横纹肌线粒体相关基因的表观遗传学。

IF 2.5 Q3 GENETICS & HEREDITY
Kenneth C Ehrlich, Hong-Wen Deng, Melanie Ehrlich
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引用次数: 3

摘要

横纹肌的能量需求特别大。我们鉴定出97个基因在骨骼肌和心脏中优先表达,而在主动脉中不表达,并发现它们之间的线粒体关联显著富集。我们比较了与横纹肌和线粒体相关的27个基因的表观基因组和转录组谱。许多人表现出组织特异性转录水平与组织特异性启动子、增强子或开放染色质以及DNA低甲基化之间的强相关性。他们的横纹肌特异性增强子染色质位于该基因的内部、上游或下游,作为超级增强子(CKMT2、SLC25A4和ACO2)贯穿该基因的大部分,甚至与邻近基因(COX6A2、COX7A1和COQ10A)重叠。令人惊讶的是,1.38 Mb PRKN (PARK2)基因(参与线粒体自噬并与青少年帕金森病有关)的3'端显示出骨骼肌/成肌细胞特异性增强染色质,成肌细胞特异性反意义RNA以及脑特异性增强染色质。我们还在PPARGC1A (PGC-1α)内的脑和胚胎干细胞中发现了新的组织特异性rna,该rna编码线粒体形成和代谢的主转录共调节因子。该基因的四个可选启动子的组织特异性,包括一个肌肉相关启动子,与附近的增强子染色质和开放染色质相关。我们对这些基因进行了深入的表观遗传学检查,揭示了先前未描述的组织特异性增强子染色质,基因内启动子,DNA低甲基化区域和基因内非编码rna,为这组医学上重要的基因的转录控制提供了新的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Epigenetics of Mitochondria-Associated Genes in Striated Muscle.

Epigenetics of Mitochondria-Associated Genes in Striated Muscle.

Epigenetics of Mitochondria-Associated Genes in Striated Muscle.

Epigenetics of Mitochondria-Associated Genes in Striated Muscle.

Striated muscle has especially large energy demands. We identified 97 genes preferentially expressed in skeletal muscle and heart, but not in aorta, and found significant enrichment for mitochondrial associations among them. We compared the epigenomic and transcriptomic profiles of the 27 genes associated with striated muscle and mitochondria. Many showed strong correlations between their tissue-specific transcription levels, and their tissue-specific promoter, enhancer, or open chromatin as well as their DNA hypomethylation. Their striated muscle-specific enhancer chromatin was inside, upstream, or downstream of the gene, throughout much of the gene as a super-enhancer (CKMT2, SLC25A4, and ACO2), or even overlapping a neighboring gene (COX6A2, COX7A1, and COQ10A). Surprisingly, the 3' end of the 1.38 Mb PRKN (PARK2) gene (involved in mitophagy and linked to juvenile Parkinson's disease) displayed skeletal muscle/myoblast-specific enhancer chromatin, a myoblast-specific antisense RNA, as well as brain-specific enhancer chromatin. We also found novel tissue-specific RNAs in brain and embryonic stem cells within PPARGC1A (PGC-1α), which encodes a master transcriptional coregulator for mitochondrial formation and metabolism. The tissue specificity of this gene's four alternative promoters, including a muscle-associated promoter, correlated with nearby enhancer chromatin and open chromatin. Our in-depth epigenetic examination of these genes revealed previously undescribed tissue-specific enhancer chromatin, intragenic promoters, regions of DNA hypomethylation, and intragenic noncoding RNAs that give new insights into transcription control for this medically important set of genes.

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来源期刊
Epigenomes
Epigenomes GENETICS & HEREDITY-
CiteScore
3.80
自引率
0.00%
发文量
38
审稿时长
11 weeks
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