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Anacapa is a toolkit designed to construct reference databases and assign taxonomy, from eDNA sequences.

For more details on anacapa, please read though the anacapa Github page:

GitHub - Anacapa

Purpose of this guide

This guide is designed to step you though running the anacapa toolkit on QUTs HPC, as the published anacapa documentation on Github can be a bit hard to follow and needs some modification to work on the HPC.

This guide was developed and written by QUT’s eResearch team. For information about this guide or other bioinformatic analyses, contact us at eresearch@qut.edu.au

Requirements

  • Your eDNA sample files, which should be demultiplexed Illumina sequences in fastq format. If they are not demultiplexed or not Illumina, contact us at eResearch: eresearch@qut.edu.au

  • A table of the barcodes and adapters used to amplify your sequences. If you don’t already have these, you can usually request them from the organisation that sequenced your samples.

  • A QUT HPC account.

  • A basic knowledge of Linux command line operation and usage of QUT’s HPC is strongly recommended, but not required, as all the command line instructions are explicitly explained and can usually simply be cut and pasted into your HPC command line.

An overview of HPC commands and usage, as well as a link for requesting access to the HPC (if you don’t currently have a HPC account) is here:

HPC

There are plenty of online guides that teach basic Linux command line usage, for example:

https://www.youtube.com/watch?v=cBokz0LTizk&t=1s

https://www.youtube.com/watch?v=s3ii48qYBxA

Step 1: initial setup

You will be running various processes on the HPC that require quite a lot of processing power. Do not run these command on the 'head node' (which is the node you enter when you log on). Instead, either submit these command via a PBS script or an interactive PBS session, which runs your processes on another node.

The details of creating and submitting a PBS script can be found here:

HPC

If you’re testing several tools or running multiple separate commands then an interactive PBS session may be preferable. Below is the command to create an interactive PBS session with 8 CPUs and 64GB memory.

*Note: In this guide, commands to be entered by the user will be in grey boxes like the one below. As with most commands, you can simply cut and paste this into your command line.

qsub -I -S /bin/bash -l walltime=11:00:00 -l select=1:ncpus=8:mem=64gb

This request gets put in the HPC queue until there is an available node with sufficient resources. This may take several minutes, or possibly longer.

Create your working directory

From your home directory, create a subdirectory called ‘anacapa’ and enter this subdirectory. This guide has commands that assume your

cd ~
mkdir anacapa
cd anacapa

Create a directory for your fastq files and move them there

The fastq directory should be created in your anacapa directory.

mkdir ~/anacapa/fastq

Move your fastq files to this directory. Your fastq files will need to be uploaded to the HPC first. To copy them from a Windows PC to the HPC, you can use a tool like WinSCP: https://winscp.net/eng/index.php

You can either copy them from your local PC, directly to the fastq directory you created (using something like WinSCP) or if they are already on the HPC but in a different directory, move to that directory ('cd ~/directory_where_fastq_files_are') then copy them across to the anacapa/fastq directory you created:

cp *.fastq.gz ~/anacapa/fastq

*NOTE: the above command assumes your fastq files have the ‘.fastq.gz’ suffix, which is the most common. But they may be uncompressed (i.e. just ‘samplename.fastq’) or something like samplename.fq.gz, in which case you’d change the above to 'cp *.fq.gz ~/anacapa/fastq'

Step 2: Running anacapa on Singularity

Anacapa uses many tools, which would be difficult and time consuming to install all of them on the HPC. Fortunately, the developers of Anacapa have created a Singularity image that contains all the required tools. Once the image is downloaded, all the standard tools and commands in the Anacapa guide can be run by prefixing them with ‘singularity exec anacapa-1.5.0.img’ which runs the subsequent command in the singularity container.

Information about running Anacapa in the singularity container is found here:

GitHub - anacapa-container: A containerized way to run the Anacapa eDNA processing toolkit on your own machine or server.

Download the Anacapa Singularity container to your anacapa directory.

cd ~/anacapa
wget https://zenodo.org/record/2602180/files/anacapa-1.5.0.img

Step 3: Create reference libraries using CRUX

CRUX (Creating-Reference-libraries-Using-eXisting-tools) generates taxonomic reference libraries by querying your primers against the ecoPCR database you generated in the previous section. Anacapa then uses these libraries for taxonomic assignment of your sequences.

Anacapa contains several pre-built databases, based on defined primer sets, which can be seen in the ‘High level overview’ section on the anacapa page: GitHub - Anacapa.

If you are using a set of primers that aren’t on this list you’ll need to construct your own CRUX database, by following this guide.

For this guide we will be using eDNA sequences amplified by the 16Smam primer pair:

16S701F 5′-CGGTTGGGGTGACCTCGGA-3′

16S787R 5′-GCTGTTATCCCTAGGGTAACT-3′

These primers were developed to amplify mammal sequences (which is an important point, as you will download the EMBL databases that correspond the taxonomic group you’re interested in).

To run CRUX you need to first download and setup 4 databases: 1) NCBI taxonomy, 2) NCBI BLAST nt library, 3) NCBI accession2taxonomy, 4) EMBL std nucleotide database (for your taxonomic group of interest).

