Wiki » History » Revision 15
Revision 14 (Katie Lennard, 09/22/2022 01:13 PM) → Revision 15/26 (Katie Lennard, 10/03/2022 11:07 AM)
# Wiki
# Data location:
The data was transferred from Athena medmicro):
```
/MedMicro/Clinton/CRE Pfizer Feb 2022/CRE study_1A_results_17022022
/MedMicro/Clinton/CRE Pfizer Feb 2022/CRE study_1B_results_21022022
```
to Ilifu:
```
/scratch3/users/katiel/Clinton/CRE_study_August_2022/
```
# Reference data:
Klebsiella pneumoniae – strain HS11286 (GenBank accession no. CP003200.1) (n=18);
Serratia marcescens – strain KS10 (GenBank accession no. CP027798.1) (n=3);
Escherichia coli – strain ATCC 25922 (GenBank accession no. CP009072.1) (n=1); and
Enterobacter cloacae – strain ATCC 13047 (GenBank accession no. NC_014121.1) (n=1).
```
/scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_genomes
```
# Objectives workflow:
![workflow.png]()
# QC:
11 sample failed QC phred scores before trimming and filtering; none failed after filtering and had to be rerun. trimming. Filtering and trimming were executed as follows:
```
nextflow run kviljoen/fastq_QC --reads '/scratch3/users/katiel/Clinton/CRE_study_August_2022/raw/study_1A_B_combined/*_R{1,2}_001.fastq.gz' -profile ilifu
```
QC reports can be found in the 'files' tab
The rerun data is under:
```
/scratch3/users/katiel/Clinton/CRE_study_August_2022/raw/'CRE study_1A_results_repeat_22092022'
```
# AMR profiling
The preference from Clinton is to do AMR profiling with the ResFinder DB. I'm getting errors there that I think relate to the header formatting though so in the interim have run with the ARG_annot DB that we used for previous projects as:
## ARGannot
```
nextflow run kviljoen/uct-srst2 --reads '/scratch3/users/katiel/Clinton/CRE_study_August_2022/2022-09-19-fastq_QC/bbduk/*_{1,2}.fq' -profile ilifu --gene_db /cbio/users/katie/Nicol/Ps_aerug_srst2_MLST/ARGannot_r3.fasta --outdir /scratch3/users/katiel/Clinton/CRE_study_August_2022/srst2_ARGannot/coverage_80_run --min_gene_cov 80
```
Individual results files compiled as:
```
srst2 --prev_output *results.txt --output ARGannot_AMRs
```
## CARD DB:
This database is the recommended by srst2 and has been formatted by them already. The DB was downloaded with:
```
wget https://github.com/katholt/srst2/blob/master/data/CARD_v3.0.8_SRST2.fasta?raw=true -O CARD_v3.0.8_SRST2.fasta
```
Pipeline execution as:
```
nextflow run kviljoen/uct-srst2 --reads '/scratch3/users/katiel/Clinton/CRE_study_August_2022/2022-09-19-fastq_QC/bbduk/*_{1,2}.fq' -profile ilifu --gene_db /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/CARD_v3.0.8_SRST2.fasta --outdir /scratch3/users/katiel/Clinton/CRE_study_August_2022/srst2_CARD/coverage_80_run --min_gene_cov 80
```
Individual results files compiled as:
```
srst2 --prev_output *results.txt --output CARD_AMRs
```
# Virulence factors
Building the relevant VFDB for Klebsiella requires a python script that needs the biopython module (use the /cbio/users/katie/singularity_containers/srst2_v2.simg singularity container for this)
NB: in order to use the correct python version (2.7.5) for srst2 I first had to comment out the lines at the end of my .bashrc file relating to conda initialize
Build genus-specific DB:
```
python /cbio/users/katie/Nicol/Ps_aerug_srst2_MLST/VFDB/srst2/database_clustering/VFDBgenus.py --infile /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/VFDB_setB_nt.fas --genus Klebsiella
```
was used to create the VF DB Klebsiella.fsa
The same procedure (as last year ;) was executed for Escherichia, Serratia and Enterobacter
cd-hit (needed to build vfdb as outlined here https://github.com/katholt/srst2#using-the-vfdb-virulence-factor-database-with-srst2) docker images was pulled from here https://quay.io/repository/biocontainers/cd-hit?tab=tags and converted to singularity image on BST server:
```
singularity exec /cbio/users/katie/singularity_containers/cd-hit.simg /bin/bash
```
then run CD-HIT to cluster the sequences for this genus, at 90% nucleotide identity:
