library Tagment Plate
PCR
Polymerase Chain Reaction
PPC
PCR Primer Cocktail
RCO
Rapid Capture Oligos
RFU
Relative Fluorescence Unit
RSB
Resuspension Buffer
SMB
Streptavidin Magnetic Beads
SPB
Sample Purification Beads
ST
Stop Tagment Buffer
TD
Tagment DNA Buffer
TDE1
Tagment DNA Enzyme 1
Part # 15043291 Rev. A
Check to make sure that you have all of the reagents identified in this section before
proceeding to the sample preparation procedures. TruSight Rapid Capture kits are
available in the following configurations.
Table 3 TruSight Rapid Capture Kits
Kit Name
Catalog #
*TG Catalog #
TruSight Rapid Capture Kit (1 Index, 8 Samples)
FC-140-1101
TG-140-1101
TruSight Rapid Capture Kit (2 Indices, 8 Samples)
FC-140-1102
TG-140-1102
TruSight Rapid Capture Kit (4 Indices, 16 Samples)
FC-140-1103
TG-140-1103
TruSight Rapid Capture Kit (24 Indices, 48 Samples)
FC-140-1104
TG-140-1104
TruSight Rapid Capture Kit (24 Indices, 96 Samples)
FC-140-1105
TG-140-1105
TruSight Rapid Capture Kit (96 Indices, 288 Samples)
FC-140-1106
TG-140-1106
NOTE
*TG-labeled consumables include features intended to help reduce the frequency of
revalidation. They are available only under supply agreement and require you to
provide a binding forecast. Please contact your account manager for more
information.
Note regarding biomarker patents and other patents unique to specific uses of
products.
Some genomic variants, including some nucleic acid sequences, and their use in
specific applications may be protected by patents. Customers are advised to determine
whether they are required to obtain licenses from the party that owns or controls such
patents in order to use the product in customer's specific application.
TruSight Rapid Capture Sample Preparation Guide
53
Kit Contents
Kit Contents
Supporting Information
TruSight Rapid Capture Kit Contents
(1 Index, 8 Samples) (FC-140-1101, TG-140-1101)
Box 1
Quantity
1
4
1
1
Acronym
SPB
SMB
ET2
ST
Reagent Name
Sample Purification Beads
Streptavidin Magnetic Beads
Elute Target Buffer 2
Stop Tagment Buffer
Storage Temperature
2° to 8°C
2° to 8°C
2° to 8°C
15° to 30°C
Acronym
TDE1
EE1
TD
RSB
NLM
EHB
EWS
HP3
PPC
NEM
Reagent Name
Tagment DNA Enzyme
Enrichment Elution Buffer 1
Tagment DNA Buffer
Resuspension Buffer
Nextera Library Amplification Mix
Enrichment Hybridization Buffer
Enrichment Wash Solution
2N NaOH
PCR Primer Cocktail
Nextera Enrichment Amplification Mix
Storage Temperature
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
Box 2
Quantity
2
2
2
1
1
2
2
1
1
4
Box 3
Quantity
1 tube
1 tube
54
Reagent Name
Index Primer, E501
Index Primer, N701
Storage Temperature
-15° to -25°C
-15° to -25°C
Part # 15043291 Rev. A
Box 1
Quantity
1
2
1
1
Acronym
SPB
SMB
ET2
ST
Reagent Name
Sample Purification Beads
Streptavidin Magnetic Beads
Elute Target Buffer 2
Stop Tagment Buffer
Storage Temperature
2° to 8°C
2° to 8°C
2° to 8°C
15° to 30°C
Acronym
TDE1
EE1
TD
RSB
NLM
EHB
EWS
HP3
PPC
NEM
Reagent Name
Tagment DNA Enzyme
Enrichment Elution Buffer 1
Tagment DNA Buffer
Resuspension Buffer
Nextera Library Amplification Mix
Enrichment Hybridization Buffer
Enrichment Wash Solution
2N NaOH
PCR Primer Cocktail
Nextera Enrichment Amplification Mix
Storage Temperature
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
Box 2
Quantity
1
1
1
1
1
1
1
1
1
2
Box 3
Quantity
