pubmed:abstractText |
A number of unrelated protein-encoding genes from sulfothermophilic archaea, Sulfolobus acidocaldarius, Sulfolobus solfataricus, Pyrococcus furiosus and Pyrococcus woesei, has been analyzed. In the Sulfolobus genus, the content of A + T is significantly higher than that of C + G and the base usage follows the order, A > T > G > C. In Pyrococcus, the A + T content is also higher than that of C + G, but with lower values; in the order of base usage, G precedes T. The codon usage of these sulfothermophiles has been determined; alternative start codons are frequently used in both genera; codon preferences reflect the rich A + T composition of the corresponding genomes; for both genera the codon bias is particularly evident within the different arginine triplets, where AGA and AGG are predominant. From the similarities in the codon usage, close taxonomic relationships become evident within the Sulfolobus or the Pyrococcus genus; a lower, but significant similarity is also clear between these genera. The synonymous codon usage of these sulfothermophiles shows similarities with that of Saccharomyces cerevisiae and bovine mitochondria, whereas clear divergences are observed with the halophilic archaeal genus, Halobacterium, or the eubacterium, Escherichia coli. The unrelated proteins of the considered sulfothermophiles have been analyzed for the content of hydrophobic residues; the comparison with mesophiles reveals a significant increase in the average hydrophobicity of amino acid residues. This finding could indicate a mechanism of adaptation of proteins in organisms living under extreme environments. It is noteworthy that an opposite trend, i.e. a decreased average hydrophobicity, occurs in unrelated halophilic proteins.
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