SIRIUS (Systematische Identifikation Redundanter, Identisch Uebersetzter Sequenzen) is a synthetic biology tool leveraging Google OR-Tools integer programming to design genetic sequences with the shortest and fewest possible homologous fragments between pairs within minutes.
- Design N gene sequences all translating to a given protein P
- Effectively synthesize sequences with maximal, optimal divergence
- Written in pure C++
Overview of the SIRIUS workflow. Step (1) The input to SIRIUS is a protein sequence of interest P and the desired number N of synonymous DNA sequences to be designed; Step (2) SIRIUS solves an integer linear program with the objective function shown here, and millions of variables and constraints; below the objective function we illustrate the codon choices for each amino acid in the example peptide P from Step 1; Step (3) SIRIUS produces of N synonymous DNA sequences that encode P with the fewest and shortest common subsequences; the light blue highlights indicate homologous subsequences between any pair.
You may find the documentation for SIRIUS at its GitHub Wiki.
If you run into any issues or have suggestions for SIRIUS, please report them on our GitHub Issues tracker. It's the fastest way to get support and helps us improve SIRIUS for everyone. You may also email the authors at their provided e-mail addresses on the publication directly.
SIRIUS has been developed and is maintained by Amirsadra Mohseni, and Stefano Lonardi at the University of California, Riverside.