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{{attachment:GDE_logo.png}} ''' 2020-Novt-09''' | {{attachment:GDE_logo.png}} ''' 2020-Nov-26''' |
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'''''gxprep.py''''' support program, maintained and distributed by the Interbull Centre, allows easy transformation of typical laboratory output files to file formats ready for upload to !GenoEx-GDE database. | '''''gxprep.py''''' support program, maintained and distributed by the Interbull Centre, allows easy transformation of typical laboratory output files to file formats ready for upload to !GenoEx-GDE database. |
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||<tablewidth="570px"width="259px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">Genotyping laboratory ||<width="131px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">character ||<width="167px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">Weatherbys Ireland || | ||<tablewidth="570px"width="259px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">Genotyping laboratory ^7^ ||<width="131px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">character ||<width="167px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">Weatherbys Ireland || |
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||<tablewidth="570px"width="259px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">Array identifier^7^ ||<width="131px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">alphanumeric ||<width="167px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">54609_a || ||<tablewidth="570px"width="259px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">AB – Genotype for SNP Index 1 ^9^ ||<width="131px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">integer 1 ||<width="167px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">0 || ||<width="259px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">AB – Genotype for SNP Index 2 ^9^ ||<width="131px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">integer 1 ||<width="167px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">1 || ||<width="259px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">AB – Genotype for SNP Index … ^9^ ||<width="131px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">integer 1 ||<width="167px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">2 || ||<width="259px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">AB – Genotype for SNP Index n ^8,9^ ||<width="131px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">integer 1 ||<width="167px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">5 || |
||<tablewidth="570px"width="259px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">Array identifier ^8^ ||<width="131px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">alphanumeric ||<width="167px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">54609_a || ||<tablewidth="570px"width="259px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">AB – Genotype for SNP Index 1 ^10^ ||<width="131px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">integer 1 ||<width="167px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">0 || ||<width="259px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">AB – Genotype for SNP Index 2 ^10^ ||<width="131px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">integer 1 ||<width="167px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">1 || ||<width="259px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">AB – Genotype for SNP Index … ^10^ ||<width="131px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">integer 1 ||<width="167px" style="border-top:none;border-bottom:none;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0mm;padding-left:0mm;padding-right:0.49mm">2 || ||<width="259px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">AB – Genotype for SNP Index n ^9,10^ ||<width="131px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">integer 1 ||<width="167px" style="border-top:none;border-bottom:1.00pt solid #000000;border-left:none;border-right:1.00pt solid #000000;padding-top:0mm;padding-bottom:0.49mm;padding-left:0mm;padding-right:0.49mm">5 || |
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1. Array identifier, as reported at https://wiki.interbull.org/public/platforms_arrays?action=print | 1. Genotyping laboratory, among the ones listed in the "Laboratories" table available in the GenoEX-GDE System Data page https://genoex.org/display. If the laboratory is not listed in the table, a request should be sent to GenoEx@slu.se 1. Array identifier, one of the listed in the "SNP Arrays" table ("Code" column) available in the GenoEX-GDE System Data page https://genoex.org/display. |
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. • '''-h [HELP] ''' |
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. • '''-l [LAB] '''– Genotyping laboratory, among the ones listed in the "Laboratories" table available in the GenoEX-GDE System Data page https://genoex.org/display. If the laboratory is not listed in the table, a request should be sent to GenoEx@slu.se . • '''-s [SAMPLEMAP] '''– File mapping sample id to corresponding animal IDs. |
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is used to add or remove organizations from the list of the organizations allowed to download given genotype. This command only operates on the 711 file and thus ignores the 706 file, if present. sharing i | is used to add or remove organizations from the list of the organizations allowed to download given genotype. This command only operates on the 711 file and thus ignores the 706 file, if present. |
2020-Nov-26
GenoEx - GDE User’s manual v.1.0
part 1 - File Preparation Manual (gxprep.py)
GenoEx-GDE database allows exchange of large genomic data files with the use of specific file formats that allows significant reduction in the file size – 706 (see 1.1.).
gxprep.py support program, maintained and distributed by the Interbull Centre, allows easy transformation of typical laboratory output files to file formats ready for upload to GenoEx-GDE database.