1 tube
2 tubes
Reagent Name
Index Primer, E501
Index Primer, N701 to N702
TruSight Rapid Capture Sample Preparation Guide
Storage Temperature
-15° to -25°C
-15° to -25°C
55
Kit Contents
TruSight Rapid Capture Kit Contents
(2 Indices, 8 Samples) (FC-140-1102, TG-140-1102)
Supporting Information
TruSight Rapid Capture Kit Contents
(4 Indices, 16 Samples) (FC-140-1103, TG-140-1103)
Box 1
Quantity
1
2
1
1
Acronym
SPB
SMB
ET2
ST
Reagent Name
Sample Purification Beads
Streptavidin Magnetic Beads
Elute Target Buffer 2
Stop Tagment Buffer
Storage Temperature
2° to 8°C
2° to 8°C
2° to 8°C
15° to 30°C
Acronym
TDE1
EE1
TD
RSB
NLM
EHB
EWS
HP3
PPC
NEM
Reagent Name
Tagment DNA Enzyme
Enrichment Elution Buffer 1
Tagment DNA Buffer
Resuspension Buffer
Nextera Library Amplification Mix
Enrichment Hybridization Buffer
Enrichment Wash Solution
2N NaOH
PCR Primer Cocktail
Nextera Enrichment Amplification Mix
Storage Temperature
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
Box 2
Quantity
1
1
1
1
1
1
1
1
1
2
Box 3
Quantity
1 tube
4 tubes
56
Reagent Name
Index Primer, E501
Index Primer, N701 to N704
Storage Temperature
-15° to -25°C
-15° to -25°C
Part # 15043291 Rev. A
Box 1
Quantity
2
2
1
1
Acronym
SPB
SMB
ET2
ST
Reagent Name
Sample Purification Beads
Streptavidin Magnetic Beads
Elute Target Buffer 2
Stop Tagment Buffer
Storage Temperature
2° to 8°C
2° to 8°C
2° to 8°C
15° to 30°C
Acronym
TDE1
EE1
TD
RSB
NLM
EHB
EWS
HP3
PPC
NEM
Reagent Name
Tagment DNA Enzyme
Enrichment Elution Buffer 1
Tagment DNA Buffer
Resuspension Buffer
Nextera Library Amplification Mix
Enrichment Hybridization Buffer
Enrichment Wash Solution
2N NaOH
PCR Primer Cocktail
Nextera Enrichment Amplification Mix
Storage Temperature
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
Box 2
Quantity
2
1
1
1
2
1
1
1
1
2
Box 3
Quantity
2 tubes
12 tubes
Reagent Name
Index Primer, E501 to E502
Index Primers, N701 to N712
TruSight Rapid Capture Sample Preparation Guide
Storage Temperature
-15° to -25°C
-15° to -25°C
57
Kit Contents
TruSight Rapid Capture Kit Contents
(24 Indices, 48 Samples) (FC-140-1104, TG-140-1104)
Supporting Information
TruSight Rapid Capture Kit Contents
(24 Indices, 96 Samples) (FC-140-1105, TG-140-1105)
Box 1
Quantity
4
4
1
1
Acronym
SPB
SMB
ET2
ST
Reagent Name
Sample Purification Beads
Streptavidin Magnetic Beads
Elute Target Buffer 2
Stop Tagment Buffer
Storage Temperature
2° to 8°C
2° to 8°C
2° to 8°C
15° to 30°C
Acronym
TDE1
EE1
TD
RSB
NLM
EHB
EWS
HP3
PPC
NEM
Reagent Name
Tagment DNA Enzyme
Enrichment Elution Buffer 1
Tagment DNA Buffer
Resuspension Buffer
Nextera Library Amplification Mix
Enrichment Hybridization Buffer
Enrichment Wash Solution
2N NaOH
PCR Primer Cocktail
Nextera Enrichment Amplification Mix
Storage Temperature
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
Box 2
Quantity
4
1
2
1
4
2
2
1
1
4
Box 3
Quantity
2 tubes
12 tubes
58
Reagent Name
Index Primer, E501 to E502
Index Primers, N701 to N712
Storage Temperature
-15° to -25°C
-15° to -25°C
Part # 15043291 Rev. A
Box 1
Quantity
12
12
3
3
Acronym
SPB
SMB
ET2
ST
Reagent Name
Sample Purification Beads
Streptavidin Magnetic Beads
Elute Target Buffer 2
Stop Tagment Buffer
Storage Temperature
2° to 8°C
2° to 8°C
2° to 8°C
15° to 30°C
Acronym
TDE1
EE1
TD
RSB
NLM
EHB
EWS
HP3
PPC
NEM
Reagent Name
Tagment DNA Enzyme
