• 생명과학회지
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• 제17권12호
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• pp.1729-1733
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• 2007

BAK1(Brassinolide insensitive associated receptor kinase 1)는 브라시노스테로이드 생합성 대사관련 신호전달 매체이다. BR 생합성 및 신호전달 돌연변이체는 매우 특징적인 난쟁이 표현형을 보인다. 과채류전용 양액배지인 Sonneveld 양액을 이용하여 양분결핍에 의해 왜성을 나타내는 토마토를 선발하였다. 선발된 토마토에 대해 이차원 전기영동법으로 단백질체를 분석한 결과, 발현차를 나타내는 28개의 단백질 spot이 분리되었다. 분리된 단백질 spot중 현저하게 발현이 억제된 단백질 spot 6개를 선발하여 단백질 서열을 결정하였다. 실험 결과, pI 4.5, 분자량 24 kDa를 나타내는 단백질은 브라시노스테로이드 생합성에 관여하며 왜성 표현형을 나타내는 신호전달 단백질, BAK1으로 동정되었다. BCK1, cystein proteinase, sulfutase, peroxidase, zinc finger factor로 동정 된 나머지 단백질들은 브레시노스테로이드 생합성관련 신호전달기작에 관여하는 단백질로 추정되었다. BAK1을 검정하기 위해 단백질 서열이 결정된 부위로부터 프라이머를 디자인하여 RT-PCR를 수행한 결과, 증폭된 500 bp의 산물이 정상과 발현차를 보여주었는데 이 결과는 양분조절에 의해서도 BAK1의 발현이 조절될 수 있음을 시사한다.

• 한국동물생명공학회지
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• 제34권3호
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• pp.148-156
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• 2019

The Transgenic livestock can be useful for the production of disease-resistant animals, pigs for xenotranplantation, animal bioreactor for therapeutic recombinant proteins and disease model animals. Previously, conventional methods without using artificial nuclease-dependent DNA cleavage system were used to produce such transgenic livestock, but their efficiency is known to be low. In the last decade, the development of artificial nucleases such as zinc-finger necleases (ZFNs), transcription activator-like effector nucleases (TALENs) and clustered regulatory interspaced short palindromic repeat (CRISPR)/Cas has led to more efficient production of knock-out and knock-in transgenic livestock. However, production of knock-in livestock is poor. In mouse, genetically modified mice are produced by coinjecting a pair of knock-in vector, which is a donor DNA, with a artificial nuclease in a pronuclear fertilized egg, but not in livestock. Gene targeting efficiency has been increased with the use of artificial nucleases, but the knock-in efficiency is still low in livestock. In many research now, somatic cell nuclear transfer (SCNT) methods used after selection of cell transfected with artificial nuclease for production of transgenic livestock. In particular, it is necessary to develop a system capable of producing transgenic livestock more efficiently by co-injection of artificial nuclease and knock-in vectors into fertilized eggs.

• BMB Reports
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• 제47권1호
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• pp.21-26
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• 2014

Znf45l, containing classical $C_2H_2$ domains, is a novel member of Zinc finger proteins in zebrafish. In vertebrates, TGF-${\beta}$ signaling plays a critical role in hematopoiesis. Here, we showed that Znf45l is expressed both maternally and zygotically throughout early development. Znf45l-depleted Zebrafish embryos display shorter tails and necrosis with reduced expression of hematopoietic maker genes. Furthermore, we revealed that znf45l locates downstream of TGF-${\beta}$ ligands and maintains normal level of TGF-${\beta}$ receptor type II phosphorylation. In brief, our results indicate that znf45l affects initial hematopoietic development through regulation of TGF-${\beta}$ signaling.