First, create the directory to hold these databases:

mkdir ~/anacapa/crux_db

Download NCBI taxonomy database

Download and decompress the database to a subdirectory called TAXO:

mkdir ~/anacapa/crux_db/TAXO
cd ~/anacapa/crux_db/TAXO
wget ftp://ftp.ncbi.nlm.nih.gov/pub/taxonomy/taxdump.tar.gz
tar -xzvf taxdump.tar.gz

Download the NCBI nt library

Download and decompress the database to a subdirectory called NCBI_blast_nt:

mkdir ~/anacapa/crux_db/NCBI_blast_nt
cd ~/anacapa/crux_db/NCBI_blast_nt
wget ftp://ftp.ncbi.nlm.nih.gov/blast/db/nt*
for file in nt*.tar.gz; do tar -zxf $file; done

*NOTE: This is the full NCBI nucleotide database. It is VERY large (~170GB). In the future eResearch will be making available a centralised, frequently updated copy of this on the HPC that all researchers can access, so it doesn’t have to be downloaded multiple times. In the mean time, you can download it to ~/anacapa/crux_db/NCBI_blast_nt and then please delete the database once you have completed your anacapa analysis. We don’t want multiple copies of this same database on the HPC.

Download the NCBI accession2taxonomy database

Download and decompress the database to a subdirectory called accession2taxonomy:

mkdir ~/anacapa/crux_db/accession2taxonomy
cd ~/anacapa/crux_db/accession2taxonomy
wget ftp://ftp.ncbi.nih.gov/pub/taxonomy/accession2taxid/nucl_gb.accession2taxid.gz
gzip -d nucl_gb.accession2taxid.gz

Download the EMBL std nucleotide database files

The FTP location of the EMBL databases, as provided in the CRUX documentation, is incorrect.

But reading the EMBL database notes at …

ftp://ftp.ebi.ac.uk/pub/databases/embl/release/doc/relnotes.txt

… in section 7 it lists all the database names. The CRUX documentation says we need standard sequences, and for this example guide we are looking at mammals. In which case there are two mammal std nucleotide database files listed:

rel_std_mam_01_r143.dat

and

rel_std_mam_02_r143.dat

Searching the database names, I found them hosted (gzipped) here:

https://www.funet.fi/pub/sci/molbio/embl_release/std/

The other (i.e. other than mammalian) EMBL std nucleotide taxonomic databases are also at this site.

Download and decompress these databases to a subdirectory called EMBL:

mkdir ~/anacapa/crux_db/EMBL
cd ~/anacapa/crux_db/EMBL
wget https://www.funet.fi/pub/sci/molbio/embl_release/std/rel_std_mam_01_r143.dat.gz
wget https://www.funet.fi/pub/sci/molbio/embl_release/std/rel_std_mam_02_r143.dat.gz
gzip -d rel_std_mam_01_r143.dat.gz
gzip -d rel_std_mam_02_r143.dat.gz

Again, in this guide we’re just looking at mammal sequences. If you’re looking at another taxonomic group, you’ll need to download the appropriate databases. below are the codes for the available EMBL taxonomic groups.

Division                 Code
----------------         ------------------
Bacteriophage            PHG - common
Environmental Sample     ENV - common
Fungal                   FUN - map to PLN (plants + fungal)
Human                    HUM - map to PRI (primates)
Invertebrate             INV - common
Other Mammal             MAM - common
Other Vertebrate         VRT - common
Mus musculus             MUS - map to ROD (rodent)
Plant                    PLN - common
Prokaryote               PRO - map to BCT (poor name)
Other Rodent             ROD - common
Synthetic                SYN - common
Transgenic               TGN - ??? map to SYN ???
Unclassified             UNC - map to UNK
Viral                    VRL - common

So, if for example you are looking at all vertebrates (other than human), you would download all the database files beginning with ‘rel_std_vrt' or for plants you’d download all 'rel_std_pln' etc.

Convert downloaded databases to ecoPCR format

To run CRUX, the NCBI and EMBL nucleotide databases need to first be converted to ecoPCR format, using the obiconvertcommand.

First create directories to output these databases:

mkdir ~/anacapa/crux_db/Obitools_databases
mkdir ~/anacapa/crux_db/Obitools_databases/OB_dat_EMBL_std

The naming of these directories is important, as the CRUX script automatically looks in the /crux_db/Obitools_databases directory for any databases beginning with OB_dat_.

Run the obiconvert command

singularity exec ~/anacapa/anacapa-1.5.0.img obiconvert -t ~/anacapa/crux_db/TAXO --embl --ecopcrdb-output=~/anacapa/crux_db/Obitools_databases/OB_dat_EMBL_std/OB_dat_EMBL_std ~/anacapa/crux_db/EMBL/*.dat --skip-on-error

Cleanup

Running the anacapa workflow involves downloading and generating various large databases. These will just take up space on the HPC unless removed.

If you will be running more samples on these databases in the near future you can retain them, otherwise they should be removed.

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