Enrichment Elution Buffer 1
Tagment DNA Buffer
Resuspension Buffer
Nextera Library Amplification Mix
Enrichment Hybridization Buffer
Enrichment Wash Solution
2N NaOH
PCR Primer Cocktail
Nextera Enrichment Amplification Mix
Storage Temperature
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
-15° to -25°C
Box 2
Quantity
12
3
6
1
12
6
6
3
3
12
Box 3
Quantity
8 tubes
12 tubes
Reagent Name
Index Primer, E501 to E508
Index Primers, N701 to N712
TruSight Rapid Capture Sample Preparation Guide
Storage Temperature
-15° to -25°C
-15° to -25°C
59
Kit Contents
TruSight Rapid Capture Kit Contents
(96 Indices, 288 Samples) (FC-140-1106, TG-140-1106)
Supporting Information
Consumables and Equipment
Check to ensure that you have all of the necessary user-supplied consumables and
equipment before proceeding to the sample preparation and enrichment procedures.
NOTE
The TruSight Rapid Capture protocol has been optimized and validated using
the items listed below. Comparable performance is not guaranteed when using
alternate consumables and equipment.
Table 4 User-Supplied Consumables
60
Consumable
Supplier
1.7 ml microcentrifuge tubes
General lab supplier
20 µl barrier pipette tips
General lab supplier
20 µl multichannel pipettes
General lab supplier
20 µl single channel pipettes
General lab supplier
200 µl barrier pipette tips
General lab supplier
200 µl multichannel pipettes
General lab supplier
200 µl single channel pipettes
General lab supplier
1000 µl barrier pipette tips
General lab supplier
1000 µl multichannel pipettes
General lab supplier
1000 µl single channel pipettes
General lab supplier
Adhesive seal roller
General lab supplier
96-well flat clear bottom black microplates
Note: Used when quantifying samples with a SpectraMax M5
spectrofluorometer.
Corning, part # 3904
96-well storage plates, round well,
0.8 ml (“MIDI” plate)
Fisher Scientific,
part # AB-0859
Part # 15043291 Rev. A
Supplier
Hard-Shell 96-well PCR Plates (“HSP” plate)
Bio-Rad,
part # HSP-9601
Aluminum foil
General lab supplier
[Optional] Amicon Ultra-0.5 centrifugal filter unit (0.5 ml, 30 kDa)
Note: Used to concentrate a pooled library. Another option is to use a
vacuum concentrator.
Millipore, part # UFC503008
Conical centrifuge tubes (15 ml or 50 ml)
General lab supplier
Distilled water
General lab supplier
Ethanol 200 proof (absolute)
for molecular biology (500 ml)
Sigma Aldrich,
part # E7023
Microseal ‘A’ film
BioRad,
part # MSA-5001
Microseal ‘B’ adhesive seals
BioRad,
part # MSB-1001
RNase/DNase-free 8-well PCR strip tubes and caps
General lab supplier
RNase/DNase-free multichannel reagent reservoirs, disposable
VWR,
part # 89094-658
Tris-Cl 10 mM, pH 8.5
General lab supplier
[Optional] TruSeq Index Plate Fixture Kit
Note: Recommended for setting up indexed PCR primers. This part is
reusable.
Illumina, catalog #
FC-130-1005
Ultra pure water
General lab supplier
Table 5 User-Supplied Equipment
Equipment
Supplier
[Optional] 2100 Bioanalyzer Desktop System
Agilent,
part # G2940CA
TruSight Rapid Capture Sample Preparation Guide
61
Consumables and Equipment
Consumable
Supporting Information
62
Equipment
Supplier
[Optional] DNA 1000 Chip
Agilent, part # 5067-1504
[Optional] High Sensitivity DNA Chip
Agilent, part # 4067-4626
DNA Engine Multi-Bay Thermal Cycler
See Thermal Cyclers on page 63.
