• 한국미생물생명공학회:학술대회논문집
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• 한국미생물생명공학회 2001년도 Proceedings of 2001 International Symposium
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• pp.35-39
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• 2001

The Integration Host factor (IHF) of Escherichia coli is a small, basic protein that is required for a variety of functions including site-specific recombination, transposition, gene regulation, plasmid replication, and DNA packaging. It ,is composed of two subunits that are encoded by the ihfA ($\alpha$-subunit) and ihjB ($\beta$-subunit) genes. IHF binding sites are composed of three elements called the WATCAR, TTG, and poly (dAT) elements. We have characterized IHF binding to the H site of bacteriophage λ. We have isolated suppressors that bind to altered H' sites using a challenge phage selection. Two different suppressors were isolated that changed the adjacent $\alpha$P64 and $\alpha$K65 residues. The suppressors recognized both the wild-type site and a site with a change in the WATCAR element. Three suppressors were isolated at $\beta$-E44. These suppressors bound the wild-type and a mutant site with a T：A to A：T change (H44A) in the middle of the TIR element. Site-directed mutagenesis was used to make several additional changes at $\beta$E44. The wild-type and $\beta$E44D mutant could not bind the wild-type site but were able to bind the H44A mutant site. Other mutants with neutral, polar, or a positive charge at $\beta$E44 were able to repress both the wild-type and H44A sites. Examination of the IHF crystal structure suggests that the ability of the wild-type and $\beta$E44D proteins to discriminate between the T：A and A：T basepairs is due to indirect interactions. The $\beta$-E44 residue does not contact the DNA directly. It imposes binding specificity indirectly by interactions with residues that contact the DNA. Details of the proposed interactions are discussed.

• International Journal of Industrial Entomology and Biomaterials
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• 제15권1호
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• pp.35-38
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• 2007

In this study, ORF 46 of Bombyx mod nucleopolyhedrovirus(Bm46) fused with EGFP was expressed in Bombyx mod cell lines, larvae and pupae by BmNPV Bacmid system. Bm46 and EGFP were cloned into donor plasmid pFastBacHTb, which was transformed to competent DH10B cells containing helper and BmNPV bacmid by site-specific transposition. Recombinant bacmid was used to transfected BmN-4 cells to produce the recombinant baculovirus vBm-Bm46-EGFP. Recombination virus was injected into silkworm larvae and pupae. The expression of the fusion protein was monitored by examining green fluorescence using a fluorescent microscope. Intense fluorescence in cells and silkworm was observed at 4 days post-infection, indicating the Bm46-EGFP fusion gene was expressed successfully.

• Journal of Plant Biotechnology
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• 제3권3호
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• pp.113-121
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• 2001

The use of a marker gene in a transformation process aims to give a selective advantage to the transformed cells, allowing them to grow faster and better, and to kill the non-transformed cells. In general, the selective gene is introduced into plant genome along with the genes of interest. In some cases, the marker gene can be the gene of interest that will confer an agronomic characteristic, such as herbicide resistance. In this review we list and discuss the use of the most common selective marker genes on plant transformation and the effects of their respective selective agents. These genes could be divided in categories according their mode of action: genes that confer resistance to antibiotics and herbicides; and genes for positive selection. The contention of the marker gene flow through chloroplast transformation is further discussed. Moreover, strategies to recover marker-free transgenic plants, involving multi-auto-transformation (MAT), co-transformation, site specific recombination and intragenomic relocation of transgenes through transposable elements, are also reviewed.

• Journal of Microbiology and Biotechnology
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• 제28권5호
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• pp.826-830
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• 2018

A Cre/loxP-${\delta}$-integration system was developed to allow sequential and simultaneous integration of a multiple gene expression cassette in Saccharomyces cerevisiae. To allow repeated integrations, the reusable Candida glabrata MARKER (CgMARKER) carrying loxP sequences was used, and the integrated CgMARKER was efficiently removed by inducing Cre recombinase. The XYLP and XYLB genes encoding endoxylanase and ${\beta}$-xylosidase, respectively, were used as model genes for xylan metabolism in this system, and the copy number of these genes was increased to 15.8 and 16.9 copies/cell, respectively, by repeated integration. This integration system is a promising approach for the easy construction of yeast strains with enhanced metabolic pathways through multicopy gene expression.

• Journal of applied mathematics & informatics
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• 제35권3_4호
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• pp.349-369
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• 2017

In last 30 years, mathematical tangle theory is applied to molecular biology, especially to DNA topology. The recent issues and research results of this topic are reviewed in this paper. We introduce a tangle which models an enzyme-DNA complex. The studies of 2-string tangle equations related to Topoisomerase II action and site-specific recombination is discussed. And 3-string tangle analysis of Mu-DNA complex, n-string tangle analysis ($n{\geq}4$) of DNA-enzyme synaptic complexes are also discussed.

