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Quality Control of Illumina Data
Mick WatsonDirector of ARK-Genomics
The Roslin Institute
QUALITY SCORES
Quality scores• The sequencer outputs base calls at each position of a read• It also outputs a quality value at each position
– This relates to the probability that that base call is incorrect
• The most common Quality value is the Sanger Q score, or Phred score– Qsanger -10 * log10(p)– Where p is the probability that the call is incorrect– If p = 0.05, there is a 5% chance, or 1 in 20 chance, it is incorrect– If p = 0.01, there is a 1% chance, or 1 in 100 chance, it is incorrect– If p = 0.001, there is a 0.1% chance, or 1 in 1000 chance, it is incorrect
• Using the equation:– p=0.05, Qsanger = 13
– p=0.01, Qsanger = 20
– p=0.001, Qsanger = 30
For the geeks….• In R, you can investigate this:
sangerq <- function(x) {return(-10 * log10(x))}sangerq(0.05)sangerq(0.01)sangerq(0.001)
plot(seq(0,1,by=0.00001),sangerq(seq(0,1,by=0.00001)), type="l")
The plot
For the geeks….• And the other way round….
qtop <- function(x) {return(10^(x/-10))}qtop(30)qtop(20)qtop(13)
plot(seq(40,1,by=-1), qtop(seq(40,1,by=-1)), type="l")
The important stuff
• Q30 – 1 in 1000 chance base is incorrect• Q20 – 1 in 100 chance base is incorrect
QUALITY ENCODING
Quality Encoding• Bioinformaticians do not like to make your life easy!• Q scores of 20, 30 etc take two digits • Bioinformaticians would prefer they only took 1
• In computers, letters have a corresponding ASCII code:
• Therefore, to save space, we convert the Q score (two digits) to a single letter using this scheme
The process in full• p (probability base is wrong) : 0.01• Q (-10 * log10(p)) : 30• Add 33 : 63• Encode as character : ?
P Q Code
0.05 13 .
0.01 20 5
0.001 30 ?
For the geeks….
code2Q <- function(x) { return(utf8ToInt(x)-33) }code2Q(".")code2Q("5")code2Q("?")
code2P <- function(x) { return(10^((utf8ToInt(x)-33)/-10)) }code2P(".")code2P("5")code2P("?")
QC OF ILLUMINA DATA
FastQC• FastQC is a free piece of software• Written by Babraham Bioinformatics group• http://www.bioinformatics.babraham.ac.uk/projects/fastqc/• Available on Linux, Windows etc• Command-line or GUI
Read the documentationFollow the course notes
Per sequence quality• One of the most important plots from FastQC• Plots a box at each position• The box shows the distribution of quality values at that position across all
reads
Obvious problems
Less obvious problems
Really bad problems
Other useful plots
• Per sequence N content– May identify cycles that are unreliable
• Over-represented sequences– May identify Illumina adapters and primers