Raja Noor Zaliha Abd. Rahman scite author profile

The physical factors affecting the production of an organic solvent-tolerant protease from Pseudomonas aeruginosa strain K was investigated. Growth and protease production were detected from 37 to 45 degrees C with 37 degrees C being the optimum temperature for P. aeruginosa. Maximum enzyme activity was achieved at static conditions with 4.0% (v/v) inoculum. Shifting the culture from stationary to shaking condition decreased the protease production (6.0-10.0% v/v). Extracellular organic solvent-tolerant protease was detected over a broad pH range from 6.0 to 9.0. However, the highest yield of protease was observed at pH 7.0. Neutral media increased the protease production compared to acidic or alkaline media.

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Purification and characterization of a heat-stable alkaline protease from Bacillus stearothermophilus F1

Rahman¹,

Razak²,

Ampon³

et al. 1994

Appl Microbiol Biotechnol

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A thermophilic Bacillus stearothermophilus F1 that produced an extremely thermostable alkaline protease was isolated from decomposed oil palm branches. The isolated protease was purified to homogeneity by heat treatment, ultrafiltration and gel filtration chromatography with a 128-fold increase in specific activity and 75% recovery. The protease, which is a serine-type enzyme, has a relative molecular mass of 33 500 by sodium dodecyl sulphatepolyacrylamide gel electrophoresis but only 20 000 by gel-filtration chromatography. The enzyme was optimally active at pH 9.0 and was stable for 24 h at 70° C and in the pH range from 8.0 to 10.0. It was capable of hydrolysing many soluble and insoluble protein substrates but no esterase activity was detected. The enzyme activity was markedly inhibited by Co2+ and Hg2+, whereas Mg2+, Fe2+, Cu2+, Zn2+ and Sr2+ had little or no inhibitory effect. However, Mn2+ strongly activated the protease activity. The protease exhibited a high degree of thermostability [t 1/2 (85° C) = 4 h, (90° C) = 25 min]. The stability at higher temperatures (85° C and above) was shown to be dependent on the presence of Ca2+.

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Isolation and screening of an extracellular organic solvent-tolerant protease producer

Geok

Razak

Rahman

et al. 2003

Biochemical Engineering Journal

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A newly isolated organic solvent tolerant Bacillus sphaericus 205y producing organic solvent-stable lipase

Hun

Rahman

Salleh

et al. 2003

Biochemical Engineering Journal

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Ion Pairs Involved in Maintaining a Thermostable Structure of Glutamate Dehydrogenase from a Hyperthermophilic Archaeon

Rahman

Fujiwara

Nakamura³

et al. 1998

Biochemical and Biophysical Research Communications

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Secretory expression in Escherichia coli and single-step purification of a heat-stable alkaline protease

Fu¹,

Hamid

Razak

et al. 2003

Protein Expression and Purification

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Effect of Heat Treatment on Proper Oligomeric Structure Formation of Thermostable Glutamate Dehydrogenase from a Hyperthermophilic Archaeon

Rahman

Fujiwara

Takagi

et al. 1997

Biochemical and Biophysical Research Communications

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Gene cloning, sequencing and enzymatic properties of glutamate synthase from the hyperthermophilic archaeon Pyrococcus sp. KOD1

et al. 1997

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The gltA gene encoding a glutamate synthase (GOGAT) from the hyperthermophilic archaeon Pyrococcus sp. KOD1 was cloned as a 6.6 kb HindIII-BamHI fragment. Sequence analysis indicates that gltA encodes a 481- amino acid protein (53,269 Da). The deduced amino acid sequence of KOD1-GltA includes conserved regions that are found in the small subunits of bacterial GOGAT: two cysteine clusters, an adenylate-binding consensus sequence and an FAD-binding consensus sequence. However, no sequences homologous to the large subunit of bacterial GOGAT were found in the upstream or downstream regions. In order to examine whether GltA alone can act as a functional GOGAT, GltA was overexpressed in Escherichia coli BL21 (DE3) cells using an expression plasmid. GltA was purified to homogeneity and shown to be functional as a homotetramer of approximately 205 kDa, which is equivalent to the molecular weight of the native GOGAT from KOD1, thus indicating that KOD1-GOGAT is the smallest known active GOGAT. GltA is capable of both glutamine-dependent and ammonia-dependent synthesis of glutamate. Synthesis of glutamate by KOD1-GltA required NADPH, indicating that this enzyme is an NADPH-GOGAT (EC 1.4.1.13). The optimum pH for both activities was 6.5. However, GltA exhibited different optimum temperatures for activity depending on the reaction assayed (glutamine-dependent reaction, 80 degrees C; ammonia-dependent reaction, 90 degrees C).

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