• Journal of Plant Biotechnology
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• 제4권1호
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• pp.7-15
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• 2002

Eight cDNAs corresponding to fruit-specific genes were isolated from ripened melon through differential screening. Sequence comparison indicated that six of these cDNAs encoded proteins were previously characterized into aminocyclopropane-1-carboxylate (ACC) oxidase, abscisic acid, stress and ripening inducible (ASR) gene, RINC-H2 zinc finger protein, pyruvate decarboxylase, or polyubiquitin. RFS2 and RFS5 were the same clone encoding polyubiquitin. The other cDNAs showed no significant homology with known protein sequences. The ASR homologue (Asr1) gene was further characterized on the cDNA and genomic structure. The deduced amino acid sequence had similar characteristics to other plant ASR. The Asr1 genomic DNA consisted of 2 exons and 1 intron, which is similar to the structure of other plants ASR genes. The promoter region of the Asr1 gene contained several putative functional cis-elements such as an abscisic acid responsive element (ABRE), an ethylene responsive element (ERE), a C-box or DPBf-1 and 2, Myb binding sites, a low temperature responsive element (LTRE) and a metal responsive element (MRE). The findings imply that these elements may play important roles in the response to plant hormones and environmental stresses in the process of fruit development. The results of this study suggest that the expressions of fruit specific and ripening-related cDNAs are closely associated with the stress response.

• ALGAE
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• 제38권4호
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• pp.283-294
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• 2023

Previous research indicated that free-living sporangial filament keep hollow morph under high-culture density and form bipartite cells under low-culture density, while the following conchospore release was inhibited by high light. Here, we further explored the molecular bases of these affects caused by light and culture density using a transcriptome analysis. Many differentially expressed genes (DEGs) related to carbon dioxide concentration and fixation, photosynthesis, chlorophyll synthesis and nitrogen absorption were upregulated under high-light conditions compared with low-light conditions, indicating the molecular basis of rapid vegetative growth under the former. The stress response- and ion transport-related DEGs, as well as the gene encoding the vacuole formation-brefeldin A-inhibited guanine nucleotide exchange protein (BIG, py05721), were highly expressed under high-density conditions, indicating the molecular basis of the hollow morph of free-living sporangial filaments under high-culture density conditions. Additionally, the brefeldin A treatment indicated that the hollow morph was directly influenced by vacuole formation-related vesicle traffic. Others DEGs related to cell wall components, zinc-finger proteins, ASPO1527, cell cycle and cytoskeleton were highly expressed in the low density with low-light group, which might be related to the formation and release of conchospores. These results provide a deeper understanding of sporangial filaments in Neopyropia yezoensis and related species.

• 식물조직배양학회지
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• 제24권1호
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• pp.1-35
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• 1997

Fertilized egg, by successive cell divisions, differentiates into different tissues and organs with various structures and functions. Different cells and tissues contain different proteins, products of selective gene expression. Not all the genes in any genomes are equally active, temporal and spatial gene expression being the general rule. Present paper attempts to review the tanscriptional mechanisms or the initiations of transcription from several angles. In some of the organisms the genes in the process of transcription or the genes in the inactive state can be seen under the light microscope. Some bands of Drosophila polytene chromosomes may exhibit a swollen or puff appearance under certain conditions. A puff, unfolded or decondensed form of chromomere, represents sets of intense transcriptional activity or RNA synthesis. The heterochromatic X chromosome whose genes remain inactive in the female mammals can be visualized as a dark staining structure called Barr body, Configuration of chromatin differs between transcribed and nontranscribed chromatin. Modification to the chromatin facilitates RNA synthesis. The movement of large polymerase molecule along the DNA would probably be facilitated if some modifications of the chromatin configuration is effected. Methylation of cytosines in CG sequences is associated with inactive genes. Methylation can play a role in determination of mammalian cells during embryogenesis. Demethylation is necessary for the gene to be expressed during development A histone modification that is also known to be correlated with transcriptional capacity of chromatin is acetylation of the lysine residues of the core histones. Chromatin containing a high level of histone acetylation is very sensitive to DNase 1. For the transcription to occur TBP must first bind to the TATA box. Another TF, TF IIB, then binds to the promoter-TBP complex, facilitating the access of RNA polymerase to the transcription initiation site. As recently as eight years ago researchers assumed that histones were irrelevant to the regulation of gene expression. Histones combine with the DNA to form nucleosome of the chromatin. Histones are vital participant in gene regulation. Histone and basal factors compete for access to TATA box. When DNA is exposed to basal factors before histones are introduced, the basal factors assemble on TATA boxes preventing the access of histones, allowing transcription to occur, for transcription to begin, activator protein at the upstream activation sequence or enhancer must interact with the tail of histone H4 at TATA box and cause the histone role particle to dissociate from the TATA box leading to partial breakup of the histone core particle and allowing the basal factors to bind to the TATA box. New concept of genomic flux in contrast to the old concept of static genome has been developed based on the powerful new molecular techniques. Genomic changes such as repetitive DNAs and transposable elements, it is assumed but not yet proved, may affect some of the developmental patterns that characterize particular cells, tissues, organs, and organisms. In the last decade or so remarkable achievement have been made in the researches of the structures and functions of TFs and the specific target sequences located in promoters or enhancers where these TFs bind. TFs have independent domains that bind DNA and that activate transcription. DNA binding domain of TFs serves to bring the protein into the right location. There are many types of DNA binding domains. Common types of motifs can be found that are responsible for binding to DNA. The motifs are usually quite short and comprise only a small part of the protein structure. Steroid receptors have domains for hormone binding, DNA binding, and activating transcription. The zinc finger motif comprises a DNA binding domain. Leucine zipper consist of a stretch of amino acids with a leucine residue in every seventh position Two proteins form a dimer because they interact by means of leucine zippers on similar α-helical domain. This positions their DNA binding basic domains for interaction with the two halves of a DNA sequence with dyad symmetry of TGACTCA, ACTGAGT.