Bio-Rad, part # PTC-0240G or
PTC-0220G,
with Alpha Unit,
part # ALS-1296GC
High Speed Micro Plate Shaker
VWR, catalog # • 13500-890
(110V/120V) or
• 14216-214 (230V)
Magnetic stand-96
Life Technologies,
part # AM10027
Microcentrifuge
General lab supplier
Microplate centrifuge
General lab supplier
MIDI plate insert for heating system
Illumina, catalog #
BD-60-601
QuantiFluor dsDNA System
or similar fluorometric-based DNA quantification system
Promega, catalog #
E2670
SpectraMax M5 spectrofluorometer
or similar fluorometric-based DNA quantification system
Molecular Devices,
part # 0112-0159
Tru Temp Microheating System
Illumina, catalog #
• SC-60-503 (115V) or
• SC-60-504 (220V)
[Optional] Vacuum concentrator
Note: Used to concentrate a pooled library. Another option is to use
Amicon Ultra-0.5 centrifugal filter units.
General lab supplier
Vortexer
General lab supplier
Part # 15043291 Rev. A
The following table lists the recommended settings for the Illumina recommended thermal
cycler, as well as other comparable models. Validate any thermal cyclers not listed below if
your lab has not yet performed the TruSight Rapid Capture protocol.
Thermal Cycler
Temp Mode
Lid Temp
Vessel Type
Bio-Rad DNA Engine
Tetrad 2
Calculated
Heated, Constant
at 100°C
Polypropylene plates
and tubes
MJ Research DNA
Engine Tetrad
Calculated
Heated
Plate
Eppendorf Mastercycler
Pro S
Gradient S,
Simulated Tube
Heated
Plate
TruSight Rapid Capture Sample Preparation Guide
63
Consumables and Equipment
Thermal Cyclers
Supporting Information
Index Sequences
The following list of index sequences is provided for generating sample sheets to
demultiplex the samples. A dual indexing strategy uses two 8 base indices, Index 1 (i7)
adjacent to the P7 sequence, and Index 2 (i5) adjacent to the P5 sequence. Dual indexing is
enabled by adding a unique Index 1 (i7) and Index 2 (i5) to each sample from 12 different
Index 1 (i7) adapters (N701–N712) and two different Index 2 (i5) adapters (E501 and E502).
In the Index adapter name, the N refers to Nextera, the E refers to enrichment, 7 or 5 refers
to Index 1 (i7) or Index 2 (i5), respectively, and 01–12 refers to the Index number.
Table 6 TruSight Rapid Capture Index Adapter Sequences
Index 1 (i7)
Sequence
Index 2 (i5)
Sequence
N701
TAAGGCGA
E501
TAGATCGC
N702
CGTACTAG
E502
CTCTCTAT
N703
AGGCAGAA
N704
TCCTGAGC
N705
GGACTCCT
N706
TAGGCATG
N707
CTCTCTAC
N708
CAGAGAGG
N709
GCTACGCT
N710
CGAGGCTG
N711
AAGAGGCA
N712
GTAGAGGA
NOTE
While the E500 series Index 2 (i5) sequences in the TruSight Rapid Capture kits are
identical to S500 series Index 2 (i5) sequences in other kits, the Index 2 (i5) adapters
are not interchangeable across kits.
64
Part # 15043291 Rev. A
Follow these guidelines when pooling less than 6 libraries. Illumina uses a green laser to
sequence G/T and a red laser to sequence A/C. At each cycle at least one of two nucleotides
for each color channel need to be read to ensure proper registration. It is important to
maintain color balance for each base of the index read being sequenced, otherwise index
read sequencing could fail due to registration failure. Follow the instructions described here
to determine which libraries are pooled pre-enrichment.
The TruSight Rapid Capture kits support pre-enrichment pooling of up to 12 different
indexed samples. Illumina recommends the following:
} For pooling 12 samples pre-enrichment, pool samples with Index 1 (i7) 701–712 (any
Index 2 (i5)), followed by a single-index sequencing run.
} For pooling <12 samples, set up a single index workflow sequencing run using
different Index 1 (i7) indices (any Index 2 (i5)). Illumina provides compatible i5 indices
in this kit, but when pooling less than 6 i7 indices use the combinations in Table 7 for
proper color balancing.
