• Title/Summary/Keyword: TAR vector

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The Utility of TAR Vectors Used for Selective Gene Isolation by TAR Cloning. (TAR Cloning에 의한 선별적 유전자 분리에 사용되는 TAR Vectors의 유용성에 관한 연구)

  • 박정은;이윤주;정윤희;김재우;김승일;김수현;박인호;선우양일;임선희
    • Microbiology and Biotechnology Letters
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    • v.31 no.4
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    • pp.322-328
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    • 2003
  • The Transformation-Associated Recombination (TAR) cloning technique allows selective isolation of chromosomal regions and genes from complex genomes. The procedure requires knowledge of relatively small genomic sequences that reside adjacent to the chromosomal region of interest. This technique involves homologous recombination during yeast spheroplast transformation between genomic DNA and a TAR vector that has 5'and 3' gene targeting sequences. In this study, we examined the minimum size of specific hooks required for a single-copy gene isolation and compared the utility of different TAR vectors, radial and unique vectors, by cloning the same single-copy gene. The efficiency of TAR cloning of the hHPRT gene was same using hooks varying from 750 to 63 bp. The number of transformants decreased approximately 20-fold when the TAR vector contained two unique hooks versus using a radial vector, but the percentage of positive recombinants increased over 2-fold when a unique TAR vector was used. Therefore, we suggest that the two-unique TAR vector is suitable for general TAR cloning given its high selectivity, and the radial TAR vector is more suitable when genomic DNA is in limited quantity, for example, DNA isolated from pathological specimens. Moreover, we confirm the minimal length of a unique sequence in a TAR vector is approximately 60 bp for a single-copy gene isolation.

Effect of GC Content on Target Hook Required for Gene Isolation by Transformation-Associated Recombination Cloning (Transformation-associated recombination cloning에 의한 유전자 분리에 사용되는 target hook에 대한 GC content의 영향)

  • 김중현;신영선;윤영호;장형진;김은아;김광섭;정정남;박인호;임선희
    • Korean Journal of Microbiology
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    • v.39 no.3
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    • pp.128-134
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    • 2003
  • Transformation-associated recombination (TAR) cloning is based on co-penetration into yeast spheroplasts of genomic DNA along with TAR vector DNA that contains 5'- and 3'-sequences (hooks) specific for a gene of interest, followed by recombination between the vector and the human genomic DNA to establish a circular YAC. Typically, the frequency of recombinant insert capture is 0.01-1% for single-copy genes by TAR cloning. To further refine the TAR cloning technology, we determined the effect of GC content on target hooks required for gene isolation utilizing the $Tg\cdot\AC$ mouse transgene as the targeted region. For this purpose, a set of vectors containing a B1 repeated hook and Tg AC-specific hooks of variable GC content (from 18 to 45%) was constructed and checked for efficiency of transgene isolation by radial TAR cloning. Efficiency of cloning decreased approximately 2-fold when the TAR vector contained a hook with a GC content ~${\leq}23$% versus ~40%. Thus, the optimal GC content of hook sequences required for gene isolation by TAR is approximately 40%. We also analyzed how the distribution of high GC content (65%) within the hook affects gene capture, but no dramatic differences for gene capturing were observed.

Isolation of Human and Mouse Orthologue HPRT Genes by Transformation-Associated Recombination (TAR) cloning (TAR cloning 법에 의한 인간 및 마우스의 상동성 HPRT 유전자의 분리)

  • Do, Eun-Ju;Kim, Jae-Woo;Chung, Chung-Nam;Park, In-Ho;Leem, Sun-Hee
    • Journal of Life Science
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    • v.16 no.6
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    • pp.1036-1043
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    • 2006
  • The transformation-associated recombination (TAR) cloning technique allows selective isolation of chromosome regions or genes from complex genome. The procedure requires knowledge of relatively small genomic sequences that reside adjacent to the chromosome region of interest. This method involves homologous recombination during spheroplast transformation between genomic DNA and a TAR vector that has 5' and 3' gene targeting sequences (hooks). To examine whether TAR cloning can be applied to the isolation of gene homologues, we chose the HPRT genes from human and mouse genome. As results, the yield of positive clones for HPRT gene from human and mouse genome when using a TAR vector containing mHPRT hook or hHPRT hook was almost same level. Analysis of the gap regions in mHPRT revealed that they contain abnormalities that could result in instability of the sequences. In conclusion, we were able to use the TAR cloning technology to isolate gene homologue (orthologue) from nonidentical genome. Moreover, the use of the TAR cloning system may accelerate work on closing the remaining gaps in mammalian genome to achieve the goal of annotation of all mammalian genes.

Effect of Non-homologous Spacing in Target DNA Sequence on the Frequency of Cloning Based Homologous Recombination (Target DNA 염기서열 내에 존재하는 비상동성 간격이 상동성재조합을 이용한 클로닝 빈도에 미치는 영향)

  • Kim Jae-Woo;Do Eun-Ju;Yoon Se-Lyun;Jeong Yun-Hee;Yoon Young-Ho;Leem Sun-Hee;Sunwoo Yangil;Park In-Ho
    • Korean Journal of Microbiology
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    • v.41 no.4
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    • pp.239-245
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    • 2005
  • Transformation-Associated Recombination (TAR) cloning technique allows selective isolation of chromosomal regions and genes from complex genomes. The procedure requires knowledge of relatively small genomic sequences that reside adjacent to the chromosomal region of interest. This technique involves homologous recombination during yeast spheroplast transformation between genomic DNA and a TAR vector that has 5' and 3' gene targeting sequences. In this study, we examined the effect of non-homologous spacing sequence in target hooks on homologous recombination using a plasmid model system. The efficiency of homologous recombination between the modified his3-TRP1-his3 fragments and HlS3 gene on plasmid were analyzed by the characterization of $Ura^+$ transformants. The numbers of $Ura^+$ transformant showed same level when seven different modified his3-TRP1-his3 fragments were used. But the percentage of positive recombinants. $Trp^+His^-$, dramatically decreased when used the modified his3-TRP1-his3 fragments contained incorrect spacing of nonhomologous region. As a result, we suggest that incorrect spacing inhibits the homologous recombination between target hook and substrate DNA. Therefore, we should consider the correct spacing in target hook when the target hook are used for cloning of orthologue gene.

License-Plate Extraction for Parking Regulation Images with Various Background and Photographing Direction (다양한 배경과 촬영 방향에서 취득한 주차 단속 영상에서의 번호판 추출)

  • 권숙연;김영원;전병환
    • Proceedings of the IEEK Conference
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    • 2003.07d
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    • pp.1291-1294
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    • 2003
  • This paper presents an approach to extract license plates from parking regulation images which is captured in various photographing direction and complex background. first, we search each row at regular intervals starting from the bottom of a license-plate image, and we set up a rough region for a certain zone in which the sign of intensity vector changes frequently enough and color of license plate is detected enough, assuming it as a candidate location of a license plate. And then, we extract an elaborate area of a license plate by horizontally and vertically projecting vertical edges. Here, tar types of the private and the public, are easily classified according to the color of extracted plates. To evaluate proposed method, we used 200 actual regulation images. As a result, the proposed method showed extraction rate of 96%, which is 9% higher than the previous method using only intensity vector.

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