This manual describes the usage of gxprep program showing step by step how to:
- prepare the files from raw laboratory outputs with the use gxprep program
- assign sharing permissions to genotypes, individuals, breeds etc
- change sharing permissions at any point of time
Contents
1. GenoEx-GDE upload files’ formats
Genoex-GDE allows upload of two types of files:
data file (format 706 – section 1.1)
sharing permissions file (format 711 – section 1.2)
Note: Both input files are prepared from the laboratory output files by the gxprep.py program (section 2). The program is also assigning an unique UUID identifier to each genotype allowing distinguishing between several records of one animal. Both file are delimited by semicolon.
1.1. File 706
This file contains the actual genomic data, as well as the information about the animal, genotyping laboratory and chip used for the genotyping.
Because typical genomic data contain a lot of information, data in this file is coded down to a single digit per SNP and single record per animal. Correctness of such coding requires SNPs to be written in certain order within the data stream, according to the SNP order list, where particular SNPs are recognized by name and given a position in the data stream. This coding, although allowing easy exchange of really large files, because of its dependency on the order, is unfortunately also prone to errors. Therefore, to ensure the highest data quality in the GenoEx-GDE database, we provide a program called gxprep that takes raw laboratory files with your data as input, fetches correct SNP order list from our servers and produces correctly ordered 706 file ready to be uploaded to the database. See section 2.
706 file format
Field Description |
Format |
Example |
Record type 1 |
integer 3 |
706 |
Breed of animal 4 |
character 3 |
BSW |
Country of first registration of animal 2 |
character 3 |
AUS |
Sex |
character 1 |
M |
ID number of animal 5 |
alphanumeric 12 |
000000A12345 |
Organization sending this information |
character |
ANAFI |
UUID 6 |
alphanumeric 36 |
assigned automatically by gxprep.py program |
Genotyping laboratory 7 |
character |
Weatherbys Ireland |
Sample ID |
alphanumeric |
S1234WI2001 |
Additional |
for future reference |
|
Array identifier 8 |
alphanumeric |
54609_a |
AB – Genotype for SNP Index 1 10 |
integer 1 |
0 |
AB – Genotype for SNP Index 2 10 |
integer 1 |
1 |
AB – Genotype for SNP Index … 10 |
integer 1 |
2 |
AB – Genotype for SNP Index n 9,10 |
integer 1 |
5 |
- Record type is always 706 for this File Format
- ISO 3166-1 alpha-3 codes (3 characters, capital letters)
- Breed of evaluation (3 characters, capital letters, BSW, GUE, HOL, JER, RDC, SIM)
- Breed of animal (3 characters, capital letters)
- Alpha-numerical, Interbull standard, always 12 characters long
UUID, one for every uploaded genotype sequence. Additional information about generation of UUID can be found at https://wiki.interbull.org/public/uuid?action=print
Genotyping laboratory, among the ones listed in the "Laboratories" table available in the GenoEX-GDE System Data page https://genoex.org/display. If the laboratory is not listed in the table, a request should be sent to GenoEx@slu.se
Array identifier, one of the listed in the "SNP Arrays" table ("Code" column) available in the GenoEX-GDE System Data page https://genoex.org/display.
- n is equal to the number of SNPs reported in the stem of the Array identifier
coded SNP values written as a continuous string.
Acceptable values depend on the Illumina coded allele values, according to the following:
BB→0 AB→1 AA→2 ‘unknown’→5
706 example
706;BSW;ITA;M;000000A12345;ANARB;09c98b1e-6af8-4254-9768-58d7cd1ddafd;Weatherbys Ireland;S1234WI2001;;54609_a;021010…
1.2. File 711
The function of 711 file is to set the permissions regarding who can have access to the data. Since the default sharing state for all the data uploaded to GenoEx-GDE database is ‘not shareable’, the User has to upload 711 file(s) to change it.
