• 생명과학회지
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• 제8권2호
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• pp.119-125
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• 1998

dsRNA결합인자인 RBF단백질을 정제하여 이의 단일 또는 이중선의 RNA 또는 DNA 와의 결합도를 측정하였다ㅓ. RBF단백질은 이들과 각각 반응시켜 그 결합도는 SDS-PAGE에 의하여 비교관찰하였다. RBF단백질은 dsRNA와은 강한 결합력을 나타낸 반면 기타의 핵산구조에 대해서는 이러한 결과를 나타내지 못하였다. 인산화 실험의 결과, RBF단백질은 poly(I) : poly(C)의 존재하에서 사람 도는 쥐 모두로 부터의 PKR 효소의 자가인산화를 유사한 방식으로 억제하였다. 이는 다른 종류의 진핵세포생물에서 단백질합성조절을 위한 PKR과 RBF가 유사한 경쟁적 관련성을 유지하면서 존재함을 시사하고 있다.

• BMB Reports
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• 제42권3호
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• pp.125-130
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• 2009

Recent advances in RNA biology reveal unexpected diversity and complexity of cellular RNA metabolism. RNA-binding proteins (RBPs) are essential players in RNA metabolism, regulating RNA splicing, transport, surveillance, decay and translation. Aberrant expression of RBPs affects many steps of RNA metabolism, significantly altering expression of RNA. Thus, altered expression and dysfuncting of RBPs are implicated in the development of various diseases including cancer. In this minireview, we briefly describe emerging roles of RBPs as a global coordinator of post-transcriptional steps and altered RBP as a global generator of cancer related RNA alternative splicing. Identification and characterization of the RNA-RBP network would expand the scope of cellular RNA metabolism and provide novel anti-cancer therapeutic targets based on cancer specific RNA-RBP interaction.

• 대한의생명과학회지
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• 제14권2호
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• pp.77-81
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• 2008

Testis brain RNA-binding protein (TB-RBP) is a DNA/RNA binding protein. TB-RBP is mainly expressed in testis and brain and highly conserved protein with several functions, including chromosomal translocations, DNA repair, mitotic cell division, and mRNA transport, stabilization, and storage. In our previous study, we identified TB-RBP as an interacting partner for the catalytic subunit $(C{\alpha})$ of protein kinase A(PKA) and verified their interaction with several biochemical analyses. Here, we confirmed interaction between $C{\alpha}$. and TB-RBP in mammalian cells and determined the effect of $C{\alpha}$. on the function of TB-RBP. The activation of $C{\alpha}$. increased the TB-RBP function as a DNA-binding protein. These results suggest that the function of TB-RBP can be modulated by PKA and provide insights into the diverse role of PKA.

• The Plant Pathology Journal
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• 제28권1호
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• pp.75-80
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• 2012

$Potato$ $virus$ $X$ (PVX) contains $cis$-acting elements including stem-loop 1 (SL1) RNA at the 5' region; SL1 is conserved among all potexviruses. The SL1 at the positive-sense RNA, SL1(+), is required for PVX RNA replication, cell-to-cell movement, and translation. Previous research demonstrated that SL1(+) RNA also serves as the origin of assembly for encapsidation of PVX RNA. To identify the essential sequences and/or regions for capsid protein (CP) subunit recognition within SL1(+) RNA, we used electrophoretic mobility shift assays (EMSA), UV cross-linking, and yeast three-hybrid analyses. The EMSA and UV cross-linking analyses with PVX CP subunits and RNA transcripts corresponding to the SL1(+) RNA showed that the SL1(+) RNA formed complexes with CP subunits. We also conducted EMSA and yeast three-hybrid analyses with RNAs containing various mutations of SL1(+) RNA elements. These analyses indicated that SL1(+) RNA is required for the interaction with PVX CP and that the RNA sequences located at the loop C and tetra loop of the SL1(+) are crucial for CP binding. These results indicate that, in addition to being important for RNA accumulation, the SL1(+) RNA from the 5' region of the PVX genome is also required for specific binding of PVX CP.

• 산업기술연구
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• 제24권B호
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• pp.139-142
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• 2004

To identify conserved structural or functional subunit(s) in the CP1 (editing) domains of class Ia tRNA synthetases, five available structures were compared and analyzed. Through sequence alignments of the CP1 domains, three conserved regions were found near the amino acid binding site in the editing domain. Structural overlapping of the three subunits clearly showed that there exist three common structural subunits in all of the five editing RS structures. The new alignment suggests a translocation movement of the CP1 domain caused by the binding with tRNA. Based on the experimental and modeling results, it is proposed that subunits 1 and 3 accommodate the incoming amino acid binding, while subunit 2 contributes to the interactions with the adenosine ring of the A76 to stabilize the overall tRNA binding.. Since these subunits are critical for the editing reaction, we expect that these key structures should be conserved through all class Ia editing RSs.

