Abstract
We have described previously that the flagella of the Euryarchaeon Pyrococcus furiosus are multifunctional cell appendages used for swimming, adhesion to surfaces and formation of cell-cell connections. Here, we characterize these organelles with respect to their biochemistry and transcription. Flagella were purified by shearing from cells followed by CsCl-gradient centrifugation and were found to consist mainly of a ca. 30 kDa glycoprotein. Polymerization studies of denatured flagella resulted in an ATP-independent formation of flagella-like filaments. The N-terminal sequence of the main flagellin was determined by Edman degradation, but none of the genes in the complete genome code for a protein with that N-terminus. Therefore, we resequenced the respective region of the genome, thereby discovering that the published genome sequence is not correct. A total of 771 bp are missing in the data base, resulting in the correction of the previously unusual N-terminal sequence of flagellin FlaB1 and in the identification of a third flagellin. To keep in line with the earlier nomenclature we call this flaB0. Very interestingly, the previously not identified flaB0 codes for the major flagellin. Transcriptional analyses of the revised flagellar operon identified various different cotranscripts encoding only a single protein in case of FlaB0 and FlaJ or up to five proteins (FlaB0-FlaD). Analysing the RNA of cells from different growth phases, we found that the length and number of detected cotranscript increased over time suggesting that the flagellar operon is transcribed mostly in late exponential and stationary growth phase.
Highlights
Archaea have been shown to possess various distinct types of cell surface appendages of which flagella are the best characterized ones
Sequence alignments illustrated that this N-terminal sequence did not perfectly match to the annotated flagellins of P. furiosus or to any of the other proteins translated from the published genome (Robb et al, 2001)
We detected another ORF coding for a third flagellin which we call flaB0 to keep in line with the existing nomenclature
Summary
Archaea have been shown to possess various distinct types of cell surface appendages (reviewed e.g., by Ng et al, 2008 or Jarrell et al, 2013) of which flagella are the best characterized ones These structures seem to be very similar to bacterial flagella; analyses of the ultrastructure, the involved proteins and the biosynthesis machinery identified fundamental differences (see e.g., Thomas et al, 2001 or Ghosh and Albers, 2011 for reviews on archaeal flagella). Flagellins are synthesized as preproteins; their signal peptide is removed by FlaK and an N-linked glycan is attached by the oligosaccharyltransferase AglB These posttranslationally modified subunits are supposed to be incorporated at the base of the growing non-tubular structure involving the activity of the ATPase FlaI and the conserved membrane protein FlaJ (Jarrell et al, 2013)
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