In a similar manner to
dot plots,
maze
highlights local sequence similarity between two DNA sequences. In
particular, maximal exact substring matches are computed with
MUMmer3 and visualised.
In the context of Delly this is most useful for exploring breakpoints or entire
SVs constructed with the local assembly pipeline, but maze
has also been
instrumental in analysing SVs from "long read" data (PacBio, MinION) or Sanger
reads.
Our breakpoint module, which is still in an experimental state, highlights the breakpoints of your assemblies relative to another sequence (e.g. the reference) using local alignments computed with last-split.
This software supports only Mac/Linux. Windows users could try our Docker image below but this has not been tested.
For the server component, you will need Python2.7+ and the Flask
and click
modules. An easy way to set this up is with a
Virtual Environment:
$ cd maze
$ virtualenv venv
$ source venv/bin/activate
$ pip install -r requirements/python2.7.txt
In addition you need to have certain binaries in your $PATH
:
The LAST package is only needed when you plan to use the breakpoint module.
At last you will need a "modern" web browser. Chrome, Firefox and Safari should all work. Technically, Opera and IE9+ should be fine as well although these haven't been tested.
First off, start the server:
$ python maze_server.py
By default, port 5000 is used, but you can specify this with the
--port
option. Now, open your web browser and head to http://localhost:5000/.
Two fasta/fastq files.
- n vs. 1: multiple sequences in the query are plotted against a single reference sequence. Useful for reads/assemblies of a single locus. Only the first entry in the reference file is used.
- n vs. n: if both fasta files contain the same number of sequences, a pairwise comparison is triggered. Useful to scan multiple loci after another.
Click on the setup icon and upload the reference and query fasta files via drag-and-drop. You can change the match type and length of MUMmer3. Hit 'visualize' to trigger match computation and visualization.
Use left and right keys to browse through the plots. A click on the 'breakpoints' button takes you to a separate page showing details on the breakpoints.
As this software is under development we are happy about feedback via mail or via Github.
## Dockerized *maze*maze is hosted on Dockerhub. To run it in Docker, type
docker run -p 5000:5000 smei/maze
This will download the Docker image, if not yet available locally, run maze in
a Docker container and expose port 5000. Direct your browser to
127.0.0.1:5000
.