• 한국자기공명학회논문지
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• 제21권3호
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• pp.109-113
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• 2017

The hepatitis C virus (HCV) internal ribosome entry site (IRES) is an RNA structure located in the 5'-UTR of the HCV RNA genome. The HCV IRES consists of four domains I, II, III, and IV, where domains II - IV are recognized by 40S ribosomal subunit and the domain III is bound to eukaryotic initiation factor 3 (eIF3) for translation initiation. Here, we have characterized the tertiary interaction between an L-/K- rich peptide and the HCV IRES domain IV. To probe the peptide binding interface in RNA, we synthesized $^{13}C$- and $^{15}N$-double labeled RNA and the binding site was identified by using the chemical shift perturbation (CSP) NMR methods. Our results showed that the peptide binds to the upper stem of the IRES domain IV, indicating that the tertiary interaction between the IRES domain IV and the peptide would disrupt the initiation of translation of HCV mRNA by blocking the start codon exposure. This study will provide an insight into the new peptide-based anti-viral drug design targeting HCV IRES RNA.

• Journal of Microbiology and Biotechnology
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• 제31권5호
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• pp.676-685
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• 2021

RNA-binding proteins are involved in RNA metabolism and posttranscriptional regulation of various fundamental biological processes. The PUF family of RNA-binding proteins is highly conserved in eukaryotes, and its members regulate gene expression, mitochondrial biogenesis, and RNA processing. However, their biological functions in Aspergillus species remain mostly unknown in filamentous fungi. Here we have characterized the puf genes in the model organism Aspergillus nidulans. We generated deletion mutant strains for the five putative puf genes present in the A. nidulans genome and investigated their developmental phenotypes. Deletion of pufA or pufE affected fungal growth and asexual development. pufA mutants exhibited decreased production of asexual spores and reduced mRNA expression of genes regulating asexual development. The pufE deletion reduced colony growth, increased formation of asexual spores, and delayed production of sexual fruiting bodies. In addition, the absence of pufE reduced both sterigmatocystin production and the mRNA levels of genes in the sterigmatocystin cluster. Finally, pufE deletion mutants showed reduced trehalose production and lower resistance to thermal stress. Overall, these results demonstrate that PufA and PufE play roles in the development and sterigmatocystin metabolism in A. nidulans.

• BMB Reports
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• 제50권4호
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• pp.194-200
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• 2017

Eukaryotic gene expression is precisely regulated at all points between transcription and translation. In this review, we focus on translational control mediated by the 3'-untranslated regions (UTRs) of mRNAs. mRNA 3'-UTRs contain cis-acting elements that function in the regulation of protein translation or mRNA decay. Each RNA binding protein that binds to these cis-acting elements regulates mRNA translation via various mechanisms targeting the mRNA cap structure, the eukaryotic initiation factor 4E (eIF4E)-eIF4G complex, ribosomes, and the poly (A) tail. We also discuss translation-mediated regulation of mRNA fate.

• Journal of Applied Biological Chemistry
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• 제58권3호
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• pp.201-208
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• 2015

RNA 결합 단백질들이 유전자 조절의 다양한 범위에 작용한다는 사실이 아주 중요하다. 유전자의 전사에 관련된 유전자 조절이 많이 연구가 되었어도 RNA의 조절에 관한 연구는 상대적으로 부진한 편이다. RNA 결합 단백질들은 RNA와 관련되는 각종 과정, 예를 들면 전사, pre-mRNA splicing, polyadenylation, 수송, 위치화, 번역, 분해 및 구조의 유지 등 다양한 범위에서 작용을 하고 있다. RNA 결합 단백질들의 많은 부분들이 아직 잘 알려지지 않고 있으며 유전자 발현에 대해 더 잘 이해하기 위해 이러한 부분의 연구가 더 수행되어야 한다. 최근에 유전학, 생화 학, 및 유전자들의 생물정보학의 발달 등으로 인하여. RNA 결합 단백질들의 다양한 분야들이 알려지고 있으며 이러한 부분들이 많은 관심을 받고 있다.

• 생명과학회지
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• 제7권3호
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• pp.167-171
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• 1997

번역개시 및 인산화의 조절에 관여하는 RNA와 단백질의 결합 및 인식기작을 연구하기 위해서[$\alpha$^{-32}$P] UMP-labeled HIV Rev-responsive element(RRE) RNA를 이용한 affinity screening에 이해서 Hela ZA-PII cDNA library로부터 이중선RNA결합단백질의 cDNA (RBFII)를 분리하였다. RBFII의 cDNA에 대한 염기서열을 결정하였으며 기존에 연구된 바 있는 RBFII(RBF 또는 TRBP로 보고되었으며 본 연구에서는 RBFII와 구분하기 위해 RBFI으로 명명)과 대부분의 경우 공통적인 ORF를 지니는 것으로 나타났다. 그러나 5’말단에서는 공통적인 ORF 가 RBFI의 경우 21개의 아미노산을 의미하는 63 nt가 Lac-Z의 N-말단에 연결된데 비해서 특이한 46개 아미노기를 의미하는 138nt가 존재함이 밝혀졌다. 5’-말단에 처음 나타나는 ATG 및 부근의 염기서열을 분석해 볼 때 양 cDNA는 5’말단이 완전하지 않은 것으로 사료된다.