• 식물조직배양학회지
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• 제25권6호
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• pp.453-475
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• 1998

During the 100 years since the initial discovery of meiotic phenomenon many brilliant aspects have been elucidated, but further researches based on light microscopy alone as an experimental tool have been found to have some limits and shortcomings. By the use of electron microscopy and armed with the advanced knowledges on modern genetics and biochemistry it has been possible to applu molecular technology in gaining information on the detailed aspects of meiosis. As synapsis takes place, a three-layered proteinous structure called the synatonemal complex starts to form in the space between the homologous chromosomes. To be more precise, it begins to form along the paired chromosomes early in the prophase I of meiotic division. The mechanism that leads to precise point-by-point pairing between homologous chromocomes division. The mechamism that leads to precise point-by-point pairing between homologous chromosomes remains to be ascertained. Several items of information, however, suggest that chromsome alignment leading to synapsis may be mediated somehow by the nuclear membrane. Pachytene bivalents in eukaryotes are firmly attached to the inner niclear membrane at both termini. This attached begins with unpaired leptotene chromosomes that already have developed a lateral element. Once attached, the loptotene chromosomes begin to synapse. A number of different models have been proposed to account for genetic recombination via exchange between DNA strands following their breakage and subsequent reunion in new arrangement. One of the models accounting for molecular recombination leading to chromatid exchange and chiasma formation was first proposed in 1964 by Holliday, and 30 years later still a modified version of his model is favored. Nicks are made by endomuclease at corresponding sites on one strant of each DNA duplex in nonsister chromatid of a bivalent during prophase 1 of meiosis. The nicked strands loop-out and two strands reassociate into an exchanged arrangement, which is sealed by ligase. The remaining intact strand of each duplex is nicked at a site opposite the cross-over, and the exposed ends are digested by exonuclease action. Considerable progress has been made in recent years in the effort to define the molecular and organization features of the centromere region in the yeast chromosome. Centromere core region of the DNA duplex is flanked by 15 densely packed nucleosomes on ons side and by 3 packed nucleosomes on the other side, that is, 2000 bp on one side and 400 400 bp in the other side. All the telomeres of a given species share a common DNA sequence. Two ends of each chromosome are virtually identical. At the end of each chromosome there exist two kinds of DNA sequence" simple telpmeric sequences and telpmere-associated sequencies. Various studies of telomere replication, function, and behabior are now in progress, all greatly aided by molecular methods. During nuclear division in mitosis as well as in meiosis, the nucleili disappear by the time of metaphase and reappear during nuclear reorganizations in telophase. When telophase begins, small nucleoli form at the NOR of each nucleolar-organizing chromosome, enlarge, and fuse to form one or more large nucleoli. Nucleolus is a special structure attached top a specific nucleolar-organizing region located at a specific site of a particular chromosome. The nucleolus is a vertical factory for the synthesis of rRNAs and the assenbly of ribosome subunit precursors.sors.

• 생명과학회지
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• 제23권2호
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• pp.290-298
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• 2013

Mycobacterium 속은 Mycobacterium tuberculosis, Mycobacterium leprae, Mycobacterium bovis와 같은 동물과 인체에 병원성을 나타내는 세균 종을 다수 포함하고 있다. 이들의 숙주에서의 생존과 병원성에 관한 유전학적 정보를 확보하는 것은 매우 중요하지만, 효과적인 유전학적 도구가 부족하였기 때문에 이들에 관한 연구가 미비하였다. 따라서 mycobacteria의 연구를 위한 분자생물학적 실험 도구로서 다양한 기능성 vector들이 고안되었고, 이러한 기능성 vector의 개발은 실질적으로 mycobacteria에서의 연구 효과를 증진시켰다. 본 연구에서는 Mycobacterium smegmatis에 적용 가능하고 기존에 제시되었던 mycobacteria 연구에 있어서의 한계점을 극복하기 위한 노력의 일환으로, 기능성 vector인 temperature-sensitive replication origin (TSRO)과 counterselectable marker로 levansucrase를 암호화하는 sacB 유전자를 포함하는 suicide vector pKOTs, chromosomal DNA로 site-specific recombination을 통해 삽입되는 lacZ transcriptional fusion vector pMV306lacZ, 그리고 TSRO를 가지는 minitransposon vector pTnMod-OKmTs를 개발하였다. 이 vector들은 실질적으로 M. smegmatis에서 효과적으로 작동하는 것이 확인되었으며 목적으로 하는 실험 결과 도출 가능성 또한 보여주었다. 따라서 이들 vector는 앞으로의 mycobacteria에 대한 효과적인 연구 기반이 될 것으로 기대된다.

