Basics of Sequencing Technologies
PřF:E4014 Projekt z Matematické biologie a biomedicíny biomedicínská
bioinformatika
FI:IV110 Project in Sequence Analysis
FI:IV114 Projekt z bioinformatiky a systémové biologie
Vojtěch Bartoň
vojtech.barton@recetox.muni.cz
RECETOX, Masaryk University
September 29, 2024
Table of Contents
Basics of sequencing
Illumina Sequencing
Oxford Nanopore Sequencing
Comparison
General Processing of Sequencing Data
Summary
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Sequencing
Sequencing
DNA Sequencing
DNA sequencing is the process of determining the nucleic acid
sequence – the order of nucleotides in DNA.
Examples
Question: What’s it good for?
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Sequencing
Sequencing Technology
Figure: History of sequencing technology[1]
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Illumina
Illumina sequencing
NextGeneration sequencing technology
Sequencing by synthesis
Utilizing PCR
Widely used
Principle
https://youtu.be/fCd6B5HRaZ8?si=0Np6Q6pX4236HnvN
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Nanopore
Oxford Nanopore
Third generation of sequencing technology
Sequencing by ion stream disruption (electricity)
Long reads, real-time
Squiggle
Principle
https://youtu.be/RcP85JHLmnI?si=k732mK9liWV3gw5d
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Comparison
Comparison
Illumina Oxford Nanopore
Read length < 600 bp < 2 Mbp
Accuracy 99 % 87-98 %
Price per Gbp $ 40-60 (NextSeq) $ 50-200 (minION)
$ 10-35 (NovaSeq) $ 20-40 (PromethION)
Real-time ✓
Epigenomics (Special chemistry) ✓
Table: Comparison of technologies
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Processing
General workflow
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Processing
Basecalling
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Processing
Basecalling
Definition
Basecalling is the process of converting raw sequencing signals into a
nucleotide sequence (A, T, C, G).
Examples
Question: How is basecalling done for Illumina and Oxford Nanopore?
Fastq format
The FASTQ format is a text-based file format used to store both the raw
sequence data and the corresponding quality scores from sequencing.
Each entry consists of four lines:
1. Sequence identifier starting with @.
2. Raw nucleotide sequence (A, T, C, G).
3. + symbol, sometimes followed by the same identifier.
4. PHRED quality scores encoded as ASCII characters corresponding to
each nucleotide in the sequence.
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Processing
Fastq format
Examples
PHRED Score
The PHRED score is a quality score that indicates the accuracy of a
nucleotide base call in DNA sequencing, with higher scores
representing higher confidence and lower error probabilities.
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Processing
Quality control
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Processing
Quality control
Describe the quality of sequencing data
Set parameters of preprocessing (Trimming & Filtering)
Examples
Question: What quality parameters to assess?
Examples
Fastqc
Nanoplot
Fastp
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Processing
Assembly & Alignment
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Processing
Assembly & Alignment
DeNovo Assembly
De novo assembly is the process of constructing a genome sequence
from short DNA fragments without the use of a reference genome, by
assembling overlapping reads into longer contiguous sequences
(contigs).
Alignment
Mapping is the process of aligning sequencing reads to a reference
genome to determine the origin of each read and identify variations or
similarities.
Examples
DeNovo: SPADes
Mappers: Bowtie2, BWA
RNA Mappers: STAR (splice-aware mapping)
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Processing
SAM/BAM format
SAM/BAM format
SAM (Sequence Alignment/Map) and BAM (Binary Alignment/Map)
are file formats used to store aligned sequencing reads. Both include
information about the read sequences, their alignment positions,
mapping quality, and optional metadata.
Examples
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Processing
Alignment QC
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Processing
Alignment QC
Examples
Question: What parameters to collect?
Examples
Samtools
QualiMap
Picard tools
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Processing
Postprocessing
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Processing
Postprocessing
Depends on type of the experiment, quality of data, study design,
hypotheses, ...
Visualization
Integrated Genome Browser (IGV)
Feature Quantification
RNA-sequencing (genes), Metagenomics (bacteria)
Variant calling
Mutations, SNP, CNV
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Summary
Summary
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Summary
To Remember
Bioinformatics (and especially the sequencing bioinformatics) is
a very new field
No good books, no standards, nothing lasts forever, ... almost
everything is old and outdated!
Garbage in –> garbage out
If you do not understand the whole process you don’t know what
the results mean
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Summary
Keywords
Important terms
Sequencing, Illumina, Oxford Nanopore, Basecalling, Paired-end
sequencing, PCR, bridge PCR, Adapters, Index, Pooling,
Demultiplexing, Squiggle, Fasta, Fastq, SAM/BAM, DeNovo Assembly,
Alignment, Mapping, Splice-aware, Quality control, Filtering,
Trimming, Phred Score, SNP, Mutation, CNV, Workflow, ...
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