711 file format
Field Name |
Format |
Example |
Record Type 1 |
alphanumeric 3 |
711 |
Animal ID 2 - Breed Code 3 |
character 3 |
BSW |
Animal ID - Nation Code 4 |
character 3 (with the exception of 840) |
AUS |
Animal ID - Sex Code |
character 1 |
M |
Animal ID - Registration |
alphanumeric 12 |
000000A12345 |
UUID 5 |
alphanumeric 36 |
assigned automatically by gxprep.py program |
Array identifier 6 |
alphanumeric |
54609_a |
Shareable with organization(s) 7 |
character, repeatable |
BFRO,IBC |
- Record type is always 711 for this File Format
- Please see Interbull Bulletin 28. Each file can only contain any given animal in one row.
- Breed of animal (3 characters, capital letters)
- ISO 3166-1 alpha-3 codes (3 characters)
UUID, used as reference to every uploaded genotype sequence in the 706 file. Additional information about generation of UUID can be found at https://wiki.interbull.org/public/uuid?action=print
Array identifier, as reported at https://wiki.interbull.org/public/platforms_arrays?action=print
- Comma-separated list of zero or more organizations that should be allowed to download the associated genotype
711 example
711;BSW;ITA;M;000000A12345;09c98b1e-6af8-4254-9768-58d7cd1ddafd;54609_a;BFRO,IBC
2. Upload preparation program – gxprep.py
gxprep.py support program, maintained and distributed by Interbull Centre, prepares a set of files: 706 and 711, ready to be uploaded to GenoEx-GDE database. Always check you are using the latest version of gxprep.py program downloading it from https://genoex.org/.
2.1. gxprep functions
The program has four main commands: parse, sharing, show and zip parse should always be run as first option, because the other commands run on the output files produced by this command. sharing and show can be run several times, allowing gradual fine adjustments of the sharing permissions. zip is to be run at the end of the preparation process, when both files are ready for the upload.
parse
reads the input files (see section 2.2) and produces file 706 and initial 711 file - with all the animal IDs and corresponding UUIDs - but only the default (if set) sharing permissions assigned Most of the standard laboratory output files can be used as input unmodified (see 2.2) but the User has to provide additional information while running this command. Note: All these values could be provided also as default by specifying them in an initialization file (see 2.3.)
• -h [HELP]
• -a [ARRAY] – alphanumerical value that defines the chip that was used for genotyping according to the Array List (see also section 3). Note: If the chip used for genotyping is not listed, the User is advised to contact Interbull Centre and provide the full list of SNPs and the name of the chip, which will then be added to the Array List. Using different array than the one assigned to the used chip is possible, but would raise multiple warnings. This is, however OK, if the actual chip and therefore laboratory output contains additional, custom SNPs, that the User does not wish to upload.
• -d [DELIMITER] – character argument that defines the column delimiter in body section of input file (laboratory output file). Default delimiter is tab, thus this command line option should be used if another delimiter is used instead. • -l [LAB] – standardized name of the laboratory where genotyping was performed, according to the Laboratory List (see also section 3). If the laboratory is not listed there, the User should notify Interbull Centre before preparing the data. • -s [SAMPLEMAP] – file mapping sample ID from laboratory to the actual animal ID. Note: all animal IDs should be provided as International Interbull ID (see interbull.org/ib/interbull_guidelines for more information)
• -l [LAB] – Genotyping laboratory, among the ones listed in the "Laboratories" table available in the GenoEX-GDE System Data page https://genoex.org/display. If the laboratory is not listed in the table, a request should be sent to GenoEx@slu.se
• -s [SAMPLEMAP] – File mapping sample id to corresponding animal IDs.
