• Molecules and Cells
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• 제43권10호
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• pp.841-847
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• 2020

Histone acetylation and deacetylation play central roles in the regulation of chromatin structure and transcription by RNA polymerase II (RNA Pol II). Although Hda1 histone deacetylase complex (Hda1C) is known to selectively deacetylate histone H3 and H2B to repress transcription, previous studies have suggested its potential roles in histone H4 deacetylation. Recently, we have shown that Hda1C has two distinct functions in histone deacetylation and transcription. Histone H4-specific deacetylation at highly transcribed genes negatively regulates RNA Pol II elongation and H3 deacetylation at inactive genes fine-tunes the kinetics of gene induction upon environmental changes. Here, we review the recent understandings of transcriptional regulation via histone deacetylation by Hda1C. In addition, we discuss the potential mechanisms for histone substrate switching by Hda1C, depending on transcriptional frequency and activity.

• BMB Reports
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• 제42권4호
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• pp.227-231
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• 2009

The eukaryotic genome forms a chromatin structure that contains repeating nucleosome structures. Nucleosome packaging is regulated by chromatin remodeling factors such as histone chaperones. The Saccharomyces cerevisiae H3/H4 histone chaperones, CAF-1 and Asf1, regulate DNA replication and chromatin assembly. CAF-1 function is largely restricted to non-transcriptional processes in heterochromatin, whereas Asf1 regulates transcription together with another H3/H4 chaperone, HIR. This study examined the role of the yeast H3/H4 histone chaperones, Asf1, HIR, and CAF-1 in chromatin dynamics during transcription. Unexpectedly, CAF-1 was recruited to the actively transcribed region in a similar way to HIR and Asf1. In addition, the three histone chaperones genetically interacted with Set2-dependent H3 K36 methylation. Similar to histone chaperones, Set2 was required for tolerance to excess histone H3 but not to excess H2A, suggesting that CAF-1, Asf1, HIR, and Set2 function in a related pathway and target chromatin during transcription.

• 대한화학회지
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• 제8권4호
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• pp.164-168
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• 1964

"좀개구리밥"에서 histone 型 鹽基性 蛋白質을 單離하는데 처음으로 成功했다. 鹽基性 單白質은 "좀개구리밥"의 細胞磨碎物에서 稀 錦酸으로 抽出 分離하였다. 그 中 Amberlite CG-50에 (pH 6.0에서) 吸着되는 蛋白質成分은 송아지 胸腺 histone과 비슷한 amino 酸組成을 보였고, 構成 amino 酸 殘基로서는 lysine 이 特히 많았다. Carboxymethyl cellulose에 (pH 4.2에서) 吸着되는 蛋白成分의 溶出 chromatogram은 송아지 胸腺 histone과 비슷했으나, 各 peak의 比率은 相遠했으며, 特히 非吸着 成分이 含有되어 있음도 相違했다. 또 吸着成分의 amino 酸組成은 histone 型 鹽基成을 나타냈으나, 非吸着 成分은 典型的인 histone과는 相異한 蛋白質임을 確認했다. 송아지 胸腺 histone과 "좀개구리밥"에서 單離한 蛋白 成分들의 黃酸 存在下에서 $HgSO_4$와의 沈澱反應을 histone아닌 蛋白質과 比較 檢討한 結果, "좀개구리밥"에서 單離한 것은 histone 型 蛋白成分이 分明하였다.

• 생명과학회지
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• 제17권4호
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• pp.593-598
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• 2007

Amino acids of histone tail are covalently modified in eukaryotic cells. Lysine residues in histone H3 and H4 are methylated at three levels; mono-, di- or trimethylation. Methylation in histones is related with transcription of the genes in distinct pattern depending on lysine residues and methylated levels. Relation between transcription and methylation has been relatively well understood at three lysines H3K4, H3K9 and H3K36. H3K4 is methylated in active or potentially active chromatin and its methylation associates with active transcription. H3K9 is generally methylated in heterochromatin or repressed gene, but trimethylation of this lysine occur in actively transcribed genes also. Methylation at H3K36 generally correlates with active chromatin/transcription, but the correlation of its dimethylation with transcription is controversial. All together methylation patterns of individual lysine residues in histone relate with activation or repression of transcription and may provide distinctive roles in transcriptional regulation of the eukaryotic genes.

