An unidentified halophilic archaebacterium strain 172 P1 produced three extracellular proteases in media containing 15-27% salts. One component, F-II, was purified to homogeneity. It is a serine protease that can be inhibited by phenylmethylsulfonyl fluoride and chymostatin. A high concentration of NaCl was required for its stability; in the presence of 25% NaCl, only 4% of the activity was lost by incubating at 60 degrees C for 30 min, while complete inactivation occurred in the presence of 5% NaCl. F-II is a thermophilic and halophilic protease. High activity was obtained at 75-80 degrees C when F-II was assayed in the presence of 25% NaCl. The optimal concentration of NaCl required was 10-14% when assayed at 70 degrees C with azocasein as substrate, though a halophilic characteristic was not distinct at lower temperatures. Hydrolyses of the synthetic substrates succinyl-alanyl-alanyl-prolyl-phenylalanyl-4-methylcoumaryl-7-amide or succinyl-alanyl-alanyl-alanyl-p-nitroanilide at 26 degrees C were maximal at 25 and 30% NaCl, respectively. F-II was most stable at pH 6-7, and its optimal pH was 10.7. Its molecular weight was estimated as 44,000-46,000 by sodium dodecyl sulfate--polyacrylamide gel electrophoresis and by gel filtration--high-pressure liquid chromatography. The sequence of the 35 N-terminal amino acid residues was determined and compared with that of other serine proteases.
The gene of a halophilic alkaline serine protease, halolysin, from an unidentified halophilic archaea (archaebacterium) was cloned and its nucleotide sequence was determined. The deduced amino acid sequence showed that halolysin consists of 411 amino acids, with a molecular weight of 41,963. The highest homology was found with thermitase from Thermoactinomyces vulgaris. Halolysin has a long C-terminal extension of approximately 120 amino acids which has not been found in other extracellular subtilisin type serine proteases. The gene, hly, was expressed in another halophilic archaea, Haloferax volcanii, in a medium containing 18% salts by using a plasmid shuttle vector which has a novobiocin resistance determinant as a selectable marker.
Membrane vesicles prepared from an extreme halophile strain, HT (JCM 9743), showed no bacteriorhodopsin activity. However, a DNA fragment, amplified by polymerase chain reaction (PCR), appeared to encode the C to G helices of a bacteriorhodopsin (bR)-like protein. With the PCR product as a probe, the gene coding for a novel bacteriorhodopsin was cloned from the genomic DNA of the strain HT. The open reading frame of the gene was ligated with the promoter region of the bop gene of Halobacterium salinarum bR, and expressed in a bR-deficient host strain, L33, using the plasmid vector pXLNov-R. The purplish membrane fraction purified from cells of a transformant exhibited a cyclic photoreaction characteristic of bacteriorhodopsin.
A part of the gene coding for a halophilic serine protease from a halophilic archaeum Haloferax mediterranei R4 was amplified by PCR and its 672 nucleotide sequence was determined. Tentative translation to the amino acid sequence suggested that the enzyme was quite similar to halolysin produced by another halophilic archaeum strain 172P1. Nucleotide sequences of 16S rRNA encoding genes from 9 halophilic archaea were determined. Alignment of 19 sequences known so far showed that there are more than 20 positions carrying bases or deletions specific for each halobacterial genus: Halobacterium, Haloarcula, Haloferax, and Halococcus.
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