PERDIX (Programmed Eulerian Routing for DNA Design using X-overs) is a new, free and open-source software package written in FORTRAN 90/95 that enables the automated convertion of 2D computer-generated design files into DNA sequences. These DNA sequences can be subsequently synthesized and mixed to fold DNA DX-based wireframe 2D lattices with high fidelity. PERDIX video here.
H. Jun, F. Zhang, T. Shepherd, S. Ratanalert, X. Qi, H. Yan, M. Bathe, Autonomously designed free-form 2D DNA origami. Sci. Adv. 5, eaav0655 (2019).
- Pure Fortran library for modern Fortran project
- Free and open source (GNU General Public License, version 3.0)
- Fully automatic procedure of the sequence design for scaffolded DNA DX-based wireframe lattices
- Importing GEO (geometry file format for PERDIX), IGS, SVG, or PLY file formats as an input
- Exact edge-lengths to design highly asymmetric and irregular shapes
- JSON output for editing staple paths and sequences from caDNAno
- 3D visual outputs by UCSF Chimera
- 24 pre-defined target geometries
- User-friendly TUI (Text-based User Interface)
- Online web resources and release packages for Microsoft Windows and Mac OS
Online Portal | Documentation | Pre-compiled Binaries | Compiling Code | Copyrights
http://perdix-dna-origami.org/
In addition to the source code and pre-compiled binaries available here, we also offer an online web application with all the functionality found in the downloaded version. By submitting the same inputs (PLY, GEO, IGS, or SVG input CAD files), the web service will return the same file output as the downloaded version.
The full software documention for PERDIX v1.0 can be downloaded here.
Please find below 3 tutorial movies on how to use PERDIX to generate computer aided design files, automate meshing, generate sequences, and review atomic models.
- Running PERDIX
- Boundary design
- Boundary & internal geometric design
- The *.csv file generated by PERDIX contains final staple sequences.
- The *.bild and *.json generated by PERDIX can be opened by UCSF Chimera and caDNAno.
- The atomic model (PDB) can be generated by *.cndo file using the atomic model generator written by Dr. Keyao Pan.
- PERDIX-Win-MCR for Microsoft Windows
- Requirements: MATLAB Compiler Runtime 2015 and Python 2.7 and Python package, Shapely 1.6.4
- PERDIX-Win-MATLAB for Microsoft Windows
- Requirements: MATLAB, Python 2.7 and Python package, Shapely 1.6.4
- PERDIX-Mac for macOS/Mac OS X
- Requirements: Python 2.7 and Python packages, Shapely 1.6.4 and PyDistMesh 1.2
git clone https://github.com/hmjeon/PERDIX.git
Requirements to compile from source:
- Intel Fortran compiler: Intel Parallel Studio XE 2016, 2017 or 2018
- MATLAB: MATLAB 2014, 2015, 2016, 2017 or 2018
- Python 2.7: Not compatible with Python 3
- Shapely 1.6.4: Python package, Shapely is used to convert a set of lines to polygon meshes
- DistMesh or PyDistMesh 1.2: DistMesh (MATLAB version) or PyDistMesh (Python version) is used to generate internal triangular meshes
- Compiling the PERDIX sources require Intel Fortran. Free Intel (R) Software Development Tools are available for qualified students, educators, academic researchers and open source contributors, see the details.
- The Intel Fortran compiler supports all of the features of the Fortran 90, Fortran 95, Fortran 2003 standards and most of Fortran 2008. It also supports some draft Fortran 2018 features.
- We provide MakeFile which is a simple way to organize code compilation of PERDIX.
Author
Dr. Hyungmin Jun ( Personal web | e-mail )
License
PERDIX is an open-source software distributed under the GPL license, version 3
Anyone is interest to use, to develop or to contribute to PERDIX is always welcome!
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