Spiralin polymorphism in strains of Spiroplasma citri is not due to differences in posttranslational palmitoylation

Abstract

Spiralin is defined as the major membrane protein of the helical mollicute Spiroplasma citri. According to the S. citri strain used, spiralin shows polymorphism in its electrophoretic mobility. The spiralin gene sequences of eight S. citri strains were determined by direct sequencing of the PCR-amplified genes. All spiralins were found to be 241 amino acids long, except for the spiralin of strain Palmyre, which is 242 amino acids long. The molecular masses calculated from these sequences did not explain the differences observed in the electrophoretic mobilities. In all of the spiralins examined, the first 24 N-terminal amino acids were conserved, including a cysteine at position 24, and had the features of typical signal peptides of procaryotic lipoproteins. When S. citri strains were grown in the presence of [3H]palmitic acid, at least 10 proteins, including spiralin, became labeled. In the presence of globomycin, a lipoprotein signal peptidase inhibitor in eubacteria, apparently unprocessed spiralin could be detected. Formic acid hydrolysis of the [3H]palmitic acid-labeled spiralins of four representative S. citri strains yielded two peptide fragments for each spiralin, as expected from the gene sequence. On fragment was [3H]palmitic acid labeled, and it had almost the same electrophoretic mobility irrespective of the spiralins used. Samples of the unlabeled peptide fragments from the four representative strains had slightly different electrophoretic mobilities (delta Da approximately equal to 800 Da); however, these were much smaller than those of the whole spiralins before formic acid hydrolysis (delta Da approximately equal to 8,000 Da). These results suggest that spiralin polymorphism in S. citri is not due to differences in posttranslational modification by palmitic acid and is certainly a structural property of the whole protein or could result from an unidentified posttranslational modification of spiralin.