• Genomics & Informatics
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• 제10권3호
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• pp.145-152
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• 2012

Chromatin structure and dynamics that are influenced by epigenetic marks, such as histone modification and DNA methylation, play a crucial role in modulating gene transcription. To understand the relationship between histone modifications and regulatory elements in breast cancer cells, we compared our chromatin immunoprecipitation sequencing (ChIP-Seq) histone modification patterns for histone H3K4me1, H3K4me3, H3K9/16ac, and H3K27me3 in MCF-7 cells with publicly available formaldehyde-assisted isolation of regulatory elements (FAIRE)-chip signals in human chromosomes 8, 11, and 12, identified by a method called FAIRE. Active regulatory elements defined by FAIRE were highly associated with active histone modifications, like H3K4me3 and H3K9/16ac, especially near transcription start sites. The H3K9/16ac-enriched genes that overlapped with FAIRE signals (FAIRE-H3K9/14ac) were moderately correlated with gene expression levels. We also identified functional sequence motifs at H3K4me1-enriched FAIRE sites upstream of putative promoters, suggesting that regulatory elements could be associated with H3K4me1 to be regarded as distal regulatory elements. Our results might provide an insight into epigenetic regulatory mechanisms explaining the association of histone modifications with open chromatin structure in breast cancer cells.

• Journal of Microbiology and Biotechnology
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• 제28권9호
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• pp.1573-1579
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• 2018

Transcriptional gene silencing is regulated by the chromatin structure, which is by various factors including histones. Saccharomyces cerevisiae contains transcriptionally silenced regions such as telomeric regions and hidden mating (HM) loci. The positively-charged amino acids on the histone H4 tail were reported to be critical for the telomeric silencing in yeast, by interacting with Dot1, a specific methyltransferase for the $79^{th}$ lysine on histone H3. However, Dot1 did not affect gene silencing within HM loci, but whether the positively-charged amino acids on the H4 tail affect HM silencing has not been defined. To elucidate the function of the H4 tail on HM silencing, we created several MATa-type yeast strains bearing the substitution of arginine with alanine or lysine on the histone H4 tail and checked the sensitivity of MATa-type yeast to alpha pheromone. The arginine point mutants substituted by alanine (R17A, R19A, and R23A) did not show sensitivity to alpha pheromone, but only two arginine mutants substituted by lysine (R17K and R19K) restored the sensitivity to alpha pheromone-like wild type. These data suggested that the basic property of arginine at $17^{th}$ and $19^{th}$ positions in the histone H4 tail is critical for maintaining HM silencing, but that of the $23^{rd}$ arginine is not. Our data implicated that the positive charge of two arginine residues on the histone H4 tail is required for HM silencing in a manner independent of Dot1.

• BMB Reports
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• 제53권5호
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• pp.266-271
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• 2020

Breast cancer encompasses a major portion of human cancers and must be carefully monitored for appropriate diagnoses and treatments. Among the many types of breast cancers, triple negative breast cancer (TNBC) has the worst prognosis and the least cases reported. To gain a better understanding and a more decisive precursor for TNBC, two major histone modifications, an activating modification H3K4me3 and a repressive modification H3K27me3, were analyzed using data from normal breast cell lines against TNBC cell lines. The combination of these two histone markers on the gene promoter regions showed a great correlation with gene expression. A list of signature genes was defined as active (highly enriched H3K4me3), including NOVA1, NAT8L, and MMP16, and repressive genes (highly enriched H3K27me3), IRX2 and ADRB2, according to the distribution of these histone modifications on the promoter regions. To further enhance the investigation, potential candidates were also compared with other types of breast cancer to identify signs specific to TNBC. RNA-seq data was implemented to confirm and verify gene regulation governed by the histone modifications. Combinations of the biomarkers based on H3K4me3 and H3K27me3 showed the diagnostic value AUC 93.28% with P-value of 1.16e-226. The results of this study suggest that histone modification analysis of opposing histone modifications may be valuable toward developing biomarkers and targets for TNBC.

• BMB Reports
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• 제49권10호
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• pp.560-565
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• 2016

Granzyme A (GzmA) was first identified as a cytotoxic T lymphocyte protease protein with limited tissue expression. A number of cellular proteins are known to be cleaved by GzmA, and its function is to induce apoptosis. Histones H1, H2B, and H3 were identified as GzmA substrates during apoptotic cell death. Here, we demonstrated that histone H4 was cleaved by GzmA during staurosporine-induced cell death; however, in the presence of caspase inhibitors, staurosporine-treated Raji cells underwent necroptosis instead of apoptosis. Furthermore, histone H4 cleavage was blocked by the GzmA inhibitor nafamostat mesylate and by GzmA knockdown using siRNA. These results suggest that histone H4 is a novel substrate for GzmA in staurosporine-induced cells.

• 생명과학회지
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• 제30권8호
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• pp.713-721
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• 2020

Adipogenesis의 연구는 인간의 지방생물학의 기초적인 분자기전을 이해하고, 비만, 당뇨 및 대사성 증후군의 발병기전을 밝히는데 필요하다. Adipogenesis의 많은 연구가 adipocytes 특이적인 핵심 전사인자인 PPARγ와 C/EBPα를 중심으로 하는 유전자 발현조절 및 세포 내 신호전달에 초점이 맞추어 활발하게 연구가 진행되었다. 그러나, 에피지놈 변형효소나 히스톤 돌연변이에 의한 에피지놈 관점에서 adipogenesis 연구는 미흡한 실정이다. 포유동물에서 히스톤 methylation은 유전자 발현에 대한 주요 후성유전적(epigenome) 변형 중 하나이며, 특히 히스톤 H3 lysine methylation은 다양한 조직 및 기관 발생과정과 세포 분화에 매우 중요한 히스톤 변형이다. 세포 특이적 enhancer는 adipogenesis에서 active enhancer 표지자인 H3K27ac와 함께 H3K4me1로 변형된다. MLL4는 Pparg 및 Cebpa 유전자 ehancers에서 중요한 adipogenic H3K4 mono-methyltransferase이다. 따라서 MLL4는 adipogenesis에 중요한 에피지놈 변형효소라고 할 수 있다. 유전자 발현 억제를 유발하는 대표적인 히스톤 변형인 H3K27me3은 Polycomb repressive complex 2의 효소활성 subunit인 Ezh2에 의해 매개된다. Wnt 유전자에서 Ezh2에 의한 H3K27me3 히스톤 methylation 변형은 adipogenesis를 증가시키는데, 이는 WNT 신호 전달이 adipogenesis의 억제 조절자로 알려져 있기 때문이다. 본 논문은 유전자 발현을 근본적으로 조절하는 히스톤 H3 methylation에 의한 후성 유전학적인 조절이 어떻게 adipogenesis를 조절하는지에 대해 요약한다.

• 미생물학회지
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• 제28권2호
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• pp.128-133
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• 1990

고등한 진핵생물에서 nucleosome 구성에 중요한 역할을 하는 histone 단백질이 하등한 진핵생물에서도 존재하는지의 여부를 알아보기 위하여 실험을 하였다. 하등한 균류에 속하는 Rhizopus 속의 5종(R. acidus, R. arrhizus, R. formosaensis. R R. japoηicus, R. oryzae)을 재료로 하여 15% polyacrylamide acid-urea gel과 18% P이yacηlam ide SDS-gel을 이용하여 전기영동하였다. 분자량을 비교하기 위하여 marker protein으로 Cytochrome C와 함께 15% polyacrylamide SDS-gel을 이용하였으며 모든 gel에서 standard로써 calf thymus histone을 사용하여 electrophoreticmobility를 비교하였고 호 한 속내에서의 종간의 차이가 있는지를 설험하였다 실험결과는 한 속내에서 종에 따른 차이로 볼 수 없었으며 standard인 calf thymus histone HI. H2A, H2B, H3, H4와 유사한 electromobility흘 갖는 protein band를 확인할 수 있었으며 HI histone은 t성확하게 일치되지가않았다.따라서 하등한균류인Rhizopµs에서도고등 진핵생불과유사한단백질이 존재함을 주정할 수가 있었다.