• Microbiology and Biotechnology Letters
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• v.26 no.2
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• pp.122-129
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• 1998

It were reported that antifungal mechanism of Enterobacter cloacae is a volatile ammonia that produced by the strain in soil, and the production of ammonia is related to the bacterial urease activity. A powerful bacterium SH14 against soil-borne pathogen Fusarium solani, which cause root rot of many important crops, was selected from a ginseng pathogen suppressive soil. The strain SH14 was identified as Bacillus subtilis by cultural, biochemical, morphological method, and $API^{circledR}$ test. From several in vitro tests, the antifungal substance that is produced from B. subtilis SH14 was revealed as heat-stable and low-molecular weight antibiotic substance. In order to construct the multifunctional biocontrol agent, the urease gene of Bacillus pasteurii which can produce pathogenes-suppressive ammonia transferred into antifungal bacterium. First, a partial BamH I digestion fragment of plasmid pBU11 containing the alkalophilic B. pasteurii l1859 urease gene was inserted into the BamH I site of pEB203 and expressed in Escherichia coli JM109. The recombinant plasmid was designated as pGU366. The plasmid pGU366 containing urease gene was introduced into the B. subtilis SH14 with PEG-induced protoplast transformation (PIP) method. The urease gene was very stably expressed in the transformant of B. subtilis SH14. Also, the optimal conditions for transformation were established and the highest transformation frequency was obtained by treatment of lysozyme for 90 min, and then addition of 1.5 ${mu}g$/ml DNA and 40% PEG4000. From the in vitro antifungal test against F. solani, antifungal activity of B. subtilis SH14(pGu366) containing urease gene was much higher than that of the host strain. Genetical development of B. subtilis SH14 by transfer of urease gene can be responsible for enhanced biocontrol efficacy with its antibiotic action.

• Korean Journal of Microbiology
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• v.24 no.4
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• pp.389-393
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• 1986

From the soil and river samples, some bacterial strains degrading chlorinated aromatic hydrocarbons were isolated and identified. Of the isolates, seven strains of Pseudomonas sp. harbouring plasmids were selected for their prominent degradative ability to 2-methyl-4-chlorophenoxyacetic acid. By agarose gel electrophoresis and curing experiment it was found that the genes for 2-methyl-4-chlorophenoxyacetic acid degradaiton were encoded on the plasmids in these selected strains. Antobiotic resistance and degradative ability for other herbicides of the strains were tested.

• Microbiology and Biotechnology Letters
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• v.32 no.4
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• pp.312-316
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• 2004

In oder to select the powerful rhizophere-dorminatable biocontrol agent, we had isolated an indigenous antagonistic bacterium which produced antibiotic and siderophore from a disease suppressive local field soil of Gyungsan, Korea. And we could select the Pseudomosp. 4059 which can strongly antagonize against Fusarium oxysporum and Phytophthora capsici by two kinds of antifungal mechanism that can be caused by the antibiotic of Phenazin, a siderophore and a auxin like subThe selected strain was identified as Pseudomonas fluorescens (biotype A) 4059 by biochemical tests, API $\textregistered$ test, MicroLog TM system and 16S rDNA analysis. The selected antagonistic microorganism, Pseudomosp. 4059 had an antifungal mechanism of antifungal antibiotic and sidrophore. And we were confirmed the antagonistic activity of P fluorescens 4059 with in vitro antifungal test against Phytophthora capsici and in vivo by red-pepper.

• Korean Journal of Microbiology
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• v.25 no.4
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• pp.346-352
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• 1987

One hundred and seventeen colonies were screened for the detection of the production of exodextranase on the dextran-mineral salts medium. Ten colonies out of them produced the dextranase. Flavobacterium multivorum greatly producing the enzyme was isolated from soil, identified and then studied for various biochemical characteristics. The activity of the dextranase in the cultured medium was high between pH8 and 9 at $35^{\circ}C$, and between $45^{\circ}C$ and $55^{\circ}C$ at pH8. By the growth curves the generation times of the bacterium were approximately 52 minutes in the LB broth, 38 minutes in the LB plus 1% dextran and 660 minutes in the dextran-salts. The strain did not have ant plasmid, and was susceptible to genramicin, cotrimoxazole and cefoperazone, and moderately susceptible to chloramphenicol, cefamandole and cefotaxime, but resistant to ampicillin, cephalothin, tetracycline, amikacin and tobramycin.

• Microbiology and Biotechnology Letters
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• v.49 no.3
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• pp.403-412
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• 2021

This study aimed to identify plant growth-promoting activity, phytopathogenic fungi growth inhibitory activity, mineral solubilization ability, and extracellular enzyme activity of the genus Bacillus in soil and the rhizosphere. With regards to antifungal activity against phytopathogenic fungi, DDP257 showed antifungal activity against all 10 pathogenic fungi tested. ANG20 showed the highest ability to produce indole-3-acetic acid, a plant growth-promoting factor (70.97 ㎍/ml). In addition, 10 species were identified to have 1-aminocyclopropane-1-carboxylate deaminase production ability, and most isolates showed nitrogen fixation and siderophore production abilities. Thereafter, the isolated strains' ability to solubilize minerals such as phosphate, calcite, and zinc was identified. With extracellular enzyme activity, the activity appeared in most enzymes. In particular, all the strains showed similar abilities for alkaline phosphatase, esterase (C4), acid phosphatase, and naphtol-AS-BI-phosphohydrolase production. This result was observed because the genus Bacillus secreted various organic substances, antibiotics, and extracellular enzymes. Therefore, through the results of this study, we suggest the possibility of using strains contributing to the improvement of the soil environment as microbial agents.

