breseq version 0.33.1 revision 8505477f25b3
mutation predictions | marginal predictions | summary statistics | genome diff | command line log |
read file | reads | bases | passed filters | average | longest | mapped | |
---|---|---|---|---|---|---|---|
errors | Glu_KHP_A10_F418_I2_R1_S19_L008_R1_001.good.fq | 5,647,980 | 559,150,020 | 100.0% | 99.0 bases | 99 bases | 96.4% |
errors | Glu_KHP_A10_F418_I2_R1_S19_L008_R2_001.good.fq | 5,527,311 | 547,203,789 | 100.0% | 99.0 bases | 99 bases | 92.6% |
total | 11,175,291 | 1,106,353,809 | 100.0% | 99.0 bases | 99 bases | 94.5% |
seq id | length | fit mean | fit dispersion | % mapped reads | description | ||
---|---|---|---|---|---|---|---|
coverage | distribution | NC_000913 | 4,641,652 | 222.3 | 2.7 | 100.0% | Escherichia coli str. K-12 substr. MG1655, complete genome. |
total | 4,641,652 | 100.0% |
fit dispersion is the ratio of the variance to the mean for the negative binomial fit. It is =1 for Poisson and >1 for over-dispersed data.
option | limit | actual |
---|---|---|
Number of alignment pairs examined for constructing junction candidates | ≤ 100000 | 100015 |
Coverage evenness (position-hash) score of junction candidates | ≥ 2 | ≥ 3 |
Test this many junction candidates (n). May be smaller if not enough passed the coverage evenness threshold | 100 ≤ n ≤ 5000 | 736 |
Total length of all junction candidates (factor times the reference genome length) | ≤ 0.1 | 0.033 |
reference sequence | pr(no read start) |
---|---|
NC_000913 | 0.42614 |
pr(no read start) is the probability that there will not be an aligned read whose first base matches a given position on a given strand.
option | value |
---|---|
Coverage evenness (position-hash) score of predicted junctions must be | ≥ 3 |
Skew score of predicted junction (−log10 probability of unusual coverage evenness) must be | ≤ 3 |
Number of bases that at least one read must overlap each uniquely aligned side of a predicted junction | ≥ 1 |
option | value |
---|---|
Mode | Consensus/Mixed Base |
Ploidy | 1 (haploid) |
Consensus mutation E-value cutoff | 10 |
Consensus frequency cutoff | 0.75 |
Consensus minimum variant coverage each strand | OFF |
Consensus minimum total coverage each strand | OFF |
Consensus minimum variant coverage | OFF |
Consensus minimum total coverage | OFF |
Polymorphism E-value cutoff | 10 |
Polymorphism frequency cutoff | 0.2 |
Polymorphism minimum variant coverage each strand | OFF |
Polymorphism minimum total coverage each strand | OFF |
Polymorphism minimum variant coverage | OFF |
Polymorphism minimum total coverage | OFF |
Polymorphism bias cutoff | OFF |
Predict indel polymorphisms | YES |
Skip indel polymorphisms in homopolymers runs of | OFF |
Skip base substitutions when they create a homopolymer flanked on each side by | OFF |
program | version |
---|---|
bowtie2 | 2.3.4.1 |
R | 3.4.4 |
step | start | end | elapsed |
---|---|---|---|
Read and reference sequence file input | 06:19:14 23 May 2019 | 06:21:01 23 May 2019 | 1 minute 47 seconds |
Read alignment to reference genome | 06:21:02 23 May 2019 | 06:40:00 23 May 2019 | 18 minutes 58 seconds |
Preprocessing alignments for candidate junction identification | 06:40:00 23 May 2019 | 06:42:10 23 May 2019 | 2 minutes 10 seconds |
Preliminary analysis of coverage distribution | 06:42:10 23 May 2019 | 06:46:41 23 May 2019 | 4 minutes 31 seconds |
Identifying junction candidates | 06:46:41 23 May 2019 | 06:50:15 23 May 2019 | 3 minutes 34 seconds |
Re-alignment to junction candidates | 06:50:15 23 May 2019 | 06:56:24 23 May 2019 | 6 minutes 9 seconds |
Resolving best read alignments | 06:56:24 23 May 2019 | 07:00:08 23 May 2019 | 3 minutes 44 seconds |
Creating BAM files | 07:00:08 23 May 2019 | 07:04:11 23 May 2019 | 4 minutes 3 seconds |
Tabulating error counts | 07:04:11 23 May 2019 | 07:05:45 23 May 2019 | 1 minute 34 seconds |
Re-calibrating base error rates | 07:05:45 23 May 2019 | 07:05:46 23 May 2019 | 1 second |
Examining read alignment evidence | 07:05:46 23 May 2019 | 07:21:56 23 May 2019 | 16 minutes 10 seconds |
Polymorphism statistics | 07:21:56 23 May 2019 | 07:21:58 23 May 2019 | 2 seconds |
Output | 07:21:58 23 May 2019 | 07:22:40 23 May 2019 | 42 seconds |
Total | 1 hour 3 minutes 25 seconds |