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- 저자 : Vladimir Larionov (검색결과 3 건)
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Noskov, Vladimir N,Chuang, Ray-Yuan,Gibson, Daniel G,Leem, Sun-Hee,Larionov, Vladimir,Kouprina, Natalay Nature Publishing Group, a division of Macmillan P 2011 NATURE PROTOCOLS -ELECTRONIC EDITION- Vol.6 No.1
Circular yeast artificial chromosomes (YACs) provide significant advantages for cloning and manipulating large segments of genomic DNA in Saccharomyces cerevisiae. However, it has been difficult to exploit these advantages, because circular YACs are difficult to isolate and purify. Here we describe a method for purification of large circular YACs that is more reliable compared with previously described protocols. This method has been used to purify YACs up to 600 kb in size. The purified YAC DNA is suitable for restriction enzyme digestion, DNA sequencing and functional studies. For example, YACs carrying full-size genes can be purified from yeast and used for transfection into mammalian cells or for the construction of a synthetic genome that can be used to produce a synthetic cell. This method for isolating high-quality YAC DNA in microgram quantities should be valuable for functional and synthetic genomic studies. The entire protocol takes ∼3 d to complete.
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이상엽,윤영호,김시훈,이세라,추정민,김승일,강태홍,정진웅,Vladimir Larionov,임선희 한국유전학회 2012 Genes & Genomics Vol.34 No.6
CHO (Chinese Hamster ovary) cells are widely used for biotechnology and biomedical purposes, and now the EST library database of CHO cells is built. Based on this, the construction of the hamster genome library is under exertion. Though the transformation-associated recombination (TAR) cloning method is accounted as an innovative cloning technology without the construction of the genome library in human and mouse,there has been no trial to isolate the genomic fragment from hamster genome by TAR cloning. In this study, approximately 31 kb of hamster genomic fragment was isolated from the normal human/hamster mono-chromosomal somatic cell line (UV5HL9-5B) using universal hooks of rodent repeats sequence of B1 and B2 by TAR cloning. This fragment was analyzed by bioinformatics tools related to the genome alignment for the similarity analysis among rodent and primate,and was classified into rodents by phylogenetic analysis. One putative gene was found in this region which has homology with the human c14orf4 gene. A zinc finger protein domain was found in the translated hamster ORF. Therefore, we suggest that TAR cloning technique can be applied in CHO cells using mouse genomic information, and it can lead to the estab-lishment of the hamster genome database.
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윤세련,노윤길,추인선,허정훈,김승일,장희경,강태홍,정진웅,고상석,Vladimir Larionov,임선희 생화학분자생물학회 2016 Experimental and molecular medicine Vol.48 No.-
Aberrant expression of BORIS/CTCFL (Brother of the Regulator of Imprinted Sites/CTCF-like protein) is reported in different malignancies. In this study, we characterized the entire promoter region of BORIS/CTCFL, including the CpG islands, to assess the relationship between BORIS expression and lung cancer. To simplify the construction of luciferase reporter cassettes with various-sized portions of the upstream region, genomic copies of BORIS were isolated using TAR cloning technology. We analyzed three promoter blocks: the GATA/CCAAT box, the CpG islands and the minisatellite region BORIS-MS2. Polymorphic minisatellite sequences were isolated from genomic DNA prepared from the blood of controls and cases. Of the three promoter blocks, the GATA/CCAAT box was determined to be a critical element of the core promoter, while the CpG islands and the BORIS-MS2 minisatellite region were found to act as regulators. Interestingly, the polymorphic minisatellite region BORIS-MS2 was identified as a negative regulator that repressed the expression levels of luciferase reporter cassettes less effectively in cancer cells compared with normal cells. We also examined the association between the size of BORIS-MS2 and lung cancer in a case–control study with 590 controls and 206 lung cancer cases. Rare alleles of BORIS-MS2 were associated with a statistically significantly increased risk of lung cancer (odds ratio, 2.04; 95% confidence interval, 1.02–4.08; and P=0.039). To conclude, our data provide information on the organization of the BORIS promoter region and gene regulation in normal and cancer cells. In addition, we propose that specific alleles of the BORIS-MS2 region could be used to identify the risk for lung cancer.
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