Mitsuyoshi Okuda scite author profile

A novel gram-positive, strictly aerobic, motile, sporulating, and facultatively alkaliphilic bacterium designated KSM-KP43 was isolated from a sample of soil. The results of 16S rRNA sequence analysis placed this bacterium in a cluster with Bacillus halmapalus. However, the level of the DNA-DNA hybridization of KSM-KP43 with B. halmapalus was less than 25%. Moreover, the G + C contents of the genomic DNA were 41.6 mol% for KSM-KP43 and 38.6 mol% for B. halmapalus. Because there were also differences in physiological properties and cellular fatty acid composition between the two organisms, we propose KSM-KP43 as a novel species of alkaliphilic Bacillus. This novel strain produces a new class of protease, an oxidatively stable serine protease that is suitable for use in bleach-based detergents. The enzyme contained 640 amino acid residues, including a possible approximately 200-amino-acid prepropeptide in the N-terminal and a unique stretch of approximately 160 amino acids in the C-terminal regions (434-amino-acid mature enzyme with a calculated molecular mass of 45,301 Da). The C-terminal half after the putative catalytic Ser255 and the contiguous C-terminal extension shared local similarity to internal segments of a membrane-associated serine protease of a marine microbial assemblage and the serine protease/ABC transporter precursors of the slime mold Dictyostelium discoideum, and to the C-terminal half of a cold-active alkaline serine protease of a psychrotrophic Shewanella strain.

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Novel Oxidatively Stable Subtilisin-like Serine Proteases from Alkaliphilic Bacillus spp.: Enzymatic Properties, Sequences, and Evolutionary Relationships

Saeki

Okuda

Hatada

et al. 2000

Biochemical and Biophysical Research Communications

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Accumulation of compatible solutes, ectoine and hydroxyectoine, in a moderate halophile, Halomonas elongata KS3 isolated from dry salty land in Thailand

Ono

Okuda

Tongpim

et al. 1998

Journal of Fermentation and Bioengineering

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Novel Allylic Oxidation of α-Cedrene to sec -Cedrenol by a Rhodococcus Strain

Takigawa

Kubota

Sonohara

et al. 1993

Appl Environ Microbiol

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A bacterial strain, designated KSM-7358, that can use of-cedrene for growth was isolated. The strain was identified as a member of the genus Rhodococcus and catalyzed the novel allylic oxidation of a-cedrene regiospecifically to produce (R)-10-hydroxycedrene (sec-cedrenol) with a very high yield. ai-Curcumene was also produced as a possible metabolite of sec-cedrenol. A possible pathway for the microbial conversion of a-cedrene to sec-cedrenol and a-curcumene is proposed.

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A new subtilisin family: nucleotide and deduced amino acid sequences of new high-molecular-mass alkaline proteases from Bacillus spp.

et al. 2004

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Six genes encoding high-molecular-mass subtilisins (HMSs) of alkaliphilic Bacillus spp. were cloned and sequenced. Their open reading frames of 2,394-2,424 bp encoded prosubtilisins of 798-808 amino acids (aa) consisting of the prepropeptides of 151-158 aa and the mature enzymes of 640-656 aa. The deduced aa sequences of the mature enzymes exhibited 60-95% identity to those of FT protease of Bacillus sp. strain KSM-KP43, a subtilisin-like serine protease, and a minor serine protease, Vpr, of Bacillus strains. Three of the six recombinant enzymes were susceptible to proteolysis, but the others were autodigestion resistant. All enzymes had optimal pH values of 10.5-11.0, optimal temperatures of 40-45 degrees C for hydrolysis of a synthetic substrate, and were heat labile. These alkaline proteases seem to form a new subtilisin family, as judged by their aa sequences and phylogenetic analysis.

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