• 현장농수산연구지
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• 제22권1호
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• pp.5-13
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• 2020

생체 조직 내에서 표지인자의 발견은 해당 세포의 특성과 기능을 이해하는 데 매우 중요하다. 기존에 밝혀진 돼지 정원세포의 표지인자로는 PGP9.5, PLZF, NANOG, SSEA1 등의 단백질이 알려져 있다. 본 연구에서는 최근 새로이 발굴된 돼지 정원세포 표지인자인 IGFBPs 의 기능을 분석하기 위해 IGFBPs 의 발현과 이를 조절하는 단백질인 PAPP-A 단백질의 발현을 5일령 돼지 정소에서 확인하였다. IGFBP 2, 3, 4, 6 의 발현이 돼지 정원세포 특이적으로 높게 나타났으며 PAPP-A의 발현은 세르톨리세포 특이적으로 나타났다. PAPP-A 의 발현을 PGP9.5, GATA4 등의 표지 인자와 함께 확인해 본 결과 PGP9.5를 발현하는 정원세포에서는 발현하지 않았으며, 세정관 내의 세르톨리세포 특이적으로 발현하였다. 이러한 사실로 미루어 볼 때 세르톨리세포에서 발현하는 PAPP-A 단백질은 정원세포에서 발현하는 IGFBPs 의 조절을 통하여 알려진 바와 같이 IGF axis 를 통해 정소내 세포들의 발달 및 분화를 조절할 것으로 판단된다.

• 생명과학회지
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• 제17권12호
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• pp.1641-1648
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• 2007

Yippee 패밀리를 구성하는 yippee-유사 단백질들은 한 개의 zinc-finger 도메인을 지닌 Drosophila yippee 단백질의 homolog로서 모든 진핵생물에 존재하는 것으로 알려졌으나 그 기능은 밝혀진 바가 없다. 인체 T 림프구의 활성화과정 중 발현수준이 변화하는 유전자들을 선별하기 위해 인체 말초혈액에서 분리한 resting T 세포, immobilized anti-CD3에 의해 26시간 혹은 30시간 동안 활성화시킨 T 세포로부터 각각 정제한 total RNA를 이용하여 ODD-PCR을 수행한 결과, resting T 세포에서는 발현되지만 immobilized anti-CD3 활성화에 의해 세포주기를 개시하여 $G_1/S$ boundary에 도달한 T 세포들로부터는 전혀 발현되지 않는 흥미로운 유전자로서 Drosophila yippee 단백질 유전자의 인체 homolog인 YPEL5 유전자를 분리하였다. 노던 블로팅법으로 T 세포 활성화에 뒤이은 YPEL5 mRNA의 발현 변화를 조사한 결과, ${\sim}2.2kb$ 크기의 YPEL5 mRNA는 resting T 세포를 비롯하여 immobilize anti-CD3에 의한 활성화 후 1.5시간까지는 확인되었으나 활성화 후 5시간 이후부터 48시간에 이르는 시간에는 전혀 확인되지 않았다. YPEL5 단백질을 GFP-fusion 단백질로서 인체 암세포주인 HeLa 세포에 transfection하여 발현시킨 결과, GFP-YPEL5 단백질이 모두 핵에 위치하는 것으로 나타나 YPEL5 단백질이 핵단백질임을 확인하였다. 또한 YPEL5의 기능을 규명하기 위해 YPEL5 발현벡터를 HeLa 세포에 transfection 하고 발현시켜 HeLa 세포의 증식에 미치는 YPEL5의 영향을 MTT assay로 분석한 결과, vector plasmid를 transfection시킨 대조구의 47% 수준으로 세포증식이 감소하는 것으로 나타났다. 이러한 결과들은 YPEL5 mRNA의 발현이 T 세포 수용체를 통한 T 세포 활성화의 초기단계에 현저히 감소됨을 보여주며, 또한 YPEL5가 핵단백질로서 세포증식에 대해 저해효과를 미칠 수 있음을 시사한다.

