• Title/Summary/Keyword: gene knock-out

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Characterization of a New Gene Resistant to Alkylating Agents and 3-Aminobenzamide When Knocked Out in Fission Yeast (분열형 효모에서 유전자 결실에 의해 알킬화제와 3-AMINOBENZAMIDE에 저항성을 나타내는 새로운 유전자의 특성 분석)

  • 박종군;차재영;황성진;박세근;김미영;백성민;최인순;이정섭
    • Journal of Life Science
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    • v.12 no.2
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    • pp.219-225
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    • 2002
  • The organization of eukayotic chromatin into specific conformation that are associated with transcription, replication, reapir and other nuclear processes are achieved via a series of DNA-protein interaction. These interactions are mediated by a range of DNA-binding domains such as SAP domain et at. By searching S. pombe genomic DNA database, we have found a gene named SAPuvs (SAP UV Sensitive) whose amino acid sequence is in part similar to SAP domain of Arabidopsis poly (ADP-ribose) polymerase and Ku7O. Knock-out cell of S. pombe SAPuvs gene was constructed using Ura4 as a selection marker. Survival analysis of knock-out cell indicated that treatment with UV significantly reduces the survival compared to wild type cell. Potentiation of MMS-induced cytotoxicity by 3AB post-treatment was observed in wild type cells, but not in knock-out cells. These data suggested that the protein encoded by SAPuvs gene is associated with chromatin reorganization during DNA repair.

Endotoxin-induced renal tolerance against ischemia and reperfusion injury is removed by iNOS, but not eNOS, gene-deletion

  • Kim, Jee-In;Jang, Hee-Seong;Park, Kwon-Moo
    • BMB Reports
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    • v.43 no.9
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    • pp.629-634
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    • 2010
  • Endotoxin including lipopolysaccharide (LPS) confers organ tolerance against subsequent challenge by ischemia and reperfusion (I/R) insult. The mechanisms underlying this powerful adaptive defense remain to be defined. Therefore, in this study we attempted to determine whether nitric oxide (NO) and its associated enzymes, inducible NOS (iNOS) and endothelial NOS (eNOS, a constitutive NOS), are associated with LPS-induced renal tolerance against I/R injury, using iNOS (iNOS knock-out) or eNOS (eNOS knock-out) gene-deleted mice. A systemic low dose of LPS pretreatment protected kidney against I/R injury. LPS treatment increased the activity and expression of iNOS, but not eNOS, in kidney tissue. LPS pretreatment in iNOS, but not eNOS, knock-out mice did not protect kidney against I/R injury. In conclusion, the kidney tolerance to I/R injury conferred by pretreatment with LPS is mediated by increased expression and activation of iNOS.

Enhanced Homologous Recombination in Fusarium verticillioides by Disruption of FvKU70, a Gene Required for a Non-homologous End Joining Mechanism

  • Choi, Yoon-E.;Shim, Won-Bo
    • The Plant Pathology Journal
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    • v.24 no.1
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    • pp.1-7
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    • 2008
  • Fusarium verticillioides (teleomorph Gibberella moniliformis) is associated with maize worldwide causing ear rot and stalk rot, and produces fumonisins, a group of mycotoxins detrimental to humans and animals. While research tools are available, our understanding of the molecular mechanisms associated with fungal virulence and fumonisin biosynthesis in F. verticillioides is still limited. One of the restraints that hampers F. verticillioides gene characterization is the fact that homologous recombination (HR) frequency is very low (<2%). Screening for a true gene knock-out mutant is a laborious process due to a high number of ectopic integrations. In this study, we generated a F. verticillioides mutant (SF41) deleted for FvKU70, a gene directly responsible for non-homologous end-joining mechanism, with the aim of improving HR frequency. Here, we demonstrate that FvKU70 deletion does not impact key Fverticillioides phenotypes, e.g., development, secondary metabolism, and virulence, while dramatically improving HR frequency. Significantly, we also confirmed that a high percentage (>85%) of the HR mutant strains harbor a desired mutation with no additional copy of the mutant allele inserted in the genome. We conclude that SF41 is suitable for use as a type strain when performing high-throughput gene function studies in F. verticillioides.

