来自杂志 PLoS genetics 的文献。
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1.
徐炳祥
(2023-04-24 15:24):
#paper doi: 10.1371/journal.pgen.1009325,PLOS GENETICS, 2021, Ablation of DNA-methyltransferase 3A in skeletal muscle does not affect energy metabolism or exercise capacity。早年的研究表明,运动负荷后肌纤维DNA甲基化水平发生了明显改变,然而二者之间是否存在因果关系仍未被深入研究,该研究以小鼠比目鱼肌为实验材料,研究在肌纤维特异性DNMT3A敲除后运动负荷引起的DNA甲基化、运动负荷诱导的基因表达谱重塑和运动负荷诱导后的表型变化。结果显示DNMT3A敲除诱导的全基因组去甲基化与其余诸项均无显著关联,因而认为DNA甲基化图谱的重塑仅是运动负荷诱导的基因表达重编程过程的副产品。该研究的一个明显缺陷是DNMT3A的敲除效率和由此诱导的全基因组去甲基化幅度均不足。该研究提供了运动负荷调控DNA甲基化图谱的有益信息,同时提供了合理报告阴性结果的范例。
Abstract:
In response to physical exercise and diet, skeletal muscle adapts to energetic demands through large transcriptional changes. This remodelling is associated with changes in skeletal muscle DNA methylation which may …
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In response to physical exercise and diet, skeletal muscle adapts to energetic demands through large transcriptional changes. This remodelling is associated with changes in skeletal muscle DNA methylation which may participate in the metabolic adaptation to extracellular stimuli. Yet, the mechanisms by which muscle-borne DNA methylation machinery responds to diet and exercise and impacts muscle function are unknown. Here, we investigated the function of de novo DNA methylation in fully differentiated skeletal muscle. We generated muscle-specific DNA methyltransferase 3A (DNMT3A) knockout mice (mD3AKO) and investigated the impact of DNMT3A ablation on skeletal muscle DNA methylation, exercise capacity and energy metabolism. Loss of DNMT3A reduced DNA methylation in skeletal muscle over multiple genomic contexts and altered the transcription of genes known to be influenced by DNA methylation, but did not affect exercise capacity and whole-body energy metabolism compared to wild type mice. Loss of DNMT3A did not alter skeletal muscle mitochondrial function or the transcriptional response to exercise however did influence the expression of genes involved in muscle development. These data suggest that DNMT3A does not have a large role in the function of mature skeletal muscle although a role in muscle development and differentiation is likely.
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2.
颜林林
(2022-09-23 22:56):
#paper doi:10.1371/journal.pgen.1010404 PLOS Genetics, 2022, Analysis of low-level somatic mosaicism reveals stage and tissue-specific mutational features in human development. 这篇文章纳入了来自190人的498个样本,包括神经疾病患者、脑肿瘤患者和健康对照,样本类型包括外周血及脑、心脏、肝脏等组织,对这些样本进行配对的全外显子测序(平均深度~500x),研究各样本的体细胞突变,以及它们在不同组织类型和不同发育阶段的分布情况,以及突变特征差异。对这些突变,还采取Sanger和靶向扩增超高深度测序等方法进行验证,对于突变在不同类型细胞的分布,也使用了流式细胞术进行了验证。分析方法上都比较常规,但作为一套数百例不同组织部位的深度全外显子数据,以及它所描述的体细胞突变的分布,还是比较有重分析挖掘的价值的。
Abstract:
Most somatic mutations that arise during normal development are present at low levels in single or multiple tissues depending on the developmental stage and affected organs. However, the effect of …
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Most somatic mutations that arise during normal development are present at low levels in single or multiple tissues depending on the developmental stage and affected organs. However, the effect of human developmental stages or mutations of different organs on the features of somatic mutations is still unclear. Here, we performed a systemic and comprehensive analysis of low-level somatic mutations using deep whole-exome sequencing (average read depth ~500×) of 498 multiple organ tissues with matched controls from 190 individuals. Our results showed that early clone-forming mutations shared between multiple organs were lower in number but showed higher allele frequencies than late clone-forming mutations [0.54 vs. 5.83 variants per individual; 6.17% vs. 1.5% variant allele frequency (VAF)] along with less nonsynonymous mutations and lower functional impacts. Additionally, early and late clone-forming mutations had unique mutational signatures that were distinct from mutations that originated from tumors. Compared with early clone-forming mutations that showed a clock-like signature across all organs or tissues studied, late clone-forming mutations showed organ, tissue, and cell-type specificity in the mutation counts, VAFs, and mutational signatures. In particular, analysis of brain somatic mutations showed a bimodal occurrence and temporal-lobe-specific signature. These findings provide new insights into the features of somatic mosaicism that are dependent on developmental stage and brain regions.
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