} See Table 8 for pooling details when using both Index 1 (i7) and Index 2 (i5), followed
by a dual indexed sequencing run.
NOTE
Illumina provides enough reagents to pool 12 samples at a time. If you choose to
pool less than 12 samples during the enrichment, the reagents provided in your kit
may not support the number of samples as noted on the kit box.
NOTE
There is sufficient volume in each Index 1 (i7) tube for 16 reactions and in each Index 2
(i5) tube for 24 reactions. Plan your experiment accordingly so you do not to run out
of index primers.
TruSight Rapid Capture Sample Preparation Guide
65
Low-Plex Pooling Guidelines
Low-Plex Pooling Guidelines
Supporting Information
Table 7 Libraries Pooled: 6 or Fewer; Sequencing Workflow: Single Index
Plex
Index 1 (i7) Selection
Index 2 (i5) Selection
1-plex (no
pooling)
Any Index 1 adapter
Any Index 2 adapter
2-plex
• [option 1] N702 and N701
• [option 2] N702 and N704
3-plex
• [option 1] N701, N702, and N704
• [option 2] N703, N705, and N706
4- or 5-plex
• [option 1] N701, N702, N704,
and any other Index 1 adapter
• [option 2] N703, N705, N706,
and any other Index 1 adapter
6-plex
N701, N702, N703, N704, N705,
and N706
Table 8 Sequencing Workflow: Single or Dual Index
66
Plex
Index 1 (i7) Selection
Index 2 (i5) Selection
7–12 plex, Dual
Index
• [option 1] N701, N702, N704,
and any other Index 1 adapter
(as needed)
• [option 2] N703, N705, N706,
and any other Index 1 adapter
(as needed)
E501 and E502
7–12 plex,
Single Index
• N701–N706 and any other Index
1 adapter (as needed)
Any Index 2 (i5) adapter
Part # 15043291 Rev. A
Sample
Good Index 1
Bad Index 1
1
701
TAAGGCGA
702
CGTACTAG
2
702
CGTACTAG
703
AGGCAGAA
3
704
TCCTGAGC
711
AAGAGGCA
√√√√√√√√
x√xx√xx√
√=signal in both color
x=signal missing in one color channel
TruSight Rapid Capture Sample Preparation Guide
67
Low-Plex Pooling Guidelines
The table below is an example of the acceptable combinations for four pooled samples.
Alternatively, please check the real sequences of each index in Table 8 to make sure each
base position will have signal in both color channels for the index read. Both i5 indices
(E501 and E502) are compatible with each other
Supporting Information
DNA Quantitation
Illumina recommends the QuantiFluor dsDNA assay to quantitate dsDNA samples,
because it can quantitate small DNA volumes and measures DNA directly. Other
techniques may pick up contamination such as RNA and proteins. Illumina recommends
using a spectrofluorometer, because fluorometry provides DNA-specific quantification.
Spectrophotometry might also measure RNA and yield values that are too high.
Consumables
Item
Quantity
Storage
Supplied By
1X TE
as needed
15° to 30°C
User
96-well flat clear bottom black
microplates
2 per 96 samples
15° to 30°C
User
96-well MIDI plates
2 per 96 samples
15° to 30°C
User
Aluminum foil
as needed
15° to 30°C
User
Conical centrifuge tube
(15 ml or 50 ml)
1
15° to 30°C
User
Lambda DNA
as needed
2° to 8°C
User
Microseal 'B' adhesive seals
1 per microplate
+ 1 per MIDI plate
15° to 30°C
User
QuantiFluor dsDNA dye
as needed
2° to 8°C
User
RNase/DNase-free Reagent
Reservoir
1
15° to 30°C
User
Preparation
} Remove the QuantiFluor dsDNA dye from to 2° to 8°C and let stand at room
temperature for 60 minutes in a light-impermeable container.
} Label a new 96-well MIDI plate Lambda DNA Stock with a smudge resistant pen.
} Label a new 96-well MIDI plate DNA Stock with a smudge resistant pen.
} Label a new 96-well microplate Lambda DNA Quant with a smudge resistant pen.