• KSBB Journal
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• 제25권3호
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• pp.215-222
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• 2010

Monogenic disease의 치료를 위한 하나의 전략으로 viral vector를 이용한 gene therapy에 비해 독성이 적은 gene targeting 기술을 이용하기 위한 연구가 진행되고 있다. 이러한 연구의 주된 관점은 자연적인 HR의 낮은 효율을 개선하기 위한 DSB 유도 방법으로, 선택성을 높일 수 있는 긴 염기서열의 인식이 가능한 artificial endonuclease의 개발이다. 본 글에서는 이러한 artificial endonuclease 중, 가장 많이 연구 되고 있는 homing endonuclease와 zinc finger nuclease를 간략히 소개하였다. 전자와 후자 모두, 인식 서열에 대한 일정 수준의 tolerance (인식 서열 일부가 특이적이지 않아 다른 염기로 구성된 경우)가 존재하여, 일정한 비율로 다른 target을 절단할 수 있는 가능성이 존재한다. 이러한 점은, meganucleases를 치료 목적으로 이용할 때 세포 독성을 나타내는 근본원인 중 하나이다. 두 종 모두 이러한 특성을 가짐에도 불구하고, 완전한 비자연적인 후자보다는 전자의 경우가 보다 효과적이며 낮은 세포독성을 보이는 것으로 보고되고 있다. 물론 실험 조건이나 적용되는 세포 종류, 인위적인 단백질의 발현 정도에 따라 세포 독성유무 또는 정도에 차이가 나타남이 확인되고 있다. 이러한 사실들에 근거할 때, gene targeting을 유도하기 위한 artificial endonuclease의 서열 특이성을 증대시키는 것이 가장 중요하나, 그 외 여러 인자들에 대한 복합적인 연구 역시 필요함을 보여준다. 현재까지 실제 치료제로 쓰인 예는 없지만, 시험관내에서 보이는 결과와 모델 개체에서 이루어진 표적화정도, 관련된 단백질 치료제들이 지닌 잠재성을 비교할 때 매우 큰 가능성을 지니고 있음은 충분히 확인할 수 있다.

• Journal of Microbiology and Biotechnology
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• 제20권8호
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• pp.1163-1178
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• 2010

Plasmids play important roles in horizontal gene transfer among Vibrionaceae, but surprisingly little is known about their replication and incompatibility systems. In this study, we successfully developed a bioinformatics-assisted strategy of experimental identification of seven Vibrio plasmid replicons. Comparative sequences analysis of the seven Vibrio plasmid replicons obtained in this study together with eight published Vibrionaceae plasmid sequences revealed replication-participating elements involved in the ColE1 mode of replication initiation and regulation. Like plasmid ColE1, these Vibrionaceae plasmids encode two RNA species (the primer RNA and the antisense RNA) for replication initiation and regulation, and as a result, the 15 Vibrionaceae plasmids were designated as ColE1-like Vibrionaceae (CLV) plasmids. Two subgroups were obtained for the 15 CLV plasmids, based on comparison of replicon organization and phylogenetic analysis of replication regions. Coexistence of CLV plasmids were demonstrated by direct sequencing analysis and Southern hybridization, strongly suggesting that the incompatibility of CLV plasmids is determined mainly by the RNA I species like the ColE1-like plasmids. Sequences resembling the conserved Xer recombination sites were also identified on the CLV plasmids, indicating that the CLV plasmids probably use the host site-specific recombination system for multimer resolution like that used by ColE1-like plasmids. All the results indicated that the 15 plasmids form a new ColE1-like group, providing a basis for the rapid characterization and classification of Vibrionaceae plasmids.

• Journal of Photoscience
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• 제7권3호
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• pp.87-95
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• 2000

As sunlight not always optimized for every terrestrial plant in terms of light quality, quantity and duration, some plants suffer detrimental effects of sunlight exposure under certain conditions. Photoinhibition of photosynthesis is a typical phenomenon representing harmful light effects, commonly observed in many photosynthetic organisms. It is generally accepted that functional, structural loss of photosystem II complex(PSII) is the primary event of photoinhibition. Accumulating data also suggest that singlet oxygen($^1$O$_2$) is the main toxic species directly involved in it. There are two different views on the specific site and mechanism of $^1$O$_2$ production in the photosynthetic membrane. One of them favors the PSII reaction center, where the primary charge pairs recombination occurs as a prerequisite for the generation of $^1$O$_2$, and the other inclines to photosensitized $^1$O$_2$ formation by a substance located outside PSII. This article describes how we, as the advocators of the latter concept, have arrived at the conclusion that $^1$O$_2$ immediately involved in PSII photodamage is largely generated from the Rieske center of the cytochrome b$_{6}$/f complex and diffuses into PSII, attacking the reaction center subunits.s.