1. Analysis of the targeting sequences of an iron-containing superoxide dismutase (SOD) of the dinoflagellate Lingulodinium polyedrum suggests function in multiple cellular compartments
- Author
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Andrzej Bodył and Paweł Mackiewicz
- Subjects
Signal peptide ,Electrophoresis ,Molecular Sequence Data ,Leaky scanning ,Biology ,Peroxisome localization ,Protein Sorting Signals ,Biochemistry ,Microbiology ,Start codon ,Transit Peptide ,Genetics ,Peroxisomes ,Animals ,Plastids ,Plastid ,Molecular Biology ,Cell Nucleus ,Base Sequence ,Superoxide Dismutase ,fungi ,General Medicine ,biology.organism_classification ,Genetic translation ,Mitochondria ,Protein Structure, Tertiary ,Isoenzymes ,Protein Transport ,Protein Biosynthesis ,Dinoflagellida ,Lingulodinium polyedrum ,Reactive Oxygen Species - Abstract
One of the proteins targeted to the peridinin plastid of the dinoflagellate Lingulodinium polyedrum is the iron-containing superoxide dismutase (LpSOD). Like dinoflagellate plastid proteins of class II, LpSOD carries a bipartite presequence comprising a signal peptide followed by a transit peptide. Our bioinformatic studies suggest that its signal peptide is atypical, however, and that the entire presequence may function as a mitochondrial targeting signal. It is possible that LpSOD represents a new class of proteins in algae with complex plastids, which are co-targeted to the plastid and mitochondrion. In addition to the ambiguous N-terminal targeting signal, LpSOD contains a potential type-1 peroxisome-targeting signal (PTS1) located at its C-terminus. In accordance with a peroxisome localization of this dismutase, its mRNA has two in-frame AUG codons. Our bioinformatic analyses indicate that the first start codon resides in a much weaker oligonucleotide context than the second one. This suggests that synthesis of the plastid/mitochondrion-targeted and peroxisome-targeted isoforms could proceed through so-called leaky scanning. Moreover, our results show that expression of the two isoforms could be regulated by a 'hairpin' structure located between the first and second start codons.
- Published
- 2006