• BMB Reports
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• v.38 no.2
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• pp.191-197
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• 2005

Although the human genome has been nearly completely sequenced, the functions and the roles of the vast majority of the genes, and the influences of single nucleotide polymorphisms (SNPs) in these genes are not entirely known. A modified mutation detection method was developed for large-scale cloning of the possible SNPs between tumor and normal cells for facilitating the identification of genetic factors that associated with cancer formation and progression. The method involves hybridization of restriction enzyme-cut chromosomal DNA, cleavage and modification of the sites of differences by enzymes, and differential cloning of sequence variations with a designed vector. Experimental validations of the presence and location of sequence variations in the isolated clones by PCR and DNA sequencing support the capability of this method in identifying sequence differences between tumor cells and normal cells.

• The Korean Journal of Zoology
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• v.37 no.2
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• pp.240-248
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• 1994

골격근 세포는 미분화 단핵 근원세포로부터 신장과 융합을 거쳐 다핵 횡문근섬유로 분화되어 가며 동시에 근특이 유전자의 발현이 선택적으로 일어난다. 본 연구에서는 계배 배양 근원세포의 분화동안 유전자 발현 조절 양상에 대한 연구를 위해, 계배 근원세포를 72시간 배양한 근섬유로부터 CDNA 라이브러리를 제작하였다. 이 cDNA 라이브러리를 미분화 단핵 근원세포(배양 36시간)와 분화된 다핵 근섬유(배양 72시간)의 poly(A)+ RNA 주형에서 합성된 [32P〕cDNA를 Probe로 사용한 differential plaque hybridization 방법으로 스크리닝하였다 분화된 다핵 근섬유 CDNA probe에 강한게 흔성화되는 CDNA clone을 선별하여 클로닝하였다. 선별한 CDNA clone 들 중 하나는 약 1.3 Kb 크기의 삽입절편을 갖고 있는 것으로 나타났고, 이 CDNA를 probe로 사용하여 northern blotting 한 결과, 이 CDNA엑 대한 유전자는 미분화 단핵 근원세포에서 분화된 다핵 근섬유로 분화가 진행됨에 따라 유전자 산물인 RNA 양이 증가되는 것으로 나타났다 또한 이 1.3 Kb CDNA에 대한 RNA의 크기는 약 2 7 Kb로 확인되었다.

• Proceedings of the Zoological Society Korea Conference
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• 1995.10b
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• pp.310.1-310
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• 1995

• Proceedings of the Zoological Society Korea Conference
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• 1997.10b
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• pp.277.1-277
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• 1997

• Proceedings of the Zoological Society Korea Conference
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• 1998.10b
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• pp.239.1-239
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• 1998

No Abstract, See Full Text

• Korean Journal of Animal Reproduction
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• v.18 no.3
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• pp.199-206
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• 1994

We present here a new PCR-based cloning technique that allows the different PCR products during mouse embryogenesis. Recently, mRNA differential display described by Liang & Pardee (Science 257, 1992) and re-confirmed by Zimermann & Schultz (PNAS 91,1994). This method will detect the appropriate changes in the temporal patterns of expression or in the transition from maternal control to zygotic control as well as the functional difference of embryo with polyspermy or monospermy, the difference of expression between successfully hatched blastocyst and blastocyst failed to hatching, response to agents, and cell cycle regulation. By this methods, we have cloned an eDNA, which showed mouse 2 cell specific expression. Genomic DNA digested with EcoRI showed approximately 15 kb and then showed higher expression in fetal liver rather than adult liver. Furthermore, this gene is likely to have 2 mRNA by alternative splicing.

• Asian-Australasian Journal of Animal Sciences
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• v.18 no.12
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• pp.1684-1690
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• 2005

Using mRNA differential display technique, we investigated differential gene expression in hybrids relative to their parents in a diallel cross involving four chicken breeds in order to provide an insight into the molecular basis of heterosis in chicken. The results indicated that there was extensive differential gene expression between chicken F1 hybrids and their parents which was classified into four kinds of patterns as following: (1) bands only detected in hybrid F1; (2) bands only absent in hybrid F1; (3) bands only detected in parent P1 or P2; (4) bands absent in parent P1 or P2. Forty-two differentially expressed cDNAs were cloned and sequenced, and their expression patterns were confirmed by Reverse-Northern dot blot. Sequence analysis and database searches revealed that genes showed differential expression between hybrid and parents were regulatory and functional genes involved in metabolism, mRNA splicing, transcriptional regulation, cell cycles and protein modification. These results indicated that hybridization between two parents can cause changes in expression of a variety of genes. In conclusion, that the altered pattern of gene expression in hybrids may be responsible for heterosis in chickens.

• Journal of Microbiology and Biotechnology
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• v.15 no.5
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• pp.1146-1151
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• 2005

The yeast Candida albicans has a distinguishing feature, dimorphism, which is the ability to switch between two morphological forms: a budding yeast form and a multicellular invasive filamentous form. This ability has been postulated to contribute to the virulence of this organism. Previously, we reported that the yeast-to-hypha transition in this organism is suppressed by farnesoic acid, a morphogenic autoregulatory substance that accumulates in the medium as the cells proliferate. In this study, using a differential display reverse transcription polymerase chain reaction (DDRT-PCR) technique, we have identified several genes induced in C. albicans by farnesoic acid treatment. These observations indicate that farnesoic acid can alter the expressivity of multiple genes, including the DNA replication machinery and cell-cycle-control proteins.

• 한국약용작물학회:학술대회논문집
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• 2008.11a
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• pp.259-260
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• 2008

• Journal of Plant Biology
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• v.39 no.3
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• pp.189-195
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• 1996

The major cuticular components have been shown to be synthesized in the epidermis. Therefore, cloning of epidermis-specific genes could yield information to be used to isolate and characterize the enzymes involved in the cuticle biosynthesis. A subtractive cDNA library was prepared from Senecio odorus in which epidermis-specific cDNAs were enriched. Differential screening of the library using epidermal and non-epidermal probes revealed two cDNAs. One of them designated epi425 was identified, based on the sequence homology, as a member of a new class in the LTP gene family and the other clone designated epi23 as a gene encoding an aldehyde decarbonylase. Northern blot analyses showed that epi425 and epi23 cDNAs hybridized with a transcript of about 600 and 2, 100 nucleotides, respectively, from the epidermis but not from the non-epidermal tissues. Further characterization of these clones will provide more information on the mechanism of the cuticle biosynthesis.