Identification of amino acids in the leader peptide of Methanococcus voltae preflagellin that are important in posttranslational processing.

Archaeal flagellins are made initially as preproteins with short, positively charged leader peptides. Analysis of all available archaeal preflagellin sequences indicates that the -1 position is always held by a glycine while the -2 and -3 positions are almost always held by charged amino acids. To evaluate the importance of these and other amino acids in the leader peptides of archaeal flagellins for processing by a peptidase, Methanococcus voltae mutant FlaB2 preflagellin genes were generated by PCR and the proteins tested in a methanogen preflagellin peptidase assay that detects the removal of the leader peptide from preflagellin. When the -1 position was changed from glycine to other amino acids tested, no cleavage was observed by the peptidase, with the exception of a change to alanine at which poor, partial processing was observed. Amino acid substitutions at the -2 lysine position resulted in a complete loss of processing by the peptidase, while changes at the -3 lysine resulted in partial processing. A mutant preflagellin with a leader peptide shortened from 12 amino acids to 6 amino acids was not processed. When the invariant glycine residue present at position +3 was changed to a valine, no processing of this mutant preflagellin was observed. The identification of critical amino acids in FlaB2 required for proper processing suggests that a specific preflagellin peptidase may cleave archaeal flagellins by recognition of a conserved sequence of amino acids.