• 한국동물번식학회:학술대회논문집
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• 한국동물번식학회 2004년도 춘계학술발표대회
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• pp.194-194
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• 2004

Tissue-specific expression of the desired gene product in the targrt tissue is central to the concept of bioreactor. One approach is to use a tissue-specific promoter to drive desired gene. To investigate the feasibility of tissue-specific gene expression for bladder using the porcine uroplakin(UPII) promoter and its transcriptional control the efficacy of this promoter as well as well as fragments in regulating gene expression were cell lines using DNA transfection. (omitted)

• Reproductive and Developmental Biology
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• 제40권1호
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• pp.7-13
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• 2016

Effectiveness of transgene transfer into genome is crucially concerned in mass production of the bio-pharmaceuticals using genetically modified transgenic animals as a bioreactor. Recently, the mammary gland has been considered as a potential bioreactor for the mass production of the bio-pharmaceuticals, which appears to be capable of appropriate post-translational modifications of recombinant proteins. The mammary gland tissue specific vector system may be helpful in solving serious physiological disturbance problems which have been a major obstacle in successful production of transgenic animals. In this study, to minimize physiological disturbance caused by constitutive over-expression of the exogenous gene, we constructed new retrovirus vector system designed for mammary gland-specific expression of the hEPO gene. Using piggyBac vector system, we designed to express hEPO gene under the control of mammary gland tissue specific and lactogenic hormonal inducible goat ${\beta}$-casein or mouse Whey Acidic Protein (mWAP) promoter. Inducible expression of the hEPO gene was confirmed using RT-PCR and ELISA in the mouse mammary gland cells treated with lactogenic hormone. We expect the vector system may optimize production efficiency of transgenic animal and reduce the risk of global expression of transgene.

• Molecules and Cells
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• 제40권3호
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• pp.169-177
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• 2017

Tissue-specific transcription is critical for normal development, and abnormalities causing undesirable gene expression may lead to diseases such as cancer. Such highly organized transcription is controlled by enhancers with specific DNA sequences recognized by transcription factors. Enhancers are associated with chromatin modifications that are distinct epigenetic features in a tissue-specific manner. Recently, super-enhancers comprising enhancer clusters co-occupied by lineage-specific factors have been identified in diverse cell types such as adipocytes, hair follicle stem cells, and mammary epithelial cells. In addition, noncoding RNAs, named eRNAs, are synthesized at super-enhancer regions before their target genes are transcribed. Many functional studies revealed that super-enhancers and eRNAs are essential for the regulation of tissue-specific gene expression. In this review, we summarize recent findings concerning enhancer function in tissue-specific gene regulation and cancer development.

• 한국식물학회:학술대회논문집
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• 한국식물학회 1987년도 식물생명공학 심포지움 논문집 Proceedings of Symposia on Plant Biotechnology
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• pp.349-356
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• 1987

Insertions of transposable elements in or near a structural gene give rise to null phenotypes, reduced levels of gene expression, or alteration on the tissue-specific pattern of gene expression. Null phenotypes often result from insertions in exons. Reduced levels of gene expression results from insertions in various regions such as promoter region, 5' non-translated region, exon and intron. The maize allele of Adh1-3F1124 is an example of alteration in the tissue-specific patetern of gene expression. Adh1-3F1124 contains a Mu element inserted 31 bp 5' to the transcriptional start site of the wild-type Adh1 activity in seeds and anaerobically-treated seedlings but normal levels in the pollen. Upon the insertion of a transposable element a certain number of host DNA sequences at the insertion site is duplcated. When transposable elements excise, all element sequences are deleted. However, the duplicated host sequences may be left intact or deleted to various extents. This results in null phenotypes, restoration of original levels of gene expression, or altered levels of gene expression. On the basis of effects of transposable-element insertions or excisions on gene expression, the usefulness of transposable ellements for studies on gene expression is discussed.

• 식물조직배양학회지
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• 제25권4호
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• pp.237-243
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• 1998

야생종 토마토의 자가불화합성에 관여하는 S RNase유전자의 조직특이적 발현 양상을 조사하기 위하여 $\textrm{S}_{11}$ 및 $\textrm{S}_{12}$ allele에 속하는 RNase 유전자의 Promoter영역에 대한 염기 서열을 비교 분석한 결과, 전사개시점에서 상류측으로 350-500bp사이에서 양쪽 allele의 Promoter간에 상동성을 나타내는 3부분과 direct repeat sequence를 발견하였다. Promoter영역에서 이러한 부분이 S RNase 유전자가 화주특이적으로 발현하는데 영향을 줄 것으로 예상하고, 이들 영역을 중심으로 6종류의 deletion fragment를 만들어 GUS 유전자에 연결하여, 토마토의 생식조직에 microprojectile bombardment를 수행하였다. 그 결과 토마토 자가불화합성에 관여하는 S RNase 유전자의 promoter는 TATA box를 포함한 127 bP만으로도 화주조직 특이적 발현을 조절할 수 있었다. 또한 S RNase 유전자의 promoter영역내에는 토마토 화변, 자방과 심피조직들에서 negative 혹은 positive로 유전자의 발현을 유도하는 부분이 발견되었다.

