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Chromatin techniques for plant cells   总被引:9,自引:0,他引:9  
A large number of recent studies have demonstrated that many important aspects of plant development are regulated by heritable changes in gene expression that do not involve changes in DNA sequence. Rather, these regulatory mechanisms involve modifications of chromatin structure that affect the accessibility of target genes to regulatory factors that can control their expression. The central component of chromatin is the nucleosome, containing the highly conserved histone proteins that are known to be subject to a wide range of post-translational modifications, which act as recognition codes for the binding of chromatin-associated factors. In addition to these histone modifications, DNA methylation can also have a dramatic influence on gene expression. To accommodate the burgeoning interest of the plant science community in the epigenetic control of plant development, a series of methods used routinely in our laboratories have been compiled that can facilitate the characterization of putative chromatin-binding factors at the biochemical, molecular and cellular levels.  相似文献   

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染色质可及性(chromatin accessibility)作为一种衡量染色质结合因子与染色质DNA结合能力高低的染色质属性,是评价染色质结构稳态的重要指标之一,在多种细胞核进程中扮演重要角色,包括基因转录调控以及DNA损伤修复等。该属性的异常调控与多种疾病的发生发展密切相关,包括肿瘤以及神经退行性疾病等。对于该属性探究已经成为生命科学与疾病领域的热点。伴随越来越多的新技术应运而生,例如染色质构象捕获技术、高通量测序技术以及两种技术的结合等。随着技术的进步,多种参与调控染色质可及性的因素被发现和总结,包括核小体占位、组蛋白修饰以及非编码RNA等。多项大规模的染色质组学数据绘制了多种疾病的染色质可及性图谱,为揭示疾病的发生发展与染色质可及性之间的关系提供了数据支持。同时,随着单细胞染色质可及性测序技术的发展,实现了对细胞类型染色质层面的划分,弥补了单纯依赖基因表达划分细胞类型的不足。本文将从染色质的组成与可及性、影响染色质可及性的因素、染色质可及性的检测方法,以及染色质可及性与癌症的关系等方面简要阐述染色质可及性的研究进展。  相似文献   

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学习记忆的形成依赖于转录机制.近年研究发现,染色质修饰在基因表达调节中起重要作用.组蛋白乙酰化和去乙酰化是染色质修饰中最为常见调节方式,参与基因的转录调控.乙酰化可以激活转录,促进记忆的形成.组蛋白去乙酰化酶抑制剂可以增强突触可塑性,改善记忆损伤.因此,对于染色质修饰的深入研究,不仅有助于阐明记忆形成的分子机制,而且对记忆相关疾病的治疗以及新药物研发也具有重要指导意义.本文主要就组蛋白乙酰转移酶调节基因转录以及组蛋白去乙酰化酶抑制剂促进记忆形成的作用机理进行综述.  相似文献   

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Many phenotypic changes of eukaryotic cells due to changes in gene expression depend on alterations in chromatin structure. Processes involved in the alteration of chromatin are diverse and include post-translational modifications of histone proteins, incorporation of specific histone variants, methylation of DNA and ATP-dependent chromatin remodeling. Interconnected with these processes are the localization of chromatin domains within the nuclear architecture and the appearance of various classes of noncoding regulatory RNAs. Recent experiments underscore the role of these processes in influencing diverse biological functions. However, the evidence to date implies the importance of an interplay of all these chromatin-changing functions, generating an epigenetic regulatory circuit that is still not well understood.  相似文献   

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李占杰  秦源 《植物学报》2021,56(6):664-675
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   

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染色质结构和基因表达调节是当前国际前沿研究的热点.染色质免疫沉淀法是研究染色质结构的首选方法,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.综合国外相关文献,建立了一种简便的染色质免疫沉淀法,并通过对诱导前后的MEL细胞中β-珠蛋白基因簇组蛋白H3乙酰化的研究,证实了其可操作性.结果表明:高敏位点HS2和活跃基因βmaj的启动子区域存在较高的组蛋白乙酰化水平,且诱导前后变化显著,而不活跃基因Ey的启动子区域则几乎检测不到组蛋白的乙酰化,且诱导前后无明显变化.这一结果与以前的报道相吻合.  相似文献   

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Summary Highly purified centromeric heterochromatin was isolated from mouse liver nuclei and the pattern of core histone variants was analyzed. In comