• Journal of Microbiology and Biotechnology
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• v.11 no.6
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• pp.940-945
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• 2001

Symbiobacterium toebii has been previously reported as a novel commensal thermophile exhibiting a commensal interaction with thermophilic Geobacillus sp. SK-1. We investigated the distribution of this commensal thermophile in various soils using molecular methods, such as quantitative PCR and terminal restriction fragment polymorphism analysis. Based on a nested competitive quantitative PCR the 16S rDNA of the commensal thermophile was only detected in compost soils at about $1.0{\times}10^4$ cpoies per gram of soil, corresponding to $0.25{\times}10^4$ cells per gram of soil. However, in an enrichment experiment at $60^{\circ}C$, about $1.0{\times}10^8$ copies of 16S rDNA molecules were detected per ml of enriched culture broth for all the soils, and more than 0.1 mM indole accumulated as the product of commensal bacterial growth. When incubated at $30^{\circ}C$, neither the 16S rDNA of the commensal bacterium nor any indole accumulation was detected. Accordingly, even though the 16S rDNA of the bacterium was only detected in the compost soils by a nested PCR, the presence of the 16S rDNA molecules of commensal thermophile and accumulation of indole in all the enriched cultures appeared to indicate that the commensal thermophile is widely distributed in various soils.

• Journal of Microbiology and Biotechnology
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• v.13 no.6
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• pp.942-948
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• 2003

Soil samples were obtained from 5 sites contaminated with polycyclic aromatic hydrocarbons (PAHs). These soil samples were cultured in using phenanthrene as a sole carbon and energy source, and 36 strains of phenanthrene-degrading bacteria were isolated from 3 sites. Most of them degraded 500 ppm of phenanthrene within 8 to 10 days, and these isolates could degrade a few other PAHs other than phenanthrene. Their genotypes were determined by restriction digests of the l6S rRNA genes [amplified ribosomal DNA restriction analysis (ARDRA)]. It was found that all the phenanthrene degrading isolates were included in 4 ARDRA types, and they showed a strict site endemism. l6S rDNAs of 12 strains selected from different sites were sequenced, and they were all confirmed as Sphingomonas strains. Their l6S rDNA sequences were compared for phylogenetic analysis; their sequence showed a similar result to ARDRA typing, thus indicating that these heterotrophic soil bacteria are not regionally mixed. In addition, it was found that the microbial diversity among sampling sites could be monitored by l6S rDNA PCR-RFLP pattern alone, which is simpler and easier to perform, without l6S rDNA sequence analysis.

• Journal of Microbiology and Biotechnology
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• v.19 no.9
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• pp.888-897
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• 2009

Lipase diversity in glacier soil was assessed by culture-independent metagenomic DNA fragment screening and confirmed by cell culture experiments. A set of degenerate PCR primers specific for lipases of the hormone-sensitive lipase family was designed based on conserved motifs and used to directly PCR amplify metagenomic DNA from glacier soil. These products were used to construct a lipase fragment clone library. Among the 300 clones sequenced for the analysis, 201 clones encoding partiallipases shared 51-82% identity to known lipases in GenBank. Based on a phylogenetic analysis, five divergent clusters were established, one of which may represent a previously unidentified lipase subfamily. In the culture study, 11 lipase-producing bacteria were selectively isolated and characterized by 16S rDNA sequences. Using the above-mentioned degenerate primers, seven lipase gene fragments were cloned, but not all of them could be accounted for by the clones in the library. Two full-length lipase genes obtained by TAIL-PCR were expressed in Pichia pastoris and characterized. Both were authentic lipases with optimum temperatures of ${\le}40^{\circ}C$. Our study indicates the abundant lipase diversity in glacier soil as well as the feasibility of sequence-based screening in discovering new lipase genes from complex environmental samples.

• The Korean Journal of Soil Zoology
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• v.11 no.1_2
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• pp.106-109
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• 2006

Amynthas hupeiensis with 6/7/8/9 intersegmental spermathecal pores keys to the sieboldi-group in Sims and Easton (1972). Two pairs of round genital papillae are always between segments 17/18 and 18/19, and male pore regions are positioned in between the genital papillae. Korean Amynthas hupeiensis is usually collected from various agroecosystems. Description of the Amynthas hupeiensis is provided, including illustrations of ventral view and spermathecae, DNA barcoding data, and photo.

• Proceedings of the Korean Society of Soil and Groundwater Environment Conference
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• 1996.11a
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• pp.118-121
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• 1996

환경이 나이어린 학문 정도로 생각하는 것은 환경분야의 눈부신 발전과 연구를 모르는 데서 비롯된 오해이다. 산업화에 따른 산업재앙의 위기에. 처한 환경 선진국들은 이미 막대한 재정지원을 통해서 이미 오래전부터 최신 기법들을 이용한 실험들을 성공리에 마치고 있고 또 실제 생활에 활용하고 있다. 특히 환경오염에 대한 처리방법에 있어서 미국을 비롯한 선진국들은 유전공학을 이용한 최신기법들을 연구개발하고 있으며 이것은 매우 놀랍고 고무적인 일이다. 그런 의미에서, 이 글은 환경오염의 생물학적 처리복구기술에 있어서 DNA probe(DNA 탐침자)의 역할과 이 연구를 통한 미래환경발전의 전망에 대해 살펴보고자 한다.

