DNA methylation and regulation of gene expression: Guardian of our health

Dhar, Gaurab Aditya; Saha, Shagnik; Mitra, Parama; Chaudhuri, Ronita Nag

doi:10.1007/s13237-021-00367-y

Cited by 76 publications

(29 citation statements)

References 97 publications

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“…DNA methylation, which affects chromatin state and gene expression, is one of the most studied processes of genomic regulation today [1, 2]. The specifics of the regulatory function of methylation continue to be studied, but there is no doubt that this process is related to ontogenetic development and aging [3,4].…”

Section: Introductionmentioning

confidence: 99%

DNA methylation meta-analysis confirms the division of the genome into two functional groups

Salnikov¹,

Goldberg

Sukumaran

et al. 2022

Preprint

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Based on a meta-analysis of human genome methylation data, we tested a theoretical model in which aging is explained by the redistribution of limited resources in cells between two main tasks of the organism: its self-sustenance based on the function of the housekeeping gene group (HG) and functional differentiation, provided by the (IntG) integrative gene group. A meta-analysis of methylation of 100 genes, 50 in the HG group and 50 in IntG, showed significant differences ( p<0.0001) between our groups in the level of absolute methylation values of genes bodies and its promoters. We showed a reliable decrease of absolute methylation values in IntG with rising age in contrast to HG, where this level remained constant. The one-sided decrease in methylation in the IntG group is indirectly confirmed by the dispersion data analysis, which also decreased in the genes of this group. The imbalance between HG and IntG in methylation levels suggests that this IntG-shift is a side effect of the ontogenesis grownup program and the main cause of aging. The theoretical model of functional genome division also suggests the leading role of slow dividing and post mitotic cells in triggering and implementing the aging process.

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Section: Introductionmentioning

confidence: 99%

DNA methylation meta-analysis confirms the division of the genome into two functional groups

Salnikov¹,

Goldberg

Sukumaran

et al. 2022

Preprint

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“…The recent reports show that the hypermethylation/hypomethylation level in the promoter region (e.g., defined as TSS1500 upstream to TSS200 downstream of TSS, 5′UTR, and first exon; TSS denotes transcription start site) and gene body determine the gene expression level ( Sandoval et al, 2011 ; Yang et al, 2014 ). Therefore, we screened the promoter and gene body methylation data to perform classification because the alteration of methylation levels in these regions can influence the gene expression level and subsequently influence the biological processes ( Dhar et al, 2021 ). The CpG sites, which include all promoter regions and the gene body, were screened for feature selection.…”

Section: Resultsmentioning

confidence: 99%

A Deep Learning–Based Framework for Supporting Clinical Diagnosis of Glioblastoma Subtypes

Munquad

Mallik

et al. 2022

Front. Genet.

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Understanding molecular features that facilitate aggressive phenotypes in glioblastoma multiforme (GBM) remains a major clinical challenge. Accurate diagnosis of GBM subtypes, namely classical, proneural, and mesenchymal, and identification of specific molecular features are crucial for clinicians for systematic treatment. We develop a biologically interpretable and highly efficient deep learning framework based on a convolutional neural network for subtype identification. The classifiers were generated from high-throughput data of different molecular levels, i.e., transcriptome and methylome. Furthermore, an integrated subsystem of transcriptome and methylome data was also used to build the biologically relevant model. Our results show that deep learning model outperforms the traditional machine learning algorithms. Furthermore, to evaluate the biological and clinical applicability of the classification, we performed weighted gene correlation network analysis, gene set enrichment, and survival analysis of the feature genes. We identified the genotype–phenotype relationship of GBM subtypes and the subtype-specific predictive biomarkers for potential diagnosis and treatment.

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“…A fine balance maintains the normal profile of the cell and an imbalance can be associated with development of diseased states including cancer, neuronal disorder, impaired DNA repair, exposure associated disorders [6,27,42,51]. In the present issue, Dhar et al [12] and Banerjee et al [2] outlines some of the major aspects of DNA methylation and how it affects gene expression and development of neuronal disorder like autism. In both the articles, issues relating to genomic imprinting have been discussed along with how understanding epigenetic alterations can help in countering these disorders in humans, clinically.…”

Section: Covalent Modifications Of the Chromatin Lead To Epigenetically Regulated Expression Profilementioning

confidence: 94%

“…With age, the reproductive phase peaks and gradually fades out. In this edition, Chandra et al presents elaborately on the physiological importance of GnRH genes, age associated changes in their expression and how epigenetic guardians [12] like DNA methyl transferases (DNMTs), ten-eleven translocases (TETs), play crucial role in fine tuning the expression of these genes [8].…”

Section: Epimutagenesismentioning

confidence: 99%

Impact of epigenetics on human health and possible tool for remediation

Paul

2021

Nucleus

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DNA methylation and regulation of gene expression: Guardian of our health

Cited by 76 publications

References 97 publications

DNA methylation meta-analysis confirms the division of the genome into two functional groups

DNA methylation meta-analysis confirms the division of the genome into two functional groups

A Deep Learning–Based Framework for Supporting Clinical Diagnosis of Glioblastoma Subtypes

Impact of epigenetics on human health and possible tool for remediation

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