• Running command-line BLAST


    Ubuntu安装BLAST  

    2014-02-09 10:45:03|  分类: Linux/Ubuntu|举报|字号 订阅

     
     

    very easy!

    sudo apt-get install blast2

    将自动安装以下程序:

    bl2seq blast2 blastall blastall_old blastcl3 blastclust blastpgp


    具体程序参数请在终端输入程序名查看

    转自:http://azaleasays.com/2008/02/24/ubuntublast/

    http://angus.readthedocs.io/en/2014/running-command-line-blast.html

    Running command-line BLAST

    The goal of this tutorial is to run you through a demonstration of the command line, which you may not have seen or used much before.

    Prepare for this tutorial by working through Start up an EC2 instance, but follow the instructions to start up Starting up a custom operating system instead; use AMI ami-7606d01e.

    All of the commands below can and should be copy/pasted rather than re-typed.

    Note: on Windows using TeraTerm, you can select the commands in the Web browser, then go to TeraTerm and click your right mouse button to paste. On Mac OS X using Terminal, you can select the commands in the Web browser, use Command-C to copy, and then go the terminal and use Command-V to paste.

    Switching to root

    Start by making sure you’re the superuser, root:

    sudo bash
    

    Updating the software on the machine

    Copy and paste the following two commands

    apt-get update
    apt-get -y install screen git curl gcc make g++ python-dev unzip 
            default-jre pkg-config libncurses5-dev r-base-core 
            r-cran-gplots python-matplotlib sysstat
    

    (make sure to hit enter after the paste – sometimes the last line doesn’t paste completely.)

    If you started up a custom operating system, then this should finish quickly; if instead you started up Ubuntu 14.04 blank, then this will take a minute or two.

    Install BLAST

    Here, we’re using curl to download the BLAST distribution from NCBI; then we’re using ‘tar’ to unpack it into the current directory; and then we’re copying the program files into the directory /usr/local/bin, where we can run them from anywhere.

    cd /root
    
    curl -O ftp://ftp.ncbi.nih.gov/blast/executables/release/2.2.26/blast-2.2.26-x64-linux.tar.gz
    tar xzf blast-2.2.26-x64-linux.tar.gz
    cp blast-2.2.26/bin/* /usr/local/bin
    cp -r blast-2.2.26/data /usr/local/blast-data
    

    OK – now you can run BLAST from anywhere!

    Again, this is basically what “installing software” means – it just means copying around files so that they can be run, and (in some cases) setting up resources so that the software knows where specific data files are.

    Running BLAST

    Try typing:

    blastall
    

    You’ll get a long laundry list of output, with all sorts of options and arguments. Let’s play with some of them.

    First! We need some data. Let’s grab the mouse and zebrafish RefSeq protein data sets from NCBI, and put them in /mnt, which is the scratch disk space for Amazon machines

    cd /mnt
    
    curl -O ftp://ftp.ncbi.nih.gov/refseq/M_musculus/mRNA_Prot/mouse.protein.faa.gz
    curl -O ftp://ftp.ncbi.nih.gov/refseq/D_rerio/mRNA_Prot/zebrafish.protein.faa.gz
    

    If you look at the files in the current directory, you should see both files, along with a directory called lost+found which is for system information:

    ls -l
    

    should show you:

    drwx------ 2 root root   16384 2013-01-08 00:14 lost+found
    -rw-r--r-- 1 root root 9454271 2013-06-11 02:29 mouse.protein.faa.gz
    -rw-r--r-- 1 root root 8958096 2013-06-11 02:29 zebrafish.protein.faa.gz
    

    Both of these files are FASTA protein files (that’s what the .faa suggests) that are compressed by gzip (that’s what the .gz suggests).

    Uncompress them

    gunzip *.faa.gz
    

    and let’s look at the first few sequences:

    head -11 mouse.protein.faa
    

    These are protein sequences in FASTA format. FASTA format is something many of you have probably seen in one form or another – it’s pretty ubiquitous. It’s just a text file, containing records; each record starts with a line beginning with a ‘>’, and then contains one or more lines of sequence text.

    Let’s take those first two sequences and save them to a file. We’ll do this using output redirection with ‘>’, which says “take all the output and put it into this file here.”

    head -11 mouse.protein.faa > mm-first.fa
    

    So now, for example, you can do ‘cat mm-first.fa’ to see the contents of that file (or ‘less mm-first.fa’).