```
cd-hit -i Klebsiella.fsa -o Klebsiella_cdhit90 -c 0.9 > Klebsiella_cdhit90.stdout
```
Repeat for other .fsa DBs
NExt parse the cluster output and tabulate the results using the specific Virulence gene DB compatible script (use srst2_v2.simg again)
```
python /cbio/users/katie/Nicol/Ps_aerug_srst2_MLST/VFDB/srst2/database_clustering/VFDB_cdhit_to_csv_KLedit.py --cluster_file Klebsiella_cdhit90.clstr --infile Klebsiella.fsa --outfile Klebsiella_cdhit90.csv
```
Next convert the resulting csv table to a SRST2-compatible sequence database using:
```
python /cbio/users/katie/Nicol/Ps_aerug_srst2_MLST/VFDB/srst2/database_clustering/csv_to_gene_db.py -t Klebsiella_cdhit90.csv -o Klebsiella_VF_clustered.fasta -s 5
```
The actual VF typing can now be done using this clustered DB:
```
nextflow run kviljoen/uct-srst2 --reads '/scratch3/users/katiel/Clinton/CRE_study_August_2022/2022-09-19-fastq_QC/bbduk/*_{1,2}.fq' -profile ilifu --gene_db /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/Klebsiella_VF_clustered.fasta --outdir /scratch3/users/katiel/Clinton/CRE_study_August_2022/srst2_VFs/coverage_80_run --min_gene_cov 80
```
Again combine individual sample results files with e.g.
```
srst2 --prev_output *genes* --output Klebsiella_VFs
```
# MLST
MLST profiles were downloaded for E. coli and K. pneumoniae as:
```
python /cbio/users/katie/Nicol/Ps_aerug_srst2_MLST/VFDB/srst2/scripts/getmlst.py --species 'Escherichia coli#1'
python /cbio/users/katie/Nicol/Ps_aerug_srst2_MLST/VFDB/srst2/scripts/getmlst.py --species 'Escherichia coli#2'
python /cbio/users/katie/Nicol/Ps_aerug_srst2_MLST/VFDB/srst2/scripts/getmlst.py --species 'Klebsiella pneumoniae'
```
Note: MLST profiles not available for Serratia marecescens or Enterobacter cloacae
MLST profiling execution:
```
nextflow run kviljoen/uct-srst2 --reads '/scratch3/users/katiel/Clinton/CRE_study_August_2022/2022-09-19-fastq_QC/bbduk/*_{1,2}.fq' -profile ilifu --mlst_definitions /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/Klebsiella_definitions --mlst_db /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/Klebsiella_pneumoniae.fasta --mlst_delimiter _ --outdir /scratch3/users/katiel/Clinton/CRE_study_August_2022/srst2_MLSTs/Klebsiella_MLSTs
```
```
nextflow run kviljoen/uct-srst2 --reads '/scratch3/users/katiel/Clinton/CRE_study_August_2022/2022-09-19-fastq_QC/bbduk/*_{1,2}.fq' -profile ilifu --mlst_definitions /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/E_coli_1_definitions --mlst_db /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/Escherichia_coli#1.fasta --mlst_delimiter _ --outdir /scratch3/users/katiel/Clinton/CRE_study_August_2022/srst2_MLSTs/E_coli1_MLSTs
```
```
nextflow run kviljoen/uct-srst2 --reads '/scratch3/users/katiel/Clinton/CRE_study_August_2022/2022-09-19-fastq_QC/bbduk/*_{1,2}.fq' -profile ilifu --mlst_definitions /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/E_coli_2_definitions --mlst_db /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/Escherichia_coli#2.fasta --mlst_delimiter _ --outdir /scratch3/users/katiel/Clinton/CRE_study_August_2022/srst2_MLSTs/E_coli2_MLSTs
```
## Rerun
11 samples had to be rerun that failed QC. Here I combine them (post-filter and -trim) with the rest of the samples that passed QC first time:
```
/scratch3/users/katiel/Clinton/CRE_study_August_2022/1A_B_plus_reruns_filtered_trimmed
```
# Data location:
The data was transferred from Athena medmicro):
```
/MedMicro/Clinton/CRE Pfizer Feb 2022/CRE study_1A_results_17022022
/MedMicro/Clinton/CRE Pfizer Feb 2022/CRE study_1B_results_21022022
```
to Ilifu:
```
/scratch3/users/katiel/Clinton/CRE_study_August_2022/
```
# Reference data:
Klebsiella pneumoniae – strain HS11286 (GenBank accession no. CP003200.1) (n=18);
Serratia marcescens – strain KS10 (GenBank accession no. CP027798.1) (n=3);
Escherichia coli – strain ATCC 25922 (GenBank accession no. CP009072.1) (n=1); and
Enterobacter cloacae – strain ATCC 13047 (GenBank accession no. NC_014121.1) (n=1).
