Metadata-Version: 2.1
Name: PhiSpy
Version: 3.7.6
Summary: Prophage finder using multiple metrics
Home-page: https://github.com/linsalrob/PhiSpy
Author: Rob Edwards
Author-email: raedwards@gmail.com
License: The MIT License (MIT)
Description: [![DOI](https://www.zenodo.org/badge/60999054.svg)](https://www.zenodo.org/badge/latestdoi/60999054)
        [![License: MIT](https://img.shields.io/badge/License-MIT-yellow.svg)](https://opensource.org/licenses/MIT)
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        # INTRODUCTION
        
        PhiSpy is a computer program written in C++ and Python to identify prophages in a complete bacterial genome sequences.
        
        Initial versions of PhiSpy were written by 
        
        Sajia Akhter (sajia@stanford.edu)
        PhD Student
        Edwards Bioinformatics Lab (http://edwards.sdsu.edu/labsite/)
        Computational Science Research Center (http://www.csrc.sdsu.edu/csrc/)
        San Diego State University (http://www.sdsu.edu/)
        
        Improvements, bug fixes, and other changes were made by
        
        Katelyn McNair
        [Edwards Bioinformatics Lab](http://edwards.sdsu.edu/labsite/)
        [San Diego State University](http://www.sdsu.edu/)
        
        Przemyslaw Decewicz 
        [University of Warsaw](http://en.uw.edu.pl/)
        
        
        # SYSTEM REQUIREMENTS
        
        The program should run on Mac and Unix platforms, although it was not tested in all platforms.
        
        
        # SOFTWARE REQUIREMENTS
        
        PhiSpy requires following programs to be installed in the system. NOTE: You can ignore this if you're using the singularity container method of installation.
        
        1. Python - version 3.4 or later
        2. Biopython - version 1.58 or later 
        3. gcc - GNU project C and C++ compiler - version 4.4.1 or later
         
        # INSTALLATION
        
        For most users, this will create a local installation for you
        ```bash
        git clone https://github.com/linsalrob/PhiSpy.git
        cd PhiSpy`
        python3 setup.py install --user
        ```
        
        If you have root and you want to install globally, you can change the setup command.
        
        ```bash
        git clone https://github.com/linsalrob/PhiSpy.git
        cd PhiSpy`
        python3 setup.py install
        ```
        
        For ease of use, you may wish to add the location of PhiSpy.py to your $PATH.
        
        
        TO TEST THE PROGRAM
        
        Change to the install location and run PhiSpy with an example genome:
        
        ```bash
        % cd PhiSpy`
        % python3 PhiSpy.py   -o output_directory -t data/trainSet_160490.61.txt tests/Streptococcus_pyogenes_M1_GAS.gb
        ```
        
        We use the `GenBank` format file for *Streptococcus pyogenes* M1 GAS that we hvae provided in the `tests/` directory, and we use the training set for *S. pyogenes* M1 GAS that we have pre-calculated. This quickly identifies the four prophages in this genome, runs the repeat finder on all of them, and outputs the answers.
        
        You will find the output files from this query in `output_directory`.
        
        
        # TO RUN PHISPY
        
        The simplest command is:
        
        ```bash
        % python3 PhiSpy.py -f genbank_file -o output_directory
        ```
        
        where:
        - `genbank file`: The input DNA sequence file in GenBank format.
        - `output directory`: The output directory is the directory where the final output file will be created.
        
        If you have new genome, we recommend annotating it using the [RAST server](http://rast.nmpdr.org/rast.cgi) or [PROKKA](https://github.com/tseemann/prokka).
         
        After annotation, you can download the genome directory from the server.
        
        
        # HELP
        
        For the help menu use the `-h` option:
        ```bash
        % python PhiSpy.py -h
        ```
        
        # OUTPUT FILES
        
        There are 3 output files, located in output directory.
        
        1. prophage.tbl: This file has two columns separated by tabs [id, location]. 
        The id is in the format: pp_number, where number is a sequential number of the prophage (starting at 1). 
        Location is be in the format: contig_start_stop that encompasses the prophage.
         
        2. prophage_tbl.tsv: This is a tab seperated file. The file contains all the genes of the genome. The tenth colum represents the status of a gene. If this column is 1 then the gene is a phage like gene; otherwise it is a bacterial gene. 
        
        This file has 16 columns:(i) fig_no: the id of each gene; (ii) function: function of the gene;	(iii) contig; (iv) start: start location of the gene; (v) stop: end location of the gene; (vi) position: a sequential number of the gene (starting at 1); (vii)	rank: rank of each gene provided by random forest; (viii) my_status: status of each gene based on random forest; (ix) pp: classification of each gene based on their function; (x) Final_status: the status of each gene. For prophages, this column has the number of the prophage as listed in prophage.tbl above; If the column contains a 0 we believe that it is a bacterial gene. If we can detect the _att_ sites, the additional columns will be: (xi) start of _attL_; (xii) end of _attL_; (xiii) start of _attR_; (xiv) end of _attR_; (xv) sequence of _attL_; (xvi) sequence of _attR_.
        
        3. prophage_coordinates.tsv: This file has the prophage ID, contig, start, stop, and potential _att_ sites identified for the phages.
        
        # EXAMPLE DATA
        
        We have provided two different example data sets.
        
        * _Streptococcus pyogenes_ M1 GAS which has a single genome contig. The genome contains four prophages.
        
        To analyze this data, you can use:
        
        ```
        python3 PhiSpy.py -o output_directory -t data/trainSet_160490.61.txt tests/Streptococcus_pyogenes_M1_GAS.gb
        ```
        
        And you should get a prophage table that has this information (for example, take a look at `output_directory/prophage.tbl`).
        
        | Prophage number | Contig | Start | Stop |
        | --- | --- | --- | --- | 
        pp_1 | NC_002737 | 529631 | 569288
        pp_2 | NC_002737 | 778642 | 820599
        pp_3 | NC_002737 | 1192630 | 1222549
        pp_4 | NC_002737 | 1775862 | 1782822
        
Keywords: phage prophage bioinformatics microbiology bacteria genome genomics
Platform: any
Classifier: Development Status :: 4 - Beta
Classifier: Intended Audience :: Science/Research
Classifier: License :: OSI Approved :: MIT License
Classifier: Natural Language :: English
Classifier: Operating System :: MacOS :: MacOS X
Classifier: Operating System :: POSIX :: Linux
Classifier: Operating System :: Unix
Classifier: Programming Language :: Python :: 3.0
Classifier: Topic :: Scientific/Engineering :: Bio-Informatics
Description-Content-Type: text/markdown