    Now let’s BLAST these two sequences against the entire zebrafish protein data set. First, we need to tell BLAST that the zebrafish sequences are (a) a database, and (b) a protein database. That’s done by calling ‘formatdb’

    formatdb -i zebrafish.protein.faa -o T -p T
    

    Next, we call BLAST to do the search

    blastall -i mm-first.fa -d zebrafish.protein.faa -p blastp
    

    This should run pretty quickly, but you’re going to get a LOT of output!! What’s going on? A few things –

    • if you BLAST a sequence against a large database, odds are it will turn up a lot of spurious matches. By default, blastall uses an e-value cutoff of 10, which is very relaxed.
    • blastall also reports the first 100 matches, which is usually more than you want.
    • a lot of proteins also have trace similarity to other proteins!

    For all of these reasons, generally you only want the first few BLAST matches, and/or the ones with a “good” e-value. We do that by adding ‘-b 2 -v 2’ (which says, report only two matches and alignments); and by adding ‘-e 1e-6’, which says, report only matches with an e-value of 1e-6 or better

    blastall -i mm-first.fa -d zebrafish.protein.faa -p blastp -b 2 -v 2 -e 1e-6
    

    Now you should get a lot less text! (And indeed you do...) Let’s put it an output file, ‘out.txt’

    blastall -i mm-first.fa -d zebrafish.protein.faa -p blastp -b 2 -v 2 -o out.txt
    

    The contents of the output file should look exactly like the output before you saved it into the file – check it out:

    cat out.txt
    

    Converting BLAST output into CSV

    Suppose we wanted to do something with all this BLAST output. Generally, that’s the case - you want to retrieve all matches, or do a reciprocal BLAST, or something.

    As with most programs that run on UNIX, the text output is in some specific format. If the program is popular enough, there will be one or more parsers written for that format – these are just utilities written to help you retrieve whatever information you are interested in from the output.

    Let’s conclude this tutorial by converting the BLAST output in out.txt into a spreadsheet format, using a Python script. (We’re not doing this just to confuse you; this is really how we do things around here.)

    First, we need to get the script. We’ll do that using the ‘git’ program

    git clone https://github.com/ngs-docs/ngs-scripts.git /root/ngs-scripts
    

    We’ll discuss ‘git’ more later; for now, just think of it as a way to get ahold of a particular set of files. In this case, we’ve placed the files in /root/ngs-scripts/, and you’re looking to run the script blast/blast-to-csv.py using Python

    python /root/ngs-scripts/blast/blast-to-csv.py out.txt
    

    This outputs a spread-sheet like list of names and e-values. To save this to a file, do:

    python /root/ngs-scripts/blast/blast-to-csv.py out.txt > /root/Dropbox/out.csv
    

    The end file, ‘out.csv’, should soon be in your Dropbox on your local computer. If you have Excel installed, try double clicking on it.


    And that’s the kind of basic workflow we’ll be teaching you:

    1. Download program
    2. Download data
    3. Run program on data
    4. Look at results

    ...but in many cases more complicated :).


    Note that there’s no limit on the number of sequences you BLAST, etc. It’s just sheer compute speed and disk space that you need to worry about, and if you look at the files, it turns out they’re not that big – so it’s mostly your time and energy.

    This will also maybe help you understand why UNIX programs are so powerful – each program comes with several, or several dozen, little command line “flags” (parameters), that help control how it does its work; then the output is fed into another such program, etc. The possibilities are literally combinatorial.


    We’re running a Python program ‘blast-to-csv.py’ above – if you’re interested in what the Python program does, take a look at the source code:

    https://github.com/ngs-docs/ngs-scripts/blob/master/blast/blast-to-csv.py

    Summing up

    Command-line BLAST lets you do BLAST searches of any sequences you have, quickly and easily. It’s probably the single most useful skill a biologist can learn if they’re doing anything genomics-y ;).

    Its main computational drawback is that it’s not fast enough to deal with some of the truly massive databases we now have, but that’s generally not a problem for individual users. That’s because they just run it and “walk away” until it’s done!

    The main practical issues you will confront in making use of BLAST:

    • getting your sequence(s) into the right place.
    • formatting the database.
    • configuring the BLAST parameters properly.
    • doing what you want after BLAST!

    Other questions to ponder:

    • if we’re using a pre-configured operating system, why did we have to install BLAST?

    LICENSE: This documentation and all textual/graphic site content is licensed under the Creative Commons - 0 License (CC0) -- fork @ github. Presentations (PPT/PDF) and PDFs are the property of their respective owners and are under the terms indicated within the presentation.
     
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  • 原文地址:https://www.cnblogs.com/xiaojikuaipao/p/7151927.html
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