• Asian-Australasian Journal of Animal Sciences
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• 제30권6호
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• pp.781-787
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• 2017

Objective: The early growth response (Egr) family consists of four members (Egr1, Egr2, Egr3, and Egr4) that are zinc finger transcription factors. Among them, Egr3 is involved in transcriptional regulation of target genes during muscle spindle formation and neurite outgrowth. We previously showed that the immunoreactive Egr3 is localized on oocyte spindle and accumulate near the microtubule organizing center during meiosis I in mice. Egr3 was also shown to be localized on spermatocytes. We herein investigated if Egr3 is expressed in mouse gonads and if Egr3 blockade results in any defect in oocyte maturation. Methods: Expression of Egr3 in mouse gonads was examined by reverse transcription-polymerase chain reaction. Full-length Egr3 and truncated Egr3 (${\Delta}Egr3$) complementary RNAs (cRNAs) with Xpress tag at N-terminus and DsRed2 at C-terminus, and small interfering RNA (siRNA) targeting Egr3 were microinjected into mouse oocytes at germinal vesicle stage. Localization of microinjected Egr3 was examined by confocal live imaging and immunofluorescence staining. Results: Egr3 mRNA was detected in mouse ovaries and testes from 1 to 4 week-old mice. An uncharacterized longer transcript containing 5'untranslated region was also detected in 3 and 4 week-old gonads. Microinjected Xpress-Egr3-DsRed2 or Xpress-${\Delta}Egr3$-DsRed2 localized to nuclei and chromosomes during meiotic progression. Microinjection of these cRNAs or Egr3 siRNA in oocytes did not affect meiotic maturation. Immunofluorescence staining of Egr3 in Xpress-${\Delta}Egr3$-DsRed2-injected oocytes showed a positive signal only on meiotic spindle, suggesting that this antibody does not detect endogenous or exogenous Egr3 in mouse oocytes. Conclusion: The results show that Egr3 localizes to chromosomes during meiotic progression and that certain antibodies may not faithfully represent localization of target proteins in oocytes. Egr3 seems to be dispensable during oocyte maturation in mice.

• 한국식품영양과학회지
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• 제42권8호
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• pp.1167-1174
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• 2013

암세포를 포함한 생체 내 빠른 분열을 요구하는 세포 집단에서 세포 내 구성요소 및 에너지원으로서 글루타민의 요구량이 증대되지만, 종양세포의 글루타민 의존적 대사작용에 관한 기전은 여전히 잘 알려진 바 없다. 본 연구에서는 LnCaP 전립선 암세포의 이동성 및 침윤성에 미치는 글루타민 결핍효능을 조사하였다. 본 연구의 결과에 의하면 LnCaP 세포에서 글루타민 결핍에 의하여 세포의 이동성 및 세포의 침윤성이 현저하게 억제되었으며, 이러한 이동성 및 침윤성 억제는 TIMPs의 발현 증대에 의한 MMPs의 발현 감소 및 그들의 효소적 활성 저하와 연관성이 있었다. 또한 글루타민이 결핍된 조건에서 배양된 LnCaP 세포에서 TER의 현저한 증가가 관찰되었는데, 이는 TJs의 조절인자인 claudin family 발현의 차단에 의한 것으로 생각되어진다. 본 연구의 결과에 의하면 암세포의 증식에서 글루타민의 결핍은 TJ의 결합력 증대와 MMPs의 활성을 저하시킴으로써 암세포 전이에 가장 기본적인 과정인 암세포의 이동성과 침윤성을 억제시킬 수 있을 것으로 생각된다.