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Imprinting is an epigenetically controlled form of gene regulation in which the expression of a gene is based on its parent of origin. This epigenetic regulation is likely to involve allele-specific DNA or histone modifications. The relative abundance of eight different histone modifications was tested at various regions in several imprinted maize (Zea mays) genes using a chromatin immunoprecipitation protocol coupled with quantitative allele-specific single nucleotide polymorphism assays. Histone H3 lysine-27 di- and tri-methylation are paternally enriched at the imprinted loci Mez1, ZmFie1 and Nrp1. In contrast, acetylation of histones H3 and H4 and H3K4 dimethylation are enriched at the maternal alleles of these genes. Di- and tri-methylation of H3 lysine-9, which is generally associated with constitutively silenced chromatin, was not enriched at either allele of imprinted loci. These patterns of enrichment were specific to tissues that exhibit imprinting. In addition, the enrichment of these modifications was dependent upon the parental origin of an allele and not sequence differences between the alleles, as demonstrated by reciprocal crosses. This study presents a detailed view of the chromatin modifications that are associated with the maternal and paternal alleles at imprinted loci and provides evidence for common histone modifications at multiple imprinted loci. 相似文献
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近年来,表观遗传学(epigenetics)备受关注.表观遗传调控的方式主要包括DNA甲基化、组蛋白修饰和染色质重塑等.ENCODE计划及随后的研究发现,人类基因组中仅有很小一部分DNA序列负责编码蛋白质,而其余大部分被转录为非编码RNA(non-codingRNA,ncRNA).其中长链非编码RNA(long non-codingRNA,lncRNA)是一类长度大于200nt并且缺乏蛋白质编码能力的RNA分子.越来越多的研究表明,lncRNAs能够通过表观遗传调控、转录调控以及转录后调控等多个层面调节基因的表达,从而参与细胞增殖、分化和凋亡等多种生物学过程.本文将着重综述lncRNAs在表观遗传调控中的作用及其最新的研究进展. 相似文献
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Gangning Liang 《Epigenetics》2017,12(6):416-432
DNA methylation aberrancies are hallmarks of human cancers and are characterized by global DNA hypomethylation of repetitive elements and non-CpG rich regions concomitant with locus-specific DNA hypermethylation. DNA methylation changes may result in altered gene expression profiles, most notably the silencing of tumor suppressors, microRNAs, endogenous retorviruses and tumor antigens due to promoter DNA hypermethylation, as well as oncogene upregulation due to gene-body DNA hypermethylation. Here, we review DNA methylation aberrancies in human cancers, their use in cancer surveillance and the interplay between DNA methylation and histone modifications in gene regulation. We also summarize DNA methylation inhibitors and their therapeutic effects in cancer treatment. In this context, we describe the integration of DNA methylation inhibitors with conventional chemotherapies, DNA repair inhibitors and immune-based therapies, to bring the epigenome closer to its normal state and increase sensitivity to other therapeutic agents to improve patient outcome and survival. 相似文献
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Erica Shen Hennady Shulha Zhiping Weng Schahram Akbarian 《Philosophical transactions of the Royal Society of London. Series B, Biological sciences》2014,369(1652)
The growing list of mutations implicated in monogenic disorders of the developing brain includes at least seven genes (ARX, CUL4B, KDM5A, KDM5C, KMT2A, KMT2C, KMT2D) with loss-of-function mutations affecting proper regulation of histone H3 lysine 4 methylation, a chromatin mark which on a genome-wide scale is broadly associated with active gene expression, with its mono-, di- and trimethylated forms differentially enriched at promoter and enhancer and other regulatory sequences. In addition to these rare genetic syndromes, dysregulated H3K4 methylation could also play a role in the pathophysiology of some cases diagnosed with autism or schizophrenia, two conditions which on a genome-wide scale are associated with H3K4 methylation changes at hundreds of loci in a subject-specific manner. Importantly, the reported alterations for some of the diseased brain specimens included a widespread broadening of H3K4 methylation profiles at gene promoters, a process that could be regulated by the UpSET(KMT2E/MLL5)-histone deacetylase complex. Furthermore, preclinical studies identified maternal immune activation, parental care and monoaminergic drugs as environmental determinants for brain-specific H3K4 methylation. These novel insights into the epigenetic risk architectures of neurodevelopmental disease will be highly relevant for efforts aimed at improved prevention and treatment of autism and psychosis spectrum disorders. 相似文献
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Melanoma is a highly heterogeneous cancer that comes in different flavors (lentigo maligna melanoma, superficial spreading melanoma, nodular melanoma, acral lentiginous/mucosal melanoma and other less common subtypes including malignant cellular blue nevus, desmoplastic melanoma, nevoid melanoma, and animal‐type melanoma) and colors (black/bluish or unpigmented). Pathologists have known for many years that melanoma displays notable changes in the nuclear architecture including thick chromatic rims, presence of mitosis, nuclear grooves, and more. It is now evident from other cancers that such changes reflect not only genomic alterations but also non‐genomic changes in both the structure of DNA and the structure of chromatin to which the DNA is bound (nucleosomes). Although aberrant gene expression resulting from DNA methylation has been known for many years, genome alterations resulting from histone modifications became evident in the current decade. In prostate and other cancers, some histone marks have clinical diagnostic and/or prognostic value. Here, we review the current data on epigenetic research in melanoma skin cancers, discuss ways to modify the epigenetic landscape of melanoma for inhibiting its growth, and propose strategies for identifying novel melanoma markers. 相似文献