• 미생물학회지
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• 제27권2호
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• pp.85-91
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• 1989

조직특이적 및 일반적 유전자 발현에 미치는 SV40와 murine cytomegalovirus (MCMV) enhancer의 영향을 조사하였다. 이를 위하여 chloramphenicol acetyl transferase (CAT) 유전자의 아래쪽에 이들 enhancer들을 삽입한 재조합 플라스미드 들을 제조하였다. 원숭이세포(CV1PO)와 HeLa 세포에 이들 플라스미드들을 이입시킨 후, CAT 유전자가 발현되는 정도를 조사하였다. Enhancer가 없는 플라스미드에 비해 SV40와 MCMV enhancer는 CAT의 발현을 각각 20배와 150배로 가중시켰다. CAT 유전자의 앞에 있는 SV40 프로모터를 2.2kbp의 소성장호르몬(bGH) 유전자의 조절부위로 치환한 경우는 enhancer가 있어도 전혀 CAT 의 말현이 검출되지 않았다. 조절부위을 230 bp 로 짧게 하여 치환한 경우는, SV 40 enhancer 가 있을 때, CAT의 말현이 매우 증가하였다. 이와는 내조적으로 더 강한 MCMV enhancer는 bGH 특이적인 발현을 별로 증가시키지 못하였다.

• 미생물학회지
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• 제30권6호
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• pp.488-494
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• 1992

Three clones containing mouse CD4 gene were prepared using AKR genomic cosmid library. The role of 6, 500 bp 5' flanking region of the first exon of the AKR CD4 gene in tissue or developmental stage specific expression of CD4 has been studied. The deletion constructs containing various amounts of CD4 5' flanking sequences were prepared, and they were transfected into the cell lines representing different cell types or developmental stages of CD4 expression. Study of the reporter gene expression revealed that at least 1, 700 bp of 5' flanking region did retain promoter activity for CD4 expression. This area did not seem to contain enhancer activity for a full expression of CD4. However, the putative promoter interacted with other tissue specific enhancer sequence and showed the tissue specificity of the enhancer element.

• Asian-Australasian Journal of Animal Sciences
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• 제16권12호
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• pp.1837-1841
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• 2003

In an attempt to isolate novel molecules that may play a regulatory role in adipocyte differentiation, we devised an experimental strategy to identify adipose tissue-specific genes by modifying cDNA microarray technique. We used genefilter membranes containing approximately 15,000 rat non-redundant EST clones of which 4,000 EST were representative clones of known genes and 11,000 ESTs were uncharacterized clones. A series of hybridization of genefilter membranes with cDNA probes prepared from various rat tissues and nucleic acids sequence analysis allowed us to identify two adipose-tissue specific genes, adipocyte-specific secretory factor (ADSF) and H-rev107. Verification of tissue-specific expression patterns of these two genes by Northern blot analysis showed that ADSF mRNA is exclusive expressed in adipose tissue and the H-rev107 mRNA is predominantly expressed in adipose tissue. Further analysis of gene expression of ADSF and H-rev107 during 3T3-L1 adipocyte differentiation revealed that the ADSF and H-rev107 gene expression patterns are closely associated with the adipocyte differentiation program, indicating their possible role in the regulation of adipose tissue development. Overall, we demonstrated an application of modified cDNA microarray technique in molecular cloning, resulting in identification of two novel adipose tissue-specific genes. This technique will also be used as a useful tool in identifying novel genes expressed in a tissue-specific manner.

• 한국식물학회:학술대회논문집
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• 한국식물학회 1987년도 식물생명공학 심포지움 논문집 Proceedings of Symposia on Plant Biotechnology
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• pp.283-307
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• 1987

Glycinin and $\beta$-conglycinin are the most abundant storage protein in soybean. These proteins are known to be synthesized predominantly during germination and cell expansion phase of seed development for short period, and synthesized not in other tissues. Genes encoding these storage proteins are useful system to study the mechanism of development stage and tissue specific gene expression in eukaryotes, especially plants, at the molecular level. The cDNA and genomic clones coding for glycinin have been isolated and regulation mechanism of the gene expression has been studied. Initially, development and tissue-specific expression of the glycinin gene is regulated at the level of transcription. Post-transcriptional processing is also responsible for delayed accumulation of the mRNA. Translational control of the storage protein gene has not been reported. Post-translational modification is another strategic point to regulate the expression of the gene. It is possible to identify positive and/or negative reguratory clements in vivo by producing transgenic plants agter gene manipulation. Elucidation of activation and repression mechanism of soybean storage protein genes will contribute to the understanding of the other plant and eukaryotic genes at molecular level.

• International Journal of Industrial Entomology and Biomaterials
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• 제23권1호
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• pp.137-141
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• 2011

A previous data was provided information for tissuespecific expression genes by means of whole-genome oligonucleotide microarray in the silkworm. We analyzed the tissue-specific expression patterns in the hemocyte tissue on 5 days of 5th instar larvae during the development of $B.$ $mori$. Total 5 candidates pick out from the $Bombyx$ $mori$ Microarray Database (BmMDB; http://silkworm.swu.edu.cn/microarray). To verify the hemocyte-specific expression, we analyzed by semi-quantitative and real-time quantitative RT-PCR using the highly expressed endogenous $Actin$ RNA as an intrinsic reference. In this study, we confirmed that one gene-sw17255- out of 5 candidates expressed in the hemocyte tissue, which was consistent with the previous data. Circulating hemocytes in the body fluid of the $B.$ $mori$ are most powerful target organ for producing biomaterials. We need further studies to find hemocyte-specific promoter region from sw17255 gene. Finally, this result can be applied in creating transgenic silkworms as a biomedical insect.