Physiological Roles of Bacillus subtilis thiol peroxidase gene in response to oxidative stress (산화적 스트레스에 대한 Bacillus subtilis의 thiol peroxidase 유전자의 생리적인 기능)

  • Kim, Ha-Kun;Kim, Sung-Jin
    • The Journal of Natural Sciences
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    • v.15 no.1
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    • pp.57-67
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    • 2005
  • In Order to investigate the physiological role of thiol peroxidase in Bacillus subtilis, a thiol peroxidase (btpx) knock-out mutant was generated by homologous recombination. The growth of btpx knock-out mutant in aerobic condition showed a similar pattern with that of wild type of Bacillus subtilis 168/ But btpx knock-out mutant showed a retarded growht in response to oxidative stress such as $H_2O_2$, cumene hydroperoxide (CHP) treatments.

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Reverse-engineering of Gene Regulatory Network of S. cerevisiae using Knock-out Data (Knock-out Data 를 이용한 S. Cerevisiae 유전자 조절망의 재구성)

  • Hong, Seong-Yong;Sohn, Ki-Rack
    • Proceedings of the Korea Information Processing Society Conference
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    • 2005.11a
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    • pp.603-606
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    • 2005
  • 하나의 유전자는 또 다른 유전자의 단백질과 프로모터 영역에서 Binding 함으로써 그 유전자의 발현에 영향을 미칠 수 있다. 이러한 두 유전자간의 조절 상호 작용을 유전자 조절망이라 하며 유전체의 핵심적인 기능을 보다 간결하게 표현하는 조절망을 설계할 수 있다. 대표적인 설계 방법으로는 Time-Series Data 를 이용한 방법과 Steady-State Data 를 이용하는 방법이 있으며 이 논문에서는 Steady-State Data 즉, Knock-out Data 를 이용하여 유전자 조절망을 재구성함으로써 기존의 방법을 개선하여 보다 정확한 결과 예측을 목표로 한다.

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Efficient Production of loxP Knock-in Mouse using CRISPR/Cas9 System

  • Jung, Sundo
    • Biomedical Science Letters
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    • v.26 no.2
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    • pp.114-119
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    • 2020
  • Of the various types of mice used for genome editing, conditional knock-out (cKO) mice serve as an important model for studying the function of genes. cKO mice can be produced using loxP knock-in (KI) mice in which loxP sequences (34 bp) are inserted on both sides of a specific region in the target gene. These mice can be used as KO mice that do not express a gene at a desired time or under a desired condition by cross-breeding with various Cre Tg mice. Genome editing has been recently made easy by the use of third-generation gene scissors, the CRISPR-Cas9 system. However, very few laboratories can produce mice for genome editing. Here we present a more efficient method for producing loxP KI mice. This method involves the use of an HDR vector as the target vector and ssODN as the donor DNA in order to induce homologous recombination for producing loxP KI mice. On injecting 20 ng/µL of ssODN, it was observed that the target exon was deleted or loxP was inserted on only one side. However, on injecting 10 ng/µL of the target HDR vector, the insertion of loxP was observed on both sides of the target region. In the first PCR, seven mice were identified to be loxP KI mice. The accuracy of their gene sequences was confirmed through Sanger sequencing. It is expected that the loxP KI mice produced in this study will serve as an important tool for identifying the function of the target gene.