```
/scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_genomes
```
# Objectives workflow:
![workflow.png]()
# QC:
11 sample failed QC phred scores before trimming and filtering; none failed after filtering and had to be rerun. trimming. Filtering and trimming were executed as follows:
```
nextflow run kviljoen/fastq_QC --reads '/scratch3/users/katiel/Clinton/CRE_study_August_2022/raw/study_1A_B_combined/*_R{1,2}_001.fastq.gz' -profile ilifu
```
QC reports can be found in the 'files' tab
The rerun data is under:
```
/scratch3/users/katiel/Clinton/CRE_study_August_2022/raw/'CRE study_1A_results_repeat_22092022'
```
# AMR profiling
The preference from Clinton is to do AMR profiling with the ResFinder DB. I'm getting errors there that I think relate to the header formatting though so in the interim have run with the ARG_annot DB that we used for previous projects as:
## ARGannot
```
nextflow run kviljoen/uct-srst2 --reads '/scratch3/users/katiel/Clinton/CRE_study_August_2022/2022-09-19-fastq_QC/bbduk/*_{1,2}.fq' -profile ilifu --gene_db /cbio/users/katie/Nicol/Ps_aerug_srst2_MLST/ARGannot_r3.fasta --outdir /scratch3/users/katiel/Clinton/CRE_study_August_2022/srst2_ARGannot/coverage_80_run --min_gene_cov 80
```
Individual results files compiled as:
```
srst2 --prev_output *results.txt --output ARGannot_AMRs
```
## CARD DB:
This database is the recommended by srst2 and has been formatted by them already. The DB was downloaded with:
```
wget https://github.com/katholt/srst2/blob/master/data/CARD_v3.0.8_SRST2.fasta?raw=true -O CARD_v3.0.8_SRST2.fasta
```
Pipeline execution as:
```
nextflow run kviljoen/uct-srst2 --reads '/scratch3/users/katiel/Clinton/CRE_study_August_2022/2022-09-19-fastq_QC/bbduk/*_{1,2}.fq' -profile ilifu --gene_db /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/CARD_v3.0.8_SRST2.fasta --outdir /scratch3/users/katiel/Clinton/CRE_study_August_2022/srst2_CARD/coverage_80_run --min_gene_cov 80
```
Individual results files compiled as:
```
srst2 --prev_output *results.txt --output CARD_AMRs
```
# Virulence factors
Building the relevant VFDB for Klebsiella requires a python script that needs the biopython module (use the /cbio/users/katie/singularity_containers/srst2_v2.simg singularity container for this)
NB: in order to use the correct python version (2.7.5) for srst2 I first had to comment out the lines at the end of my .bashrc file relating to conda initialize
Build genus-specific DB:
```
python /cbio/users/katie/Nicol/Ps_aerug_srst2_MLST/VFDB/srst2/database_clustering/VFDBgenus.py --infile /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/VFDB_setB_nt.fas --genus Klebsiella
```
was used to create the VF DB Klebsiella.fsa
The same procedure (as last year ;) was executed for Escherichia, Serratia and Enterobacter
cd-hit (needed to build vfdb as outlined here https://github.com/katholt/srst2#using-the-vfdb-virulence-factor-database-with-srst2) docker images was pulled from here https://quay.io/repository/biocontainers/cd-hit?tab=tags and converted to singularity image on BST server:
```
singularity exec /cbio/users/katie/singularity_containers/cd-hit.simg /bin/bash
```
then run CD-HIT to cluster the sequences for this genus, at 90% nucleotide identity:
```
cd-hit -i Klebsiella.fsa -o Klebsiella_cdhit90 -c 0.9 > Klebsiella_cdhit90.stdout
