Protein Similarity Search under mRNA Structural Constraints: Application to Targeted Selenocysteine Insertion

Issue title: This is the special Issue The German Conference on Bioinformatics 2001, 7-10 October, Braunschweig, Germany

Article type: Research Article

Authors: Backofen, Rolf | Narayanaswamy, N.S. | Swidan, Firas

Affiliations: Ernst-Aberplatz 14, Jena, Germany Tel.: +49 36419 46095; Fax: +49 3641 9 46372; E-mail: [email protected]

Note: [] Partially supported by the DFG within the national program SPP 1087 "Selenoprotein - Biochemische Grundlagen und klinische Bedeutung".

Note: [] Supported by DFG Grant No. Jo 291/2-1.

Abstract: Selenocysteine is the 21th amino acid, which occurs in all kingdoms of life. Selenocysteine is en-coded by the STOP-codon UGA. For its insertion, it requires a specific mRNA sequence downstream the UGA-codon that forms a hairpin like structure (called Sec insertion sequence (SECIS). We consider the computational problem of generating new amino acid sequences containing selenocysteine. This requires to find an mRNA se-quence that is similar to the SECIS-consensus, is able to form the secondary structure required for selenocysteine insertion, and whose translation is maximally similar to the original amino acid sequence. We show that the problem can be solved in linear time when considering the hairpin-like SECIS-structure (and, more generally, when consider-ing a structure that does not contain pseudoknots).

Keywords: selenocysteine, SECIS, protein engineering

Journal: In Silico Biology, vol. 2, no. 3, pp. 275-290, 2002