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Histone methylation is believed to play important roles in epigenetic memory in various biological processes. However, questions
like whether the methylation marks themselves are faithfully transmitted into daughter cells and through what mechanisms are
currently under active investigation. Previously, methylation was considered to be irreversible, but the recent discovery
of histone lysine demethylases revealed a dynamic nature of histone methylation regulation on four of the main sites of methylation
on histone H3 and H4 tails (H3K4, H3K9, H3K27 and H3K36). Even so, it is still unclear whether demethylases specific for the
remaining two sites, H3K79 and H4K20, exist. Furthermore, besides histone proteins, the lysine methylation and demethylation
also occur on non-histone proteins, which are probably subjected to similar regulation as histones. This review discusses
recent progresses in protein lysine methylation regulation focusing on the above topics, while referring readers to a number
of recent reviews for the biochemistry and biology of these enzymes 相似文献
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《Epigenetics》2013,8(11):1279-1289
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表观遗传学与人类疾病的研究进展 总被引:22,自引:0,他引:22
在过去的几年里,人们对表观遗传疾病的机理有了新的认识,这些疾病与染色质重塑、基因组印记、X染色体失活以及非编码RNA调控这4个表观遗传过程相关。这4个过程通过调节染色质结构,在染色体或基因簇水平上对基因表达进行调控;异常调控导致复杂的突变且表现为出生前后生长发育和神经功能的异常。对这些疾病的探讨为表观遗传机制的研究提供了很好的模型,进而有助于生物医学的研究。文章就表观遗传学和表观遗传疾病机制的研究进展做一综述。 相似文献
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Debina Sarkar Euphemia Y Leung Bruce C Baguley Graeme J Finlay Marjan E Askarian-Amiri 《Epigenetics》2015,10(2):103-121
The development and progression of melanoma have been attributed to independent or combined genetic and epigenetic events. There has been remarkable progress in understanding melanoma pathogenesis in terms of genetic alterations. However, recent studies have revealed a complex involvement of epigenetic mechanisms in the regulation of gene expression, including methylation, chromatin modification and remodeling, and the diverse activities of non-coding RNAs. The roles of gene methylation and miRNAs have been relatively well studied in melanoma, but other studies have shown that changes in chromatin status and in the differential expression of long non-coding RNAs can lead to altered regulation of key genes. Taken together, they affect the functioning of signaling pathways that influence each other, intersect, and form networks in which local perturbations disturb the activity of the whole system. Here, we focus on how epigenetic events intertwine with these pathways and contribute to the molecular pathogenesis of melanoma. 相似文献
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人恶性黑色素瘤(malignant melanoma)是近年来高发病率和高死亡率的肿瘤之一.目前尚缺乏有效的治疗方法.而表观遗传如DNA甲基化(DNA methylation)、组蛋白修饰(histonemodification)、染色质重塑(chromatin remodeling)及RNA干扰(RNA interference,RNAi)等改变在人黑色素瘤的发生、发展和转移中有重要作用.阐明黑色素瘤发生发展的表观遗传学机制已引起了学者的普遍关注.本文综述了人类黑色素瘤发生发展中所特异的表观遗传改变:CpG岛的异常甲基化修饰、组蛋白甲基化和乙酰化修饰、染色质重塑以及microRNA在黑色素瘤发生和转移中的作用,并对应用表观遗传修饰治疗人类黑色素瘤进行了探讨. 相似文献
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Genomic imprinting, an epigenetic gene-marking phenomenon that occurs in the germline, leads to parental-origin-specific expression of a small subset of genes in mammals. Imprinting has a great impact on normal mammalian development, fetal growth, metabolism and adult behavior. The epigenetic imprints regarding the parental origin are established during male and female gametogenesis, passed to the zygote through fertilization, maintained throughout development and adult life, and erased in primordial germ cells before the new imprints are set. In this review, we focus on the recent discoveries on the mechanisms involved in the reprogramming and maintenance of the imprints. We also discuss the epigenetic changes that occur at imprinted loci in induced pluripotent stem cells. 相似文献
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In mammals, expression of UBE3A is epigenetically regulated in neurons and expression is restricted to the maternal copy of UBE3A. A recent report claimed that Drosophila melanogaster UBE3A homolog (Dube3a) is preferentially expressed from the maternal allele in fly brain, inferring an imprinting mechanism. However, complex epigenetic regulatory features of the mammalian imprinting center are not present in Drosophila, and allele specific expression of Dube3a has not been documented. We used behavioral and electrophysiological analysis of the Dube3a loss-of-function allele (Dube3a15b) to investigate Dube3a imprinting in fly neurons. We found that motor impairment (climbing ability) and a newly-characterized defect in synaptic transmission are independent of parental inheritance of the Dube3a15b allele. Furthermore, expression analysis of coding single nucleotide polymorphisms (SNPs) in Dube3a did not reveal allele specific expression differences among reciprocal crosses. These data indicate that Dube3a is neither imprinted nor preferentially expressed from the maternal allele in fly neurons. 相似文献