```
Repeat for other .fsa DBs
NExt parse the cluster output and tabulate the results using the specific Virulence gene DB compatible script (use srst2_v2.simg again)
```
python /cbio/users/katie/Nicol/Ps_aerug_srst2_MLST/VFDB/srst2/database_clustering/VFDB_cdhit_to_csv_KLedit.py --cluster_file Klebsiella_cdhit90.clstr --infile Klebsiella.fsa --outfile Klebsiella_cdhit90.csv
```
Next convert the resulting csv table to a SRST2-compatible sequence database using:
```
python /cbio/users/katie/Nicol/Ps_aerug_srst2_MLST/VFDB/srst2/database_clustering/csv_to_gene_db.py -t Klebsiella_cdhit90.csv -o Klebsiella_VF_clustered.fasta -s 5
```
The actual VF typing can now be done using this clustered DB:
```
nextflow run kviljoen/uct-srst2 --reads '/scratch3/users/katiel/Clinton/CRE_study_August_2022/2022-09-19-fastq_QC/bbduk/*_{1,2}.fq' -profile ilifu --gene_db /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/Klebsiella_VF_clustered.fasta --outdir /scratch3/users/katiel/Clinton/CRE_study_August_2022/srst2_VFs/coverage_80_run --min_gene_cov 80
```
Again combine individual sample results files with e.g.
```
srst2 --prev_output *genes* --output Klebsiella_VFs
```
# MLST
MLST profiles were downloaded for E. coli and K. pneumoniae as:
```
python /cbio/users/katie/Nicol/Ps_aerug_srst2_MLST/VFDB/srst2/scripts/getmlst.py --species 'Escherichia coli#1'
python /cbio/users/katie/Nicol/Ps_aerug_srst2_MLST/VFDB/srst2/scripts/getmlst.py --species 'Escherichia coli#2'
python /cbio/users/katie/Nicol/Ps_aerug_srst2_MLST/VFDB/srst2/scripts/getmlst.py --species 'Klebsiella pneumoniae'
```
Note: MLST profiles not available for Serratia marecescens or Enterobacter cloacae
MLST profiling execution:
```
nextflow run kviljoen/uct-srst2 --reads '/scratch3/users/katiel/Clinton/CRE_study_August_2022/2022-09-19-fastq_QC/bbduk/*_{1,2}.fq' -profile ilifu --mlst_definitions /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/Klebsiella_definitions --mlst_db /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/Klebsiella_pneumoniae.fasta --mlst_delimiter _ --outdir /scratch3/users/katiel/Clinton/CRE_study_August_2022/srst2_MLSTs/Klebsiella_MLSTs
```
```
nextflow run kviljoen/uct-srst2 --reads '/scratch3/users/katiel/Clinton/CRE_study_August_2022/2022-09-19-fastq_QC/bbduk/*_{1,2}.fq' -profile ilifu --mlst_definitions /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/E_coli_1_definitions --mlst_db /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/Escherichia_coli#1.fasta --mlst_delimiter _ --outdir /scratch3/users/katiel/Clinton/CRE_study_August_2022/srst2_MLSTs/E_coli1_MLSTs
```
```
nextflow run kviljoen/uct-srst2 --reads '/scratch3/users/katiel/Clinton/CRE_study_August_2022/2022-09-19-fastq_QC/bbduk/*_{1,2}.fq' -profile ilifu --mlst_definitions /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/E_coli_2_definitions --mlst_db /scratch3/users/katiel/Clinton/CRE_study_August_2022/ref_files/Escherichia_coli#2.fasta --mlst_delimiter _ --outdir /scratch3/users/katiel/Clinton/CRE_study_August_2022/srst2_MLSTs/E_coli2_MLSTs
```
## Rerun
11 samples had to be rerun that failed QC. Here I combine them (post-filter and -trim) with the rest of the samples that passed QC first time:
```
/scratch3/users/katiel/Clinton/CRE_study_August_2022/1A_B_plus_reruns_filtered_trimmed
```