TALEN Constructs and Validation for Targeting of SETDB1 Genomic DNA (SETDB1 genomic DNA 를 표적하는 TALEN construct 제작 및 분석)

  • Noh, Hee-Jung;Kang, Yoonsung;Kim, Keun-Cheol
    • Journal of Life Science
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    • v.24 no.12
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    • pp.1269-1275
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    • 2014
  • TALEN is a newly developed gene engineering method to knock out specific genes. It contains a DNA binding domain and a Fok1 nuclease domain in the TALEN plasmid. Therefore, the engineered TALEN construct can bind to any region of genomic DNA and cut the target nucleotide, thereby inducing mutation. In this study, we constructed two TALEN constructs targeted to a protein initiation codon (DBEX2) or the 25th upstream region (DBPR25) to enable mRNA synthesis of SETDB1 HMTase. We performed the TALEN cloning in two steps. The first step was from module vectors to pFUS array vectors. We confirmed successful cloning with a colony PCR experiment and Esp31 restriction enzyme digestion, which resulted in a smear band and a 1 Kb insert band, respectively The second step of the cloning was from a pFUS array vector to a mammalian TALEN expression vector. The engineered TALEN construct was sequenced with specific primers in an expression vector. As expected, a specific array from the module vectors was shown in the sequencing analysis. The specific module sequences were regularly arrayed in every 100 bp, and SETDB1 expression totally disappeared in the TALEN-DBEX2 transfection. PCR amplification targeting of DBEX2 was performed, and the PCR product was digested with a T7E1 restriction enzyme. The expression of SETDB1 was down-regulated in the TALEN-DBPR25 transfection. Morphological changes were also observed in the two TALEN constructs with transfected HeLa cells. These results suggest that the engineered TALEN constructs in two strategic approaches are very useful to knock-out of the SETDB1 gene and to study gene function.

Identification of Differentially Expressed Genes in the Dicer 1 Knock-down Mouse Embryos using Microarray

  • Lee, Jae-Dal;Cui, Xiang-Shun
    • Reproductive and Developmental Biology
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    • v.32 no.4
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    • pp.229-235
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    • 2008
  • Silencing of Dicer1 by siRNA did not inhibit development up to the blastocyst stage, but decreased expression of selected transcription factors, including Oct-4, Sox2 and Nanog, suggesting that Dicer1 gene expression is associated with differentiation processes at the blastocyst stage (Cui et al., 2007). In order to get insights into genes which may be linked with microRNA system, we compared gene expression profiles in Gapdh and Dicer1 siRNA-microinjected blastocysts using the Applied Biosystem microarray technology. Our data showed that 397 and 737 out of 16354 genes were up- and down-regulated, respectively, following siRNA microinjection (p<0.05), including 24 up- and 28 down-regulated transcription factors. Identification of genes that are preferentially expressed at particular Dicer1 knock down embryos provides insights into the complex gene regulatory networks that drive differentiation processes in embryos at blastocyst stage.

Elevated expression of exogenous RAD51 enhances the CRISPR/Cas9-mediated genome editing efficiency

  • Seo Jung Park;Seobin Yoon;Eui-Hwan Choi;Hana Hyeon;Kangseok Lee;Keun Pil Kim
    • BMB Reports
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    • v.56 no.2
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    • pp.102-107
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    • 2023
  • Genome editing using CRISPR-associated technology is widely used to modify the genomes rapidly and efficiently on specific DNA double-strand breaks (DSBs) induced by Cas9 endonuclease. However, despite swift advance in Cas9 engineering, structural basis of Cas9-recognition and cleavage complex remains unclear. Proper assembly of this complex correlates to effective Cas9 activity, leading to high efficacy of genome editing events. Here, we develop a CRISPR/Cas9-RAD51 plasmid constitutively expressing RAD51, which can bind to single-stranded DNA for DSB repair. We show that the efficiency of CRISPR-mediated genome editing can be significantly improved by expressing RAD51, responsible for DSB repair via homologous recombination (HR), in both gene knock-out and knock-in processes. In cells with CRISPR/Cas9-RAD51 plasmid, expression of the target genes (cohesin SMC3 and GAPDH) was reduced by more than 1.9-fold compared to the CRISPR/Cas9 plasmid for knock-out of genes. Furthermore, CRISPR/Cas9-RAD51 enhanced the knock-in efficiency of DsRed donor DNA. Thus, the CRISPR/Cas9-RAD51 system is useful for applications requiring precise and efficient genome edits not accessible to HR-deficient cell genome editing and for developing CRISPR/Cas9-mediated knockout technology.