Catherine Belleannée, Olivier Sallou, Jacques Nicolas. Expressive Pattern Matching with Logol.
Application to the Modelling of -1 Ribosomal Frameshift events. JOBIM 2012- 13e Journées Ouvertes en Biologie, Informatique et Mathématiques, Jul 2012, Rennes, France. pp. 5-14.
BioPAX (Biological Pathway Exchange) is a standard language that aims to enable integration, exchange, visualization and analysis of biological pathway data. Specifically, BioPAX supports data exchange between pathway data groups and thus reduces the complexity of interchange between data formats by providing an accepted standard format for pathway data. By offering a standard, with well-defined semantics for pathway representation, BioPAX allows pathway databases and software to interact more efficiently. In addition, BioPAX enables the development of pathway visualization from databases and facilitates analysis of experimentally generated data through combination with prior knowledge. The BioPAX effort is coordinated closely with that of other pathway related standards initiatives namely; PSI-MI, SBML, CellML, and SBGN in order to deliver a compatible standard in the areas where they overlap.
SEQ is a programming language for computational genomics and bioinformatics. With a Python-compatible syntax and a host of domain-specific features and optimizations, Seq makes writing high-performance genomics software as easy as writing Python code, and achieves performance comparable to (and in many cases better than) C/C++.