68
Part # 15043291 Rev. A
1
Add stock Lambda DNA to well A1 in the MIDI plate labeled Lambda DNA Stock and
dilute it to 1 ng/µl in a final volume of 300 µl. Pipette up and down several times.
a Use the following formula to calculate the amount of stock Lambda DNA to add to
A1:
(300 µl) X (1 ng/µl)
(stock Lambda DNA
concentration)
b
2
=
µl of stock Lambda DNA to add to A1
Dilute the stock DNA in well A1 using the following formula:
(300 µl) - (µl of stock Lambda DNA in well A1) = µl of 1X TE to add to A1
Add 150 µl 1X TE to well B, C, D, E, F, G, and H of column 1 of the Lambda DNA
Stock plate.
Figure 6 Dilution of Stock Lambda DNA Standard
3
Transfer 150 µl of Lambda DNA from well A1 into well B1. Pipette up and down
several times to mix.
TruSight Rapid Capture Sample Preparation Guide
69
DNA Quantitation
Make Lambda DNA Stock Plate
Supporting Information
4
Transfer 150 µl of liquid from well B1 into well C1. Pipette up and down several times
to mix.
5
Repeat the transfer for wells D1, E1, F1, and G1, changing tips each time. Do not
transfer from well G1 to H1.Well H1 serves as the blank 0 ng/µl Lambda DNA.
Table 9 Concentrations of Lambda DNA
Row-Column
Concentration
(ng/µl)
Final Volume in
Well (µl)
A1
1
150
B1
0.5
150
C1
0.25
150
D1
0.125
150
E1
0.0625
150
F1
0.03125
150
G1
0.015625
300
H1
0
150
Figure 7 Serial Dilutions of Lambda DNA
70
Part # 15043291 Rev. A
Seal the Lambda DNA Stock plate with a Microseal ‘B’ adhesive seal.
Make DNA Stock Plate
1
In the MIDI plate labeled DNA Stock, prepare the appropriate dilutions of your DNA
samples using 1X TE. For accuracy, Illumina recommends measuring each sample in
triplicate. Make sure at least 50 µl of diluted sample is prepared for quantification with
the QuantiFluor dsDNA dye. If performing replicate measurements, scale appropriately.
Illumina recommends the following dilution, depending on the DNA sample. This
dilution may need to be adjusted depending on sample quality. Do one of the
following:
• For high quality gDNA, dilute your samples 1:1000. For example: 2 µl of gDNA +
1998 µl of 1X TE.
• For pre-enriched Nextera libraries, dilute your libraries 1:200. For example: 2 µl of
library sample + 398 µl of 1X TE.
• For post-enriched Nextera 12-plex exome capture libraries, Illumina recommends a
1:100 dilution. For example: 2 µl of post-enriched library + 198 µl of 1X TE.
• For post-enriched Nextera custom capture libraries, the appropriate dilution is
based on total targeted region size and the level of indexing.
2
Mix thoroughly as follows:
a Cover the DNA Stock plate with a lid.
b Shake the DNA Stock plate on a microplate shaker at 1200 rpm for 1 minute.
3
Centrifuge the DNA Stock plate to 280 xg for 1 minute
Dilute QuantiFluor dsDNA Dye
1
Prepare a 1:200 dilution of QuantiFluor dsDNA dye into 1X TE using a conical
centrifuge tube wrapped in aluminum foil.
For accuracy, Illumina recommends running each sample and standard in triplicate.
For each measurement 40 µl of diluted QuantiFluor dye is required. Scale as
appropriate.
NOTE
Quantifluor dsDNA dye is often still crystallized at room temperature.
Before use, visually verify that the dye is fully thawed and liquid.
2
Cap the foil-wrapped tube and vortex to mix.
TruSight Rapid Capture Sample Preparation Guide
71
DNA Quantitation
6
Supporting Information
Make Lambda DNA Quant Plate
1
Pour the diluted QuantiFluor dsDNA dye/1X TE into a clean reagent reservoir.
2
Using a multi-channel pipette, transfer 40 µl of diluted QuantiFluor dsDNA dye/1X TE
into each well of columns 1–3 of the microplate labeled Lambda DNA Quant.
3
Transfer 40 µl of each stock Lambda DNA dilution from the Lambda DNA Stock plate
to columns 1–3 of the Lambda DNA Quant plate.
