Skip to content

Latest commit

 

History

History
377 lines (248 loc) · 18.5 KB

README.md

File metadata and controls

377 lines (248 loc) · 18.5 KB

moFF

Build Status


Introduction

moFF is an OS independent tool designed to extract apex MS1 intensity using a set of identified MS2 peptides. It currently uses a Thermo library to directly extract data from Thermo Raw spectrum files, eliminating the need for conversions from other formats. Moreover, moFF also allows to work directly with mzML files.

moFF is built up from two modules :

  • moff_mbr.py : match between run (mbr)
  • moff.py: apex intensity

NOTE : Please use moff_all.py script to run the entire pipeline with both MBR and apex strategies.

The version presented here is a commandline tool that can easily be adapted to a cluster environment. A graphical user interface can be found here. The latter is designed to be able to use PeptideShaker results as an input format. Please refer to the moff-GUI manual for more information on how to do this.

install with bioconda

moFF is also available on bioconda. To install with conda, use the following command:

conda install -c bioconda moff

This automatically installs all dependencies. Note that bioconda only supports 64-bit macOS and Linux.

Top of page


moFF Publication:


Minimum Requirements

Required python libraries :

  • Python 3.6+
  • pandas > 0.23
  • numpy > 1.15.0
  • argparse > 1.2.1
  • scipy 1.1.0
  • scikit-learn > 0.19
  • pymzML > 2.0.3
  • brain-isotopic-distribution > 1.3.2
  • pyteomics > 3.5

Required linux library:

  • Mono version 4.2.1

Required windows library:

  • .NET Framework 4.6.2

Optional requirements : -when using PeptideShaker results as a source, a PeptideShaker installation (http://compomics.github.io/projects/peptide-shaker.html) needs to be availabe.

During processing, moFF makes use of a third party algorithm (txic_json.exe) which allows for the parsing of the Thermo RAW data.

Top of page


Input Data

moFF requires two types of input for the quantification procedure :

  • Thermo RAW file or mzML file
  • MS2 identified peptide information

The MS2 identified peptides can be presented as a tab-delimited file containing mimimal (mandatory) annotation for each peptide (a)

(a) The tab-delimited file must contain the following information for all the peptides:

  • 'peptide' : peptide-spectrum-match sequence
  • 'prot' : protein ID
  • 'mod_peptide' : peptide-spectrum-match sequence that contains also possible modification (i.e NH2-M<Mox>LTKFESK-COOH )
  • 'rt': peptide-spectrum-match retention time (i.e the retention time contained in the mgf file; The retention time must be specified in second)
  • 'mz' : mass over charge
  • 'mass' : mass of the peptide
  • 'charge' : charge of the ionized peptide

NOTE 1 : In case the tab-delimited file provided by the user contains fields that are not mentioned here (i.e petides length, search engines score) the algorithm will retain these in the final output. The peptide-spectrum-match sequence with its modications and the protein id and informations are used only in the match-between-run module.

NOTE 2 : Users can also provide the default PSM export provided by PeptideShaker as source material for moFF.

Top of page


Sample data

The sample_folder contains a result set for 3 runs of the CPTAC study 6 (Paulovich, MCP Proteomics, 2010). These MS2 peptides are identified by X!Tandem and MSGF+ using SearchGUI and then processed by PeptidesShaker. The raw files for this study are required to apply moFF to the sample data.

Top of page


Absence of Peak Sample Data

To evaluate the filtering of the matched peak, we provide a data set composed by 4 runs :

File name iRT yeast
B002413_Ap_22cm_Yeast_171215184201 x
B002417_Ap_22cm_iRT_PRC-Hans_equimolar_100fmol x
B002419_Ap_22cm_iRT_PRC-Hans_equimolar_100fmol_inYeast x x
B002421_Ap_22cm_iRT_PRC-Hans_equimolar_100fmoll x

Run B002413 does not contain iRT peptides and it works as controll. No iRT peptides are expected after the matching-between-runs across all four runs.

To test the filter of the matched peak, you can follow the steps:

  • clone the moFF repository
  • download the .zip file that contains all Thermo raw file from here
  • unzip it inside the folder absence_peak_data
  • check the input/output paths in the coinfiguration_iRT.ini

then you an run moFF using:

python moff_all.py --config_file absense_peak_data/config_iRT.ini to run mbr + apex and filtering function

Top of page


Match between runs

use : python moff_all.py -mbr only

  --loc_in                      the folder where the input files are located
  --sample                      reg exp to filter the input file names (only with --loc_in input option-
  --ext                         file extention of the input file. Default .txt)
  --log_label                   filename for the mbr log file. Default moFF_mbr
  --w_filt                      width value for outlier filtering. Default 3
  --out_flag                    if set, outliers for rt time allignment are filtered. Default value: True
  --w_comb                      if set, RT model combination is weighted using traing model errors: Default value: False

python moff_mbr.py --loc_in sample_folder/ --mbr only

This command runs the MBR modules. The output will be stored in a subfolder ('mbr_output') inside the specified input folder. The MBR module will consider all the .txt files present in the specified input folder as replicates (to select specific files or different extension, please refer to the example below). The files in sample_folder/mbr_output will be identical to the input files, but they will have an additional field ('matched') that specifies which peptides have match (1) or not (0). The MBR algorithm also produces a log file in the provided input directory.

