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DNA Methylation and Epigenotypes 总被引:6,自引:0,他引:6
Holliday R 《Biochemistry. Biokhimii?a》2005,70(5):500-504
The science of epigenetics is the study of all those mechanisms that control the unfolding of the genetic program for development and determine the phenotypes of differentiated cells. The pattern of gene expression in each of these cells is called the epigenotype. The best known and most thoroughly studied epigenetic mechanism is DNA methylation, which provides a basis both for the switching of gene activities, and the maintenance of stable phenotypes. The human epigenome project is the determination of the pattern of DNA methylation in multiple cell types. Some methylation sites, such as those in repeated genetic elements, are likely to be the same in all cell types, but genes with specialized functions will have distinct patterns of DNA methylation. Another project for the future is the study of the reprogramming of the genome in gametogenesis and early development. Much is already known about the de novo methylation of tumor suppressor genes in cancer cells, but the significance of epigenetic defects during ageing and in some familial diseases remains to be determined. 相似文献
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DNA甲基化是重要的表观遗传修饰,主要发生在DNA的CpG岛. DNA的甲基化通过DNA甲基转移酶(DNA methyltransferases, DNMTs)完成. DNA甲基化参与了细胞分化、基因组稳定性、X染色体失活、基因印记等多种细胞生物学过程.单基因水平及基因组范围内的DNA甲基化改变在肿瘤发生发展中亦发挥重要作用. 抑癌基因的异常甲基化引起的表达抑制,可导致肿瘤细胞的增殖失控和侵袭转移,并参与肿瘤组织的血管生成过程.在许多肿瘤的研究中都发现了基因组整体DNA低甲基化所导致的染色体不稳定性. 本文从DNA的异常高甲基化和低甲基化两方面论述了DNA甲基化在细胞恶变发生发展过程中的改变及其影响,并阐述了DNA甲基化改变在肿瘤诊断和治疗中的作用. 相似文献
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Ehrlich M 《Biochemistry. Biokhimii?a》2005,70(5):568-575
The study of the biological role of DNA methylation in vertebrates has involved considerable controversy. Research in this area has proceeded well despite the complexity of the subject and the difficulties in establishing biological roles, some of which are summarized in this review. Now there is justifiably much more interest in DNA methylation than previously, and many more laboratories are engaged in this research. The results of numerous studies indicate that some tissue-specific differences in vertebrate DNA methylation help maintain patterns of gene expression or are involved in fine-tuning or establishing expression patterns. Therefore, vertebrate DNA methylation cannot just be assigned a role in silencing transposable elements and foreign DNA sequences, as has been suggested. DNA methylation is clearly implicated in modulating X chromosome inactivation and in establishing genetic imprinting. Also, hypermethylation of CpG-rich promoters of tumor suppressor genes in cancer has a critical role in downregulating expression of these genes and thus participating in carcinogenesis. The complex nature of DNA methylation patterns extends to carcinogenesis because global DNA hypomethylation is found in the same cancers displaying hypermethylation elsewhere in the genome. A wide variety of cancers display both DNA hypomethylation and hypermethylation, and either of these types of changes can be significantly associated with tumor progression. These findings and the independence of cancer-linked DNA hypomethylation from cancer-linked hypermethylation strongly implicate DNA hypomethylation, as well as hypermethylation, in promoting carcinogenesis. Furthermore, various DNA demethylation methodologies have been shown to increase the formation of certain types of cancers in animals, and paradoxically, DNA hypermethylation can cause carcinogenesis in other model systems. Therefore, there is a need for caution in the current use of demethylating agents as anti-cancer drugs. Nonetheless, DNA demethylation therapy clearly may be very useful in cases where better alternatives do not exist. 