• Korean Journal of Food Science and Technology
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• v.24 no.3
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• pp.215-220
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• 1992

Several bacterial strains capable of degrading caffeine were isolated and studied for their biodegradation ability of the caffeine and some biochemical characteristics. The isolate KS-5 was identified as Pseudomonas putida and was designated as the P. putida KS-5. The optimum conditions were at $30^{\circ}C$, pH 7.0 and 1.0% caffeine. Agarose gel electrophoresis and curing experiment were found that the gene for caffeine degradation was encoded on the plasmid in P. putida KS-5 and that this strain was resistant to several antibiotics.

• Microbiology and Biotechnology Letters
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• v.31 no.2
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• pp.117-123
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• 2003

For screening of autoregulator receptor gene from Saccharopolyspora erythraea, PCR was performed with primers of receptor gene designed on the basis of amino acid sequences of autoregulator receptor proteins with known function. PCR products were subcloned into the BamHI site of pUC19 and transformed into the E. coli DH5$\alpha$. The isolated plasmid from transformant contained the fragment of 120 bp, which was detected on 2% gel after BamHI treatment. The insert, 120 bp PCR product, was confirmed as the expected internal segment of gene encoding autoregulator receptor protein by sequencing. Southern and colony hybridization using Saccha. erythraea chromosomal DNA were performed with the insert as probe. The plasmid (pEsg) having 3.2 kbp SacI DNA fragment from Saccha. erythraea is obtained. The 3.2 kbp SacI DNA fragment was sequenced by the dye terminator sequencing. The nucleotide sequence data was analyzed with GENETYX-WIN (ver 3.2) computer program and DNA database. frame analyses of the nucleotide sequence revealed a gene encoding autoregulator receptor protein which is a region including KpnI and SalI sites on 3.2 kbp SacI DNA fragment. The autoregulator receptor protein consisting of 205 amino acid was named EsgR by author. In comparison with known autoregulator receptor proteins, homology of EsgR showed above 30%.

• Microbiology and Biotechnology Letters
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• v.48 no.1
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• pp.38-47
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• 2020

This study was conducted to investigate both plant growth-promoting and plant disease- controlling activities of bacterial strains isolated from soil. All the isolated strains were able to grow at various temperatures. All the strains, except ANG40, showed antagonistic effects against various phytopathogenic fungi. This antagonism can be ascribed to the production of siderophores and antibiotic substances. In addition, all the strains showed abilities such as nitrogen fixation, phosphate solubilization, and siderophore production. These results suggest that nitrogen, phosphorus, and iron can be converted into forms that can be easily absorbed by the plants for their growth. Analysis of the growth-promoting properties revealed that ANG51 produced 1-aminocyclopropane-1-carboxylic acid (ACC) deaminase and indole-3-acetic acid (IAA) both of which are related to ethylene production. In contrast, the other strains were found to have only IAA-producing ability. Therefore, this study suggests that Pseudomonas geniculata ANG3, Exiguobacterium acetylicum ANG40, and Burkholderia stabilis ANG51, which were selected through analysis of comparative advantages for both plant growth promotion and disease-controlling activity, may be used as biological agents.

• Research in Plant Disease
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• v.18 no.4
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• pp.376-380
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• 2012

A survey of bacterial species associated with Korean isolates of pine wood nematode (PWN) was performed. A total of 110 bacterial isolates were obtained from the PWN isolates that were previously isolated from Pinus densiflora and P. koraiensis. Among the bacterial isolates, Cedecea neteri was most frequent (64 isolates) followed by Ewingella americana (21 isolates), Pseudomonas sp. (15 isolates), Flavobacterium sp. (8 isolates) and Rahnella aquatilis (2 isolates). Both E. americana and Pseudomonas sp. which are assumed to be closely associated with PWN were examined for their phytotoxicity to P. thunbergii seedlings. Ethyl acetate extracts of Psuedomonas sp. (Ba2 strain) cultures were found to induce wilting and mortality in the tested seedlings. The three bacterial species, Pseudomonas sp. (Ba2 strain), E. ameircana (Ba4 strain) and C. neteri (Ba10 strain) were examined in vitro for their sensitivity to 21 kinds of antibiotics. All of the strains were highly susceptible to carbenicillin, doxcycline and tetracycline.

• Applied Biological Chemistry
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• v.36 no.1
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• pp.11-16
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• 1993

A bacteria strain producing extracellular protein was isolated and identified from soil samples, and the optimum conditions of producing protein were investigated. Eleven strains of bacteria were isolated from soil samples. Among which WY-60 strain showed a very strong capability of producing protein and identified as a Bacillus sp. The optimum composition of nutrient medium for the production of the protein by WY-60 was fructose 4.0%, polypeptone 1.0%, $NH_4NO_3$ 0.1%, $K_2HPO_4$ 0.1%, $MgSO_4{\cdot}7H_2O$ 0.005%, $CaCO_3$ 1.0% and the optimum pH and temperature were 8.0 and $30^{\circ}C$, respectively. The penicillin G and lincomycin added to the above medium were effective for the protein production of the WY-60, but other antibiotics were non-effective. The maximum production of protein was obtained after 5 days culture.