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José A. Riancho 《Current Genomics》2015,16(6):405-410
Osteoarthritis (OA) is an age-related disease with poorly understood pathogenesis. Recent studies have demonstrated that miRNA might play a key role in OA initiation and development. We reviewed recent publications and elucidated the connection between miRNA and OA cartilage anabolic and catabolic signals, including four signaling pathways: TGF-β/Smads and BMPs signaling, associated with cartilage anabolism; and MAPK and NF-KB signaling, associated with cartilage catabolism. We also explored the relationships with MMP, ADAMTS and NOS (NitricOxide Synthases) families, as well as with the catabolic cytokines IL-1 and TNF-α. The potential role of miRNAs in biological processes such as cartilage degeneration, chondrocyte proliferation, and differentiation is discussed. Collective evidence indicates that miRNAs play a critical role in cartilage degeneration. These findings will aid in understanding the molecular network that governs articular cartilage homeostasis and in to elucidate the role of miRNA in the pathogenesis of OA. 相似文献
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This article discusses the advances made in epigenetic research using the model organism fission yeast Schizosaccharomyces pombe. S. pombe has been used for epigenetic research since the discovery of position effect variegation (PEV). This is a phenomenon in which a transgene inserted within heterochromatin is variably expressed, but can be stably inherited in subsequent cell generations. PEV occurs at centromeres, telomeres, ribosomal DNA (rDNA) loci, and mating-type regions of S. pombe chromosomes. Heterochromatin assembly in these regions requires enzymes that modify histones and the RNA interference (RNAi) machinery. One of the key histone-modifying enzymes is the lysine methyltransferase Clr4, which methylates histone H3 on lysine 9 (H3K9), a classic hallmark of heterochromatin. The kinetochore is assembled on specialized chromatin in which histone H3 is replaced by the variant CENP-A. Studies in fission yeast have contributed to our understanding of the establishment and maintenance of CENP-A chromatin and the epigenetic activation and inactivation of centromeres. 相似文献
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真核细胞中的染色质重塑因子种类繁多,多数以蛋白多聚体的形式存在于细胞中.不同的染色质重塑因子在特定时间定位于特定的核小体上,通过改变染色质结构,影响基因转录活性,进而确保细胞内各种生物学过程的正确运行.另外,染色质重塑因子根据所含功能结构域的不同,大致分为SWI/SNF、ISWI、CHD和INO80四大家族,不同的染色质重塑因子之间既有蛋白质结构和酶活性的相似性,各自又有其特异性.本综述的宗旨在于全面概括和总结染色质重塑因子的分类、结构特点以及其在细胞内的生物学功能,为深入研究染色质重塑因子的生物学功能,尤其是在发育和疾病发生中的作用机制提供理论基础. 相似文献
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DNA双链断裂(DNA double-strand breaks, DSBs)是威胁基因组完整性和细胞存活的最有害的DNA损伤类型。同源重组(homologous recombination,HR)和非同源末端连接(non-homologous end joining,NHEJ)是修复DNA双链断裂的两种主要途径。DSB修复涉及到损伤部位修复蛋白的募集和染色质结构的改变。在DNA双链断裂诱导下,染色质结构的动态变化在时间和空间上受到严格调控,进而对DNA双链断裂修复过程进行精细调节。特定的染色质修饰形成利于修复的染色质状态,有助于DNA双链断裂修复机器的招募、修复途径的选择和DNA损伤检查点的活化;其中修复途径的选择对于基因组稳定性至关重要。修复不当或失败可导致基因组不稳定性,甚至促进肿瘤的发生。本文综述了染色质结构和染色质修饰的动态变化在DSB修复中的重要作用。此外,文章还总结了在癌症治疗中靶向关键染色质调控因子在基因组稳定性维持、肿瘤发生发展以及潜在临床应用价值等方面的进展。 相似文献
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染色质结构在基因表达调节中起着重要的调节作用。利用甲醛固定活细胞中的DNA与蛋白质,通过免疫沉淀分离复合物的染色质免疫沉淀法是研究体内DNA和蛋白质相互作用的一种新方法,它不仅可用来研究体内反式因子与DNA的相互作用,也可以用来研究组蛋白修饰与基因表达的关系,从而分析蛋白质及其体内的DNA结合序列。目前,该方法在染色质结构研究中获得了广泛的应用。 相似文献
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真核生物基因组上的核小体呈现不均匀分布, 转录活跃区域的染色质结构相对松散且易被调节蛋白结合, 这些区域的可接近程度称为染色质可及性。随着测序技术的发展, DNase-seq、ATAC-seq、MNase-seq和NOMe-seq等组学技术的应用, 全基因组范围内染色质可及性检测变得简便且高效。该文主要介绍了真核生物染色质可及性的4种基本检测方法的技术原理, 总结了核小体定位、组蛋白修饰以及转录因子结合与染色质可及性的关系, 并综述了染色质可及性参与植物生长发育和环境响应研究进展, 以期为植物领域全基因组水平染色质可及性研究、顺式调控元件挖掘及发育和环境响应过程中基因表达调控网络的解析提供借鉴。 相似文献