相似文献
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SPARC(Secreted Protein Acidic and Rich in Cysteine)蛋白是一种富含半胱氨酸(Cys)的酸性分泌蛋白,参与细胞增殖、迁移、凋亡及肿瘤血管生成等生物学过程。前期研究表明,DNA甲基化在胰腺癌中广泛地存在,其可能是胰腺癌等消化道恶性肿瘤中富含半胱氨酸的酸性分泌蛋白(SPARC)表达下调的机制之一。DNA甲基化通常导致某些抑瘤基因的高甲基化失活,SPARC基因是一种抑瘤基因,甲基化能够使其功能性的失活。而通过抑制DNA甲基化可以恢复SPARC的表达,DNA甲基化有望成为胰腺癌早期诊断的潜在生物学标记物以及治疗的靶点。因此,本文主要就SPARC的DNA甲基化在胰腺癌发生发展中的最新研究进展作一综述。 相似文献
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DNA甲基化是表观遗传学中的研究热点,与肿瘤的发生、发展、诊断、治疗、预后等相关。胃癌的发生、发展与DNA甲基化状态改变关系密切,研究胃癌相关基因DNA甲基化状态的改变有助于胃癌的早期发现、诊断、治疗及预后。因此,研究胃癌相关基因的甲基化状态具有一定的临床价值。 相似文献
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DNA甲基化是一种重要的表观遗传调控方式,可在转录前水平调节基因的表达.近年来的研究表明,动脉粥样硬化的发生发展与DNA甲基化密切相关. 对DNA甲基化模式改变在动脉粥样硬化发病的相关机制做深入研究,可能为动脉粥样硬化的诊治提供一种新的途径.本文将从基因组低甲基化、相关基因异常甲基化以及动脉粥样硬化危险因素的DNA甲基化等方面重点阐述DNA甲基化与动脉粥样硬化的关系. 相似文献
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表观遗传指不涉及DNA序列改变的,可随细胞分裂而遗传的基因组修饰作用;DNA甲基化是其中研究最多的基因表达调节机制。异常DNA甲基化可致肿瘤发生,它亦是肿瘤基因诊断和治疗的靶点。文章介绍DNA甲基化基本概念、作用效果及其可能机制;并讨论异常DNA甲基化与肿瘤的关联,包括肿瘤中DNA异常甲基化原因、异常甲基化致瘤机制及基因甲基化研究在肿瘤诊治中的应用等。 相似文献
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长期以来人们一直认为基因突变或基因缺失参与肿瘤的形成。近年来众多研究表明,表观遗传修饰对肿瘤的发展也具有非常重要的意义,它的主要表现形式有DNA甲基化、组蛋白修饰、微小RNA调节、染色质重组等。DNA异常甲基化可通过影响染色质结构、癌基因及抑癌基因表达而参与肿瘤的形成。了解目前宫颈癌中DNA甲基化的研究进展不仅有助于宫颈癌的早期诊断,对其分子靶向治疗及预后评估亦显示出良好的应用前景。 相似文献
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温耀兰张轶清 《现代生物医学进展》2014,14(20):3997-4000
长期以来人们一直认为基因突变或基因缺失参与肿瘤的形成。近年来众多研究表明,表观遗传修饰对肿瘤的发展也具有非常重要的意义,它的主要表现形式有DNA甲基化、组蛋白修饰、微小RNA调节、染色质重组等。DNA异常甲基化可通过影响染色质结构、癌基因及抑癌基因表达而参与肿瘤的形成。了解目前宫颈癌中DNA甲基化的研究进展不仅有助于宫颈癌的早期诊断,对其分子靶向治疗及预后评估亦显示出良好的应用前景。 相似文献
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Lung cancer is the most common cancer and the leading cause of cancer-related morbidity and mortality worldwide. As early symptoms of lung cancer are minimal and non-specific, many patients are diagnosed at an advanced stage. Despite a concerted effort to diagnose lung cancer early, no biomarkers that can be used for lung cancer screening and prognosis prediction have been established so far. As global DNA demethylation and gene-specific promoter DNA methylation are present in lung cancer, DNA methylation biomarkers have become a major area of research as potential alternative diagnostic methods to detect lung cancer at an early stage. This review summarizes the emerging DNA methylation changes in lung cancer tumorigenesis, focusing on biomarkers for early detection and their potential clinical applications in lung cancer. 相似文献
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细胞中DNA甲基化和microRNA(miRNA)相互影响,并共同调控着下游靶基因的表达活性,在细胞生长代谢、免疫、肿瘤和心血管疾病等生理和病理过程中发挥重要作用。首先简要介绍DNA甲基化与miRNA的概况,然后分析了miRNA调控下的DNA甲基化改变,探讨了DNA甲基化影响miRNA的表达活性变化,并归纳了miRNA与DNA甲基化之间的反馈调控关系;最后对DNA甲基化和miRNA的应用前景进行了简单探讨。研究DNA甲基化与miRNA间的网络调控关系,可为表观调控机制在理论和实践中的深入研究和应用提供参考。 相似文献
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