Oxford Nanopore Sequencing
Transcript of Oxford Nanopore Sequencing
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Oxford Nanopore Sequencing
Juna Lee
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Outline
• Technology Introduction
• Current Experience:
o Overview of ONT library types
o Sequencing Run Performance
o Application: Mini Mock Metagenome
• Future Directions
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Nanopore Sequencing
Source: Oxford Nanopore Technologies
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ONT Sequencing
Source: Oxford Nanopore Technologies
No polymerase or amplification needed à as long as DNA intact, long reads possible
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Simple Library Preparation
motor protein
tether oligo
Source: Oxford Nanopore Technologies
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nanopore
tether
leader sequence
motor protein
hairpin
Nanopore Sequencing
Source: Jain et al., Nature Methods 2015
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Flow Cell Layout
512 sequencing channels à each channel sequences multiple molecules
Source: Oxford Nanopore Technologies
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Cloud-Based Data Processing
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Outline
• Technology Introduction
• Current Experience:
o Overview of ONT library types
o Sequencing Run Performance
o Application: Mini Mock Metagenome
• Future Directions
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Library Types
Run Statistic 8kb Standard 8kb Low Input 20kb Input 1µg 100ng 15µg
Yield (Mb) 406 Mb 303 Mb 537 Mb # Reads 57K 37K 26K
Mean Size 7263 bp 8524 bp 21310 bp
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0
100
200
300
400
500
Yiel
d (M
b)
Review of Runs – Yield (Mb)
MAP006 Sequencing Kit
For Ref: PacBio 1-10Gb; Illumina 10-1000Gb
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High Error Rate • Percent ID = ~ 83%
– Note: Illumina >99%, PacBio ~ 85% • Substitutions > Insertions > Deletions
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ONT Minimal GC Coverage Bias
Species P. heparinus E. coli M. ruber GC content 42% 51% 63%
Illumina ONT
Percent GC
20 40 60 80
0.0
0.4
0.8
1.2
Percent GC 20 40 60 80
0.0
0.4
0.8
1.2
Nor
mal
ized
Cov
erag
e
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Incorrect GC Calls at Extremes
Reference GC%
Undercalls high GC
Overcalls low GC
30 40 50 60 70
35
40
45
50
55
60
65
Bas
ecal
led
GC
%
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Application: Mini Mock Metagenome • 4 organisms pooled in equimolar amounts
– GC content from 40% to 70% -- 2 organisms with GC content > 60% • 8 kb library constructed and sequenced
Run Statistic Amount Yield (Mb) 458 Mb # Reads 77K
Mean Size 7723 bp Median Size 7674 bp
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ONT: Conclusions and Considerations
• 8kb Protocol Modifications Yield 20kb+ Libraries – Consistent and robust protocol performance
• 100ng Low-Input Protocol Provides Similar Yields
• Yields and Read Lengths from Mini Mock Metagenome Similar to Single Organisms
• Currently Higher Error Rate in Extreme GC Content
• Yet, Minimal GC Coverage Bias Observed
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Outline
• Technology Introduction
• Current Experience:
o Overview of ONT library types
o Sequencing Run Performance
o Application: Mini Mock Metagenome
• Future Directions
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Future Directions
• Protocol development and applications: – Ex. longer read lengths – Ex. complex metagenome communities
• New ONT protocols: – New sequencing chemistry (R9) – faster speed, more accurate
basecaller – Sequencing of native RNA
• Software development: – minoTour analysis platform
• Monitor reads in each pore in real-time and reject reads that are unacceptable
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ONT Updates -- Hardware VOLTRAX • Automated sample preparation • 2016
PROMETHION • 300X greater throughput than
MinION • JGI early access site • 2016
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Director’s Call for Proposals
• Use ONT’s long-read sequencing capability for novel applications
• http://jgi.doe.gov/user-program-info/other-programs/
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Chia-Lin Wei Len Pennacchio Chee-Hong Wong Chris Daum Denis Tolkunov Matt Zane Rob Egan Volkan Sevim
Thanks to the JGI Nanopore Group