• -i [INPUTSPEC] – since the contents of the laboratory output files may differ between organizations, the User has to specify which columns in the file contain required information. With the assumption that column numbers start with 1, the order should be as follows: SNP name, sample ID, allele1, allele 2. This value should be provided as four space separated numbers in single or double quotation, e.g. ‘1 2 3 4’
• -c [CACHEDIR] – specifies the directory where SNP order files will be downloaded from Interbull servers Note: Both output files names from this command will have a common stem, shared with input file, followed by the file type number (e.g. from input file I52690.txt, the stem is I52690, and the files produced by parse are I52690-706.csv and I52690-711.csv), which is used by the other commands in this program.
parse example
python gxprep.py parse -a 7931_a -l CIGENE -s SampleMap.txt -C ~/gde/gxprep/cachedir -i "1 2 3 4" Iexample.txt
This command first retrieves the SNP order file from Interbull server and saves it to /gde/gprep/cachedir folder. Then, it parses the Iexample.txt file retrieving animal IDs from SampleMap.txt file (see section 2.2. for description of input files). In Iexample.txt, it looks for SNP name in column 1, sample ID in column 2, allele1 in column 3 and allele2 in column 4. Allele 1 and allele 2 are then coded to one digit, accordingly to the formula: BB→0, AB→1, AA→2, ‘unknown’→5 and placed in the genotype string according to the SNP order. All samples listed in this file are get CIGENE as laboratory. Also, each newly created record gets assigned UUid identifier and the same number, along with corresponding animal ID is listed in 711 file. If you set up any defaults for sharing (see section 2.3) they will also be used in newly created 711 file, otherwise the last column in this file will remain empty.
The files created in this example will be named Iexample-706.csv and Iexample-711.csv
sharing
is used to add or remove organizations from the list of the organizations allowed to download given genotype. This command only operates on the 711 file and thus ignores the 706 file, if present.
Note: Newly created, by parse command 711 file, will normally have the last column (‘Shareable with organizations’) empty, unless the defaults are specified otherwise (see 2.3.). Therefore, in most of the cases it is necessary to run sharing to create the list of organizations each records can be shared with. This can be done either by assigning the same permissions to all the data within the file, by adding them according to pattern defined by breed, sex or country of origin or by providing a list of specific animals that should have the sharing permissions changed.
This command takes the following arguments:
- a [ORGANIZATION] - adds organization(s) the list, the data should be shared with. If no further arguments are provided, this sharing will be assigned to all the records in given 711 file.
- r [ORGANIZATION] - removes listed organization(s) from the sharing list
- b [BREED] - assigns sharing permissions by breed(s)
- g {M,m,F,f} - assigns sharing permissions by sex. Not defining this argument will assign defined sharing permissions to animals of both genders, given they fulfill the other conditions
- f [COUNTRY] - assigns sharing permissions by country(s) of registration (part of animal ID)
- i {filename} - with this command User can provide the list of specific animals (animal ID) that should be affected by sharing permissions change.
INPUT FILE – the stem of (common part of the names of 706 and 711 files)
sharing examples
python gxprep.py sharing -a ANARB –a BFRO –b BSW -g M -f ITA Iexample
This command adds sharing permissions for ANARB and BFRO to all the BSW males originating from Italy in Iexample-711.csv file
python gxprep.py sharing -r ANARB –a IBC –i aidlist.txt Iexample
This command adds sharing permissions for IBC and removes it for ANARB for all the genotypes in Iexample-711.csv file according to the animal ID list in the file aidlist.txt
show
gives an overview of sharing patterns in given file, using the stem of input files as the only argument.
show example
python gxprep.py show Iexample
This command shows the summary of the sharing settings, giving an output like this:
Content of sharing intermediate file Iexample-711.csv: 11 genotypes (all female) shared with IBC 9 genotypes (all male) shared with BFRO,IBC
zip
prepares zip file to be uploaded to GenoEx-GDE database. It uses the stem of input files as the only argument.
zip example
python gxprep.py zip Iexample
After running this command both 706 and 711 files will be zipped in two separate files ready for the upload to GenoEx-GDE database.
2.2. gxprep input files
gxprep is constructed to accept most typical laboratory output files and convert it to 706 data file adding also the initial version of 711 file for setting data sharing permissions. Of course, since both 706 and 711 files base on animal ID, whereas laboratory output files operate on sample IDs, the User also needs to provide a reference file mapping each sample ID to the corresponding animal ID.