• Proceedings of the Korean Society for Applied Microbiology Conference
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• 2000.04a
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• pp.100-107
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• 2000

In a recently developed strategy for in-situ treatment of polychlorinated biphenyls (PCB), bioaugmentation was used in conjunction with a surfactant, sorbitan trioleate, as a carbon source for the degrader bacteria, along with the monoterpene, carvone, and salicylic acid as inducing substrates. Two bacteria were used for soil inoculants, including Arthrobacter sp. st. B1B and Ralstonia eutrophus H850. This methodology achieved 60% degradation of PCBs in Aroclor 1242 after 18 weeks in soils receiving 34 repeated applications of the degrader bacteria. However, an obvious limitation was the requirement for soil mixing after every soil inoculation. In the research reported here, bioaugmentation and biostimulation treatment strategies were modified by using the earthworm, Pheretima hawayana, as a vector for dispersal and mixing of surface-applied PCB-degrading bacteria and soil chemical amendments. Changes in microbial biomass and microbial community structure due to earthworm effects were examined using DNA extraction and PCR-DGGE of 16S rDNA. Results showed that earthworms effectively promoted biodegradation of PCBs in bioaugmented soils to the same extent previously achieved using physical soil mixing, and had a lesser, but significant effect in promoting PCB biodegradation in biostimulated soils treated with carvone and salicylic acid. The effects of earthworms were speculated to involve many interacting factors including increased bacterial transport to lower soil depths, improved soil aeration, and enhanced microbial activity and diversity.

• Journal of Microbiology and Biotechnology
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• v.16 no.10
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• pp.1561-1569
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• 2006

Denaturing gradient gel electrophoresis (DGGE) is one of the most frequently used methods for analysis of soil microbial community structure. Unbiased PCR amplification of target DNA templates is crucial for efficient detection of multiple microbial populations mixed in soil. In this study, DGGE profiles were compared using different pairs of primers targeting different hypervariable regions of thirteen representative soil bacteria and clones. The primer set (1070f-1392r) for the E. coli numbering 1,071-1,391 region could not resolve all the 16S rDNA fragments of the representative bacteria and clones, and moreover, yielded spurious bands in DGGE profiles. For the E. coli numbering 353-514 region, various forward primers were designed to investigate the efficiency of PCR amplification. A degenerate forward primer (F357IW) often yielded multiple bands for a certain single 16S rDNA fragment in DGGE analysis, whereas nondegenerate primers (338f, F338T2, F338I2) differentially amplified each of the fragments in the mixture according to the position and the number of primer-template mismatches. A forward primer (F352T) designed to have one internal mismatch commonly with all the thirteen 16S rDNA fragments efficiently produced and separated all the target DNA bands with similar intensities in the DGGE profiles. This primer set F352T-519r consistently yielded the best DGGE banding profiles when tested with various soil samples. Touchdown PCR intensified the uneven amplification, and lowering the annealing temperature had no significant effect on the DGGE profiles. These results showed that PCR amplification bias could be much improved by properly designing primers for use in fingerprinting soil bacterial communities with the DGGE technique.

• Microbiology and Biotechnology Letters
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• v.32 no.1
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• pp.91-95
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• 2004

For the detection of the oil-degrading bacterium, Nocardia sp. Hl7-1, inoculated during the bioremediation of oil-contaminated soil, a species-specific primer was constructed based on the 16S rDNA sequence of this strain. Two forward primers and two reverse primers were designed and tested against both closely and distantly related bacterial strains. All the primers designed were specific to the Nocardia sp. H17-1. Particularly, primer sets NH169F-NH972R and NH575F-NH972R could be used to detect 50 fg of template DNA and TEX>$1.2${\times}$10^4$ CFU/g of sandy soil. These two PCR primer sets successfully detected the H 17-1 strain in the oil-con-laminated soil samples containing heterogeneous DNA. We also conformed the primer specificity by restriction-enzyme cleavage of the PCR products and denaturing gradient gel electrophoresis.

• Korean Journal of Microbiology
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• v.43 no.3
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• pp.179-185
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• 2007

In this study, we used the method of guanidin isothiocyanate and boiling with Chelex-100 resin to extract genomic DNA of Ralstonia solanacearum from soil. It is more efficient than general protocols to remove inhibitory compounds in soil and R. solanacearum on. Then, we applied polymerase chain reaction and DNA enzyme-linked immunosorbent assay (ELISA) to identify and detect pathogen. The fliC gene of R. solanacearum was selected for specific detection of pathogen and primer sets were designed. Among the primer sets, two specific and sensitive primer sets, RsolfliC(forward: 5-GAACGCCAACGGTGCGAACT-3 and reverse; 5-GGCGGCCTTCAGGGAGGTC-3, designed by J. $Sch\ddot{o}nfeld$ et al.) and RS_247 (forward: 5-GGCGGTCTGTCGGCRG-3 and reverse; 5-CGGTCGCGTTGGCAAC-3 designed by this study), were designed to perform nested PCR. Nested PCR primer was labeled with biotin for hybridization between nested PCR product and probe to analyze with DNA ELISA.

• Korean Journal of Environmental Biology
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• v.28 no.4
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• pp.212-217
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• 2010

Soil pollution by heavy metals has become a significant environmental concern due to a variety of human activities. Specially toxicity caused by excessive mercury exposure is now being recognized as a widespread environmental problem and is continuing to attract a great deal of public concerns. The earthworms are very important animals that aerate the soil with their burrowing action and enrich the soil by decomposing organic matters. Especially the earthworm Eisenia fetida is routinely used in ecotoxicological studies. The levels of DNA damage in earthworms treated with HgCl2 and ionizing radiation were investigated in this study. Genotoxic effects were evaluated in the earthworm's coelomocytes using the comet assay (Single Cell Gel Electrophoresis; SCGE). The results showed that the mercury chloride and radiation were responsible for the genotoxic effects on earthworms. The level of DNA damage significantly increased after the treatment of mercury chloride combined with ionizing radiation. The combined treatment of $HgCl_2$ and ionizing radiation had a greater genotoxicity. This study is amenable to further study such as enzyme activation assay.