• BMB Reports
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• 제45권1호
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• pp.32-37
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• 2012

Alternative splicing generates several interleukin-6 (IL-6) isoforms; for them an antagonistic activity to the wild-type IL-6 has been proposed. In this study we quantified the relative abundance of IL-6 mRNA isoforms in a panel of mouse tissues and in C2C12 cells during myoblast differentiation or after treatment with the $Ca^{2+}$ ionophore A23187, the AMP-mimetic AICAR and TNF-${\alpha}$. The two mouse IL-6 isoforms identified, IL-6${\delta}$5 (deletion of the first 58 bp of exon 5) and IL-6${\delta}$3 (lacking exon 3), were not conserved in rat and human, did not exhibit tissue specific regulation, were expressed at low levels and their abundance closely correlated to that of full-length IL-6. Species-specific features of the IL-6 sequence, such as the presence of competitive 3' acceptor site in exon 5 and insertion of retrotransposable elements in intron 3, could explain the production of IL-6${\delta}$5 and IL-6${\delta}$3. Our results argued against biological significance for mouse IL-6 isoforms.

• Molecules and Cells
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• 제39권3호
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• pp.179-185
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• 2016

Posttranscriptional regulation of RNA metabolism, including RNA processing, intron splicing, editing, RNA export, and decay, is increasingly regarded as an essential step for fine-tuning the regulation of gene expression in eukaryotes. RNA-binding proteins (RBPs) are central regulatory factors controlling posttranscriptional RNA metabolism during plant growth, development, and stress responses. Although functional roles of diverse RBPs in living organisms have been determined during the last decades, our understanding of the functional roles of RBPs in plants is lagging far behind our understanding of those in other organisms, including animals, bacteria, and viruses. However, recent functional analysis of multiple RBP family members involved in plant RNA metabolism and elucidation of the mechanistic roles of RBPs shed light on the cellular roles of diverse RBPs in growth, development, and stress responses of plants. In this review, we will discuss recent studies demonstrating the emerging roles of multiple RBP family members that play essential roles in RNA metabolism during plant growth, development, and stress responses.

• Asian-Australasian Journal of Animal Sciences
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• 제28권6호
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• pp.870-875
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• 2015

The purpose of this study was to investigate the alternative splicing in equine cordon-bleu WH2 repeat protein-like 1 (COBLL1) gene that was identified in horse muscle and blood leukocytes, and to predict functional consequences of alternative splicing by bioinformatics analysis. In a previous study, RNA-seq analysis predicted the presence of alternative spliced isoforms of equine COBLL1, namely COBLL1a as a long form and COBLL1b as a short form. In this study, we validated two isoforms of COBLL1 transcripts in horse tissues by the real-time polymerase chain reaction, and cloned them for Sanger sequencing. The sequencing results showed that the alternative splicing occurs at exon 9. Prediction of protein structure of these isoforms revealed three putative phosphorylation sites at the amino acid sequences encoded in exon 9, which is deleted in COBLL1b. In expression analysis, it was found that COBLL1b was expressed ubiquitously and equivalently in all the analyzed tissues, whereas COBLL1a showed strong expression in kidney, spinal cord and lung, moderate expression in heart and skeletal muscle, and low expression in thyroid and colon. In muscle, both COBLL1a and COBLL1b expression decreased after exercise. It is assumed that the regulation of COBLL1 expression may be important for regulating glucose level or switching of energy source, possibly through an insulin signaling pathway, in muscle after exercise. Further study is warranted to reveal the functional importance of COBLL1 on athletic performance in race horses.

• Asian-Australasian Journal of Animal Sciences
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• 제30권10호
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• pp.1471-1477
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• 2017

Objective: Since athletic performance is a most importance trait in horses, most research focused on physiological and physical studies of horse athletic abilities. In contrast, the molecular analysis as well as the regulatory pathway studies remain insufficient for evaluation and prediction of horse athletic abilities. In our previous study, we identified AXL receptor tyrosine kinase (AXL) gene which was expressed as alternative spliced isoforms in skeletal muscle during exercise. In the present study, we validated two AXL alternative splicing transcripts (named as AXLa for long form and AXLb for short form) in equine skeletal muscle to gain insight(s) into the role of each alternative transcript during exercise. Methods: We validated two isoforms of AXL transcripts in horse tissues by reverse transcriptase polymerase chain reaction (RT-PCR), and then cloned the transcripts to confirm the alternative locus and its sequences. Additionally, we examined the expression patterns of AXLa and AXLb transcripts in horse tissues by quantitative RT-PCR (qRT-PCR). Results: Both of AXLa and AXLb transcripts were expressed in horse skeletal muscle and the expression levels were significantly increased after exercise. The sequencing analysis showed that there was an alternative splicing event at exon 11 between AXLa and AXLb transcripts. 3-dimentional (3D) prediction of the alternative protein structures revealed that the structural distance of the connective region between fibronectin type 3 (FN3) and immunoglobin (Ig) domain was different between two alternative isoforms. Conclusion: It is assumed that the expression patterns of AXLa and AXLb transcripts would be involved in regulation of exercise-induced stress in horse muscle possibly through an $NF-{\kappa}B$ signaling pathway. Further study is necessary to uncover biological function(s) and significance of the alternative splicing isoforms in race horse skeletal muscle.

• BMB Reports
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• 제53권11호
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• pp.551-564
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• 2020

Proper development of the nervous system is critical for its function, and deficits in neural development have been implicated in many brain disorders. A precise and predictable developmental schedule requires highly coordinated gene expression programs that orchestrate the dynamics of the developing brain. Especially, recent discoveries have been showing that various mRNA chemical modifications can affect RNA metabolism including decay, transport, splicing, and translation in cell type- and tissue-specific manner, leading to the emergence of the field of epitranscriptomics. Moreover, accumulating evidences showed that certain types of RNA modifications are predominantly found in the developing brain and their dysregulation disrupts not only the developmental processes, but also neuronal activities, suggesting that epitranscriptomic mechanisms play critical post-transcriptional regulatory roles in development of the brain and etiology of brain disorders. Here, we review recent advances in our understanding of molecular regulation on transcriptome plasticity by RNA modifications in neurodevelopment and how alterations in these RNA regulatory programs lead to human brain disorders.

• 한국생물물리학회:학술대회논문집
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• 한국생물물리학회 2003년도 정기총회 및 학술발표회
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• pp.52-52
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• 2003

Junctate is a newly identified integral ER/SR membrane $Ca^{2+}$ binding protein, which is an alternative splicing form of the same gene generating aspartyl $\square$-hydroxylase and junctin. To elucidate the functional role of junctate in heart, transgenic (TG) mice overexpressing mouse cardiac junctate-1 under the control of mouse $\square$$^{~}$ myosin heavy chain promoter were generated. Overexpression of junctate in mouse heart resulted in cardiac hypertrophy, increased fibrosis, bradycardia, arrhythmias and impaired contractility. Overexpression of junctate also led to down-regulation of SERCA2, calsequestrin, calreticulin and RyR, but to up-regulation of NCX and PMCA. The SR $Ca^{2+}$ content decreased and the L-type $Ca^{2+}$ current density and the action potential durations increased in TG cardiomyocytes, which could be the cause for the bradycardia in TG heart. The present work has provided an important example of pathogenesis leading to cardiac hypertrophy and arrhythmia, which was caused by impaired $Ca^{2+}$ handling by overexpression of junctate in heart.n heart.

• Asian Pacific Journal of Cancer Prevention
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• 제15권5호
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• pp.2345-2351
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• 2014

Lysyl oxidase-like 2 (LOXL2), a member of the lysyl oxidase (LOX) family, is a copper-dependent enzyme that catalyzes oxidative deamination of lysine residues on protein substrates. LOXL2 was found to be overexpressed in esophageal squamous cell carcinoma (ESCC) in our previous research. We later identified a LOXL2 splicing variant LOXL2-delta72 and we overexpressed LOXL2-delta72 and its wild type counterpart in ESCC cells following microarray analyses. First, the differentially expressed genes (DEGs) of LOXL2 and LOXL2-delta72 compared to empty plasmid were applied to generate protein-protein interaction (PPI) sub-networks. Comparison of these two sub-networks showed hundreds of different proteins. To reveal the potential specific roles of LOXL2- delta72 compared to its wild type, the DEGs of LOXL2-delta72 vs LOXL2 were also applied to construct a PPI sub-network which was annotated by Gene Ontology. The functional annotation map indicated the third PPI sub-network involved hundreds of GO terms, such as "cell cycle arrest", "G1/S transition of mitotic cell cycle", "interphase", "cell-matrix adhesion" and "cell-substrate adhesion", as well as significant "immunity" related terms, such as "innate immune response", "regulation of defense response" and "Toll signaling pathway". These results provide important clues for experimental identification of the specific biological roles and molecular mechanisms of LOXL2-delta72. This study also provided a work flow to test the different roles of a splicing variant with high-throughput data.

• 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.

• 한국가축번식학회지
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• 제18권3호
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• pp.199-206
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• 1994

본 연구는 생쥐 배 발생과정의 상이한 발현을 RT-PCR법에 의해 무작위 증폭함으로서 새로운 유전자를 손쉽게 크로닝하기 위해 수행되었다. mRNA의 상이한 display법은 Ling 과 Pardee (Science 257, 1992)에 의해 개발되었으며, 최근 Zimermann과 Schultz (PNAS USA 91, 1994)에 의해 재증명되었다. 이 방법은 특정 유전자의 일시적 발현의 변화가 maternal 제어로부터 접합체 제어로의 이행에 따른 발현전이, 다정자 침입과 단일 정자 침입에 의한 배발생의 기능적 차이, 성공적으로 부화한 배반포기 배와 부화에 실패한 배반포기 배에서의 발현의 차이는 물론 세포주기에 따른 유전자 발현 양식의 변화에 따른 새로운 유전자의 크로닝을 가능케 한다. 이 방법에 의해, 2세포기 특이 발현 유전자를 크로닝 하였으며, 이 유전자는 EcoRI제한 효소 처리후 Southern blot을 행한 결과 약 15kb genomic size를 가진 것으로 나타났다. 이 새로운 유전자는 간장 특이적 발현을 나타내었다. 또한, 적어도 2개의 mRNA가 존재하였으며, 이는 RNA splicing에 의한 것으로 추정되었다. (PCR, RT-PCR, cloning, preimplantation, mouse)

• 생명과학회지
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• 제21권3호
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• pp.459-463
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• 2011

붉은 털 원숭이의 유전체는 인간의 것과 93% 정도로 동일하여, 진화적 연구 및 생물의학적 연구에 널리 활용되고 있다. 숙주 개체 내로 가동성 유전인자(TEs)의 삽입은 유전자 전사체의 다양성과 발현양상을 다르게 만든다. 본 연구에서는 붉은 털 원숭이의 뇌 조직으로부터 만든 cDNA 라이브러리에서 112개 전사체를 동정하여 분석하였다. 하나의 전사체 R54는 인간과 원숭이의 다양한 조직에서 유전자 발현양상을 비교분석 해 본 결과 서로 다른 패턴을 보여 주었다. 이러한 현상은 가동성 유전인자인 L2A의 삽입으로 인한 스플라이싱 도너 사이트가 변화된 것으로 생각된다. 따라서, 영장류의 진화과정에 있어 유전체 내로 TEs의 삽입은 전사체의 다양성과 유전자 발현 조절에 변화를 주는 것으로 시사된다.