The laboratory output file and ID reference file are expected to follow the formats as described below:
laboratory file
This file contains actual data as received from the laboratory, with Sample ID as a key. In the examples above this file is named Iexample.txt
[Header]
optional, general information regarding analysis, chip and number of samples
[Data]
please make sure that is specified, no matter if the header is included or not.
! [Data] marks the place where reading the information is started.
Field Name |
Description |
Allowed Values |
SNP name |
Alphanumeric |
SNP name in CAPITALS e.g. ARS-BFGL-NGS-64740 |
Sample ID |
Alphanumeric |
Laboratory sample ID, has to correspond to animal ID in key file |
All1 |
Alphabetic |
1 character code A or B according to Illumina AB coding |
All2 |
Alphabetic |
1 character code A or B according to Illumina AB coding |
Note: the above columns are required for GenoEx. Laboratory file can however contain additional columns, or columns in different order. As described in point 1.2.1. under parse, the User can specify which columns are containing required information.
ID reference file
This file contains the key to identify which Sample ID belongs to which animal. In the examples above this file is named SampleMap.txt
Note: The only allowed delimiter allowed in this reference file is TAB
Field Name |
Description |
Allowed Values |
Sample ID |
Alphanumeric |
Laboratory sample ID, has to correspond to Sample ID in genotyping file |
Animal ID |
Alphanumeric |
International Interbull ID* |
* International Interbull Animal ID consists of 18 characters as follows:
3 characters - breed code (capitals, according to ICAR breed coding),
3 characters – country code (capitals, according to Interbull country coding),
1 character – sex code capital M or F),
11 characters – registration ID (alphanumerical).
2.3. gxprep default settings
If the User is always using the same array, laboratory, the same columns in the laboratory file or always shares all the data with the same list of the organizations, they may want to pre set these values as default. This can be done by editing gxprep.ini file. Dependently on your local settings, this file is located in the current directory and/or in the users home directory and also the .gxpreprc file in the user’s home directory.
Recognized configuration options are the following:
arrayspec - default for -a/--array switch of parse sub command
labspec - default for -l/--lab switch of parse sub command
samplemap - default for -s/--sample-map switch of parse sub command
inputspec - default for -i/--input-spec switch of parse sub command
delimchar - default for -d/--delimeter switch of parse sub command
cachedir - default for -C/--cachedir switch of parse sub command sharing - default
sharing, i.e. which organizations to share data with- gxprep.ini example
[gxprep] arrayspec=44887_a labspec=The Roslin Institute samplemap=~/referencefile.txt inputspec=1 2 5 6 delimchar=, cachedir=~/gxprep sharing=ANARB BFRO
In the example above, if not specified otherwise in the command line:
- 706 file will be created accordingly to the SNP order 44887_a
- assigned laboratory is ‘The Roslin Institute’
- ID reference file is looked up under the name referencefile.txt.
- the information is read from input file as follows:
- SNPname - column 1
- sample ID - column 2
- allele 1 and allele 2 - columns 5 and 6, respectively.
- the delimiter is expected to be comma.
- SNP order file is downloaded and stored in ~/gxprep
- all genotypes processed with these settings have sharing permitted for ANARB and BFRO
3. gxprep "Tips and Tricks"
Whereas all currently allowed values are available to view via GenoEx home page, one can also see it directly in the terminal with use of gxprep.py
Below, there is a list of commands to retrieve specific lists
list of supported arrays
python gxprep.py parse -a xxxx xxxx
list of supported labs
python gxprep.py parse -l xxxx xxxx
list of supported organizations
python gxprep.py sharing -a xxxx xxxx
list of supported country codes
python gxprep.py sharing -f xxxx xxxx
list of supported breed codes
python gxprep.py sharing -b xxxx xxxx
download specific SNP order file - Windows
python gxprep.py parse -C . -a 38275_a xxxx>g
download specific SNP order file - Linux
python gxprep.py parse -C . -a 38275_a xxxx>g dev/null
Note: Trailing arguments ‘xxxx xxxx’ can be replaced by any other nonsense words at least 2 characters long.