Figure 8 Lambda DNA Quant Plate with QuantiFluor dsDNA Dye/1X TE
72
4
Mix thoroughly as follows:
a Cover the Lambda DNA Quant plate with a lid.
b Shake the Lambda DNA Quant plate on a microplate shaker at 1200 rpm for 1
minute.
5
Centrifuge the Lambda DNA Quant plate to 280 xg for 1 minute
6
Protect the Lambda DNA Quant plate from light until it is read by the
spectrofluorometer.
Part # 15043291 Rev. A
1
Using a multichannel pipette, transfer 40 µl QuantiFluor dsDNA reagent/1X TE
dilution to each well of the microplate labeled DNA Quant that will contain a sample.
2
Remove the lid from the DNA Stock plate
3
Transfer 40 µl of each DNA sample in the DNA Stock plate to the corresponding well
of the DNA Quant plate containing QuantiFluor dsDNA reagent/1X TE.
4
Mix thoroughly as follows:
a Cover the DNA Quant plate with a lid.
b Shake the DNA Quant plate on a microplate shaker at 1200 rpm for 1 minute.
5
Centrifuge the DNA Quant plate to 280 xg for 1 minute
6
Protect the DNA Quant plate from light until it is read by the spectrofluorometer.
Read Quantitation Plate
1
Turn on the spectrofluorometer.
2
At the PC, open the SoftMax Pro program.
3
Measure fluorescence (485 nm Ex / 538 nm Em) of both the Lambda DNA Quant and
DNA Quant plates according to the spectrofluorometer/software recommendations.
4
Calculate the DNA concentration of your unknown samples using the fluorescence
values determined from step as follows:
a Calculate the average relative fluorescence units (RFU) of the Lambda DNA
standards run in triplicate on the Lambda DNA Quant plate.
b Calculate an Adjusted RFU by subtracting the RFU of the blank Lambda DNA
standard (0 ng/µl) Row H from all unknown and standard samples.
c Create a scatter plot of the Lambda DNA standard curve values with the Adjusted
RFU on the Y axis and DNA concentration (ng/µl) on the X axis.
d Determine the equation of the line for the Lambda DNA standard curve values
which will be in the format of y = mx + b is equivalent to RFU =
(slope*concentration) + y_int.
e Calculate the concentration for each unknown sample by using the RFU for each
sample for y in the equation and determining the value for x in ng/µl.
TruSight Rapid Capture Sample Preparation Guide
73
DNA Quantitation
Make DNA Quant Plate
Supporting Information
f
g
Multiply the resulting concentration by the appropriate dilution factor.
Use the following formula to convert from ng/µl to nM. Assume a 400 bp library
size or calculate based on the average size (insert + adapters) of the enriched
library as determined by a Agilent Technologies 2100 Bioanalyzer trace:
(concentration in ng/µl)
(660 g/mol *average library size)
x 10^6
= concentration in nM
x 10^6
= 57 nM
For example:
15 ng/µl)
(660 g/mol *400)
74
Part # 15043291 Rev. A
For technical assistance, contact Illumina Technical Support.
Table 10 Illumina General Contact Information
Illumina Website
Email
www.illumina.com
[email protected]
Table 11 Illumina Customer Support Telephone Numbers
Region
Contact Number
Region
North America
1.800.809.4566
Italy
Austria
0800.296575
Netherlands
Belgium
0800.81102
Norway
Denmark
80882346
Spain
Finland
0800.918363
Sweden
France
0800.911850
Switzerland
Germany
0800.180.8994
United Kingdom
Ireland
1.800.812949
Other countries
Contact Number
800.874909
0800.0223859
800.16836
900.812168
020790181
0800.563118
0800.917.0041
+44.1799.534000
MSDSs
Material safety data sheets (MSDSs) are available on the Illumina website at
www.illumina.com/msds.
Product Documentation
Product documentation in PDF is available for download from the Illumina website. Go
to www.illumina.com/support, select a product, then click Documentation & Literature.
TruSight Rapid Capture Sample Preparation Guide
75
Technical Assistance
Technical Assistance
Illumina
San Diego, California, U.S.A.
+1.800.809.ILMN (4566)
+1.858.202.4566 (outside North America)
[email protected]
www.illumina.com
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