Customizing Match between runs

In case of a different extension (.list, etc), please use :

python moff_mbr.py --loc_in sample_folder/ --ext list (Provide the extension without the period ('.'))

In case of using only specific input files within the provided directory, please use a regular expression:

python moff_mbr.py --loc_in sample_folder/ --sample *_6A (This can be combined with the aforementioned syntax)

You can set all the parameters values in a file and load them using --config_file. For an example see example_parameter_file.ini

Top of page


Apex intensity

use python moff_all.py -mbr off

  --loc_in                      the folder containing all input files
  --raw_repo                    the folder containing all the raw files
  --tsv_list                    the input file with for MS2 peptides
  --raw_list                    pecify directly the  raw file
  --tol                         mass tollerance (ppm)
  --xic_length                  rt windows for xic (minutes). Default value is 3  min
  --rt_peak_win                 time windows used to get the apex for the ms2 peptide/feature  (minutes). Default value is 1
  --rt_peak_win_match           time windows used to get the apex for machted features (minutes). Default value is 1.2
  --peptide_summary             flag that allows have as output the peptided summary intensity file. Default is disable(0)
  --tag_pepsum                  tag string that will be part of the  peptided summary intensity file name. Default is moFF_run
  --loc_out                     output folder
  --tag_pepsum                  a tag that is used in the peptide summary file name

  --match_filter                If set, filtering on the matched peak is activated. Default value: False
  --ptm_file                    modification json ptm file. Default file ptm_setting.json
  --quantile_thr_filtering      quantile value used to computed the filtering threshold for the matched peak . Default is 0.75
  --sample_size                 percentage of MS2 identified peptides used to estimated the threshold

You can run the apex module in two ways:

python moff_all.py --mbr off --tsv_list sample_folder/20080311_CPTAC6_07_6A005.txt --raw_list sample_folder/20080311_CPTAC6_07_6A005.RAW --tol 1O --loc_out output_moff --peptide_summary in this case you specify more than a file separated by a blanck space

In case you want to run the apex module on all the files in a folder (all so the raw files shold located in a foder)

python moff_all.py --mbr on --loc_in sample_folder/sample_data/ --raw_repo sample_folder/sample_data/your_raw_folder --tol 1O --loc_out output_moff --peptide_summary

You can activate the filtering of the matching peptides setting --match_filter. In order to do the filtering:

  • --ptm_file MUST be specified and input files MUST contain a matched field.

This option is useful in the case you have run the mbr module alone and later you want to run the apex module separately.

WARNING : in case of --loc_in and --raw_repo raw file names MUST be the same of the input file otherwise the script gives you an error !

WARNING 1 : you can not mixed the two input ways ( --loc_in / --raw_repo and --tsv_list / --raw_list ) otherwise the script gives you an error !

WARNING 2: mzML raw file MUST be only specified using --tsv_list | --raw_list. The --raw_repo option is not available for mzML files.

NOTE: all the parameters related to the the time windows (xic_lentgh,rt_peak_win, rt_peak_win_match) are basicaly the half of the entire time windows where the apex peak is searched or the XiC is retrieved. For a correct rt windows, we suggest to set the rt_peak_win value equal or slighly greater to the dynamic exclusion duration set in your machine. We suggest also to set the rt_peak_win_match always slightly bigger than tha values used for rt_peak_win

Top of page


Entire workflow

use python moff_all.py -mbr on

  --config_file                 specify a moFF parameter file
  --loc_in                      the folder containing all input files
  --raw_repo                    the folder containing all the raw files
  --tsv_list                    the input file with for MS2 peptides
  --raw_list                    pecify directly the  raw file

  --sample                      reg exp to filter the input file names (only with --loc_in input option-
  --ext                         file extention of the input file. Default .txt)
  --log_label                   filename for the mbr log file. Default moFF_mbr
  --w_filt                      width value for outlier filtering. Default 3
  --out_flag                    if set, outliers for rt time allignment are filtered. Default value: True
  --w_comb                      if set, RT model combination is weighted using traing model errors: Default value: False

  --tol                        mass tollerance (ppm)
  --xic_length                  rt windows for xic (minutes). Default value is 3  min
  --rt_peak_win                 time windows used to get the apex for the ms2 peptide/feature  (minutes). Default value is 1
  --rt_peak_win_match           time windows used to get the apex for machted features (minutes). Default value is 1.2
  --peptide_summary             if set, export a peptide intesity summary tab-delited file. Default value: False
  --tag_pepsum                  tag string that will be part of the  peptided summary intensity file name. Default value is moFF_run
  --loc_out                     output folder  default is the input folder, raw_repo)
   --tag_pepsum                  a tag that is used in the peptide summary file name

  --match_filter                If set, filtering on the matched peak is activated. Default value: False
  --ptm_file                    modification json ptm file. Default file ptm_setting.json
  --quantile_thr_filtering      quantile value used to computed the filtering threshold for the matched peak . Default is 0.75
  --sample_size                 percentage of MS2 identified peptides used to estimated the threshold

Like for the apex module, you input you input data specifing the folder :

python moff_all.py --mbr all --loc_in sample_folder/ --raw_repo sample_folder/ --tol 10 --loc_out output_moff --peptide_summary

OR, specifing a list of input and raw files using:

python moff_all.py --mbr all --tsv_list sample_folder/input_file1.txt sample_folder/input_file2.txt --raw_list sample_folder/input_file1.raw sample_folder/input_file2.raw --tol 10 --loc_out output_moff --peptide_summary

The options are identical for both apex and MBR modules. The output for the latter (MBR) is stored in the folder sample_folder/mbr_output, while the former (apex) generates files in the specified output_moff folder.Log files for both algorithms are generated in the respective folders.

In case you activate the filtering of the mached peptides you have to specify with --ptm_file a valid json file that describes the modificatiuon used in your experiment. See section

You can set all the parameters values in a file and load them using --config_file. For an example see example_parameter_file.ini

WARNING: Using --tsv_list | --raw_list you can not filterted the input file using --sample --ext like in the case with --loc_in | --raw_repo

WARNING: **mzML raw file MUST be specified using --tsv_list | --raw_list. The --raw_repo option is not available for mzML files.

NOTE: The consideration of retention time window parameters (xic_length,rt_peak_win,rt_peak_win_match) mentioned for apex module are stil valid also for the entire workflow

Top of page


Post Translation Modification file

The Post Translation Modificatio must be indicated in json file with the following structure :

{
"tagModification": {"deltaChem":[H atom, C atom, N atom ,O atom],"desc":"name unimod : unimod_id"},
}
  • "tagModification" : the tag used in modified sequence for the modification
  • "deltaChem":[H atom, C atom, N atom ,O atom] : the delta of chemical composition if the modification. The order of the elements is fixed, so pay attention when you add your modification
  • desc : name of the modification and its unimod id.

For example a ptm file (ptm_setting_ps.json) with Carboxyamidomethylation of Cysteine and Oxidation for PeptideShaker output looks like:

{
"<cmm>": {"deltaChem":[3,2,1,1],"desc":"Carboxyamidomethylation C unimod:4"},
"<ox>": {"deltaChem":[0,0,0,1],"desc":"oxidation oxidation unimod:35" }
}

Top of page


Docker

One you have cloned or downloaded moFF repository, inside the moFF folder you can build docker with the the command

docker build . -t moff

Inside the docker you can run moFF with all commands showed above. Run example with the apex module:

docker run -v /home/user/data:/data_input -i -t moff python moff_all.py --tsv_list /data_input/input_file.tab --raw_list /data_input/input_file.raw --tol 10 --rt_peak_win 1 --xic_length 3 --loc_out /data_input/output folder --mbr off

Top of page


Output data

The output consists of :

  • a tab delimited file (with the same name of the input raw file) containing the apex intensity values and additional information (a)
  • a log file specific to the apex module (b) or the MBR module (c)
  • peptide summary intensity file (when peptide summary option is enabled) (d)

(a) Description of the fields added by moFF in the output file:

Parameter Meaning
rt_peak retention time (in seconds) for the discovered apex peak
SNR signal-to-noise ratio of the peak intensity.
log_L_R' peak shape. 0 indicates that the peak is centered. Positive or negative values are an indicator for respectively right or left skewness
intensity MS1 intensity
log_int log2 transformed MS1 intensity
lwhm first rt value where the intensity is at least the 50% of the apex peak intensity on the left side
rwhm first rt value where the intensity is at least the 50% of the apex peak intensity on the right side
5p_noise 5th percentile of the intensity values contained in the XiC. This value is used for the SNR computation
10p_noise 10th percentile of the intensity values contained in the XiC.
code_unique this field is concatenation of the peptide sequence and mass values. It is used by moFF during the match-between-runs.
matched this value indicated if the featured has been added by the match-between-run (1) or is a ms2 identified features (0)

(b) A log file is also provided containing the process output.

(c) A log file where all the information about all the trained linear model are displayed.

(d) The peptide summary intensity is a tab delimited file where for each peptide sequence MS1 intensities are summed for all the occurences in each run (aggregated by charge states and modification).

In case you run the entire workflow on an a settings that contains N runs, the size of the file (rows and columns) will be M x (N+2), where M is number of peptides (across all the runs) and N are summed intensity columns plus the peptide sequence and the protein ids. In case of running only the apex module, the size of the file will be on M x 3 (only one replicate is considered).

If a peptide is shared across several proteins, the protein column will also contains all the shared protein ids usually separed by ; or ,. In case a peptide is not quantified it has 0 as intensities. The peptide summary intensity could be used for downstream statistical analysis such as in MsQRob

NOTE : The log files and the output files are in the output folder specified by the user.

Go to top of page