A gene encoding an extracellular protease, sptA, was cloned from the halophilic archaeon Natrinema sp. J7. It encoded a polypeptide of 565 amino acids containing a putative 49-amino acid signal peptide, a 103-amino acid propeptide, as well as a mature region and C-terminal extension, with a high proportion of acidic amino acid residues. The sptA gene was expressed in Haloferax volcanii WFD11, and the recombinant enzyme could be secreted into the medium as an active mature form. The N-terminal amino acid sequencing and MALDI-TOF mass spectrometry analysis of the purified SptA protease indicated that the 152-amino acid prepropeptide was cleaved and the C-terminal extension was not processed after secretion. The SptA protease was optimally active at 50 degrees C in 2.5 M NaCl at pH 8.0. The NaCl removed enzyme retained 20% of its activity, and 60% of the activity could be restored by reintroducing 2.5 M NaCl into the NaCl removed enzyme. When the twin-arginine motif in the signal peptide of SptA protease was replaced with a twin-lysine motif, the enzyme was not exported from Hfx. volcanii WFD11, suggesting that the SptA protease was a Tat-dependent substrate.
We determined the complete nucleotide sequence of the 16341 bp plasmid pHH205 of the extremely halophilic archaeon Halobacterium salinarum J7. The plasmid has a G+C content of 61.1%. A number of direct and inverted repeat sequences were found in pHH205, while no insertion sequences were found. Thirty-eight large open reading frames (ORFs) were identified in both strands, and most of them had no significant similarities to known proteins. A putative protein encoded by ORF31 showed 20-41% homology to some hypothetical proteins, which are annotated in several archaeal genome databases as predicted nucleic acid-binding proteins containing PIN domain. Sequence analysis using the GC skew procedure predicted a possible origin of replication. A 4.8 kb PvuII-SnaBI fragment containing both this region and ORF31 was shown to be able to restore replicate of pWL102, a replicon-deficient plasmid in Haloferax volcanii and in H. salinarum R1. Several methods failed to completely cure H. salinarum J7 of pHH205, suggesting that the plasmid probably played an important role in the growth and metabolism of the host. Our work describes a novel haloarchaeal replicon, which may be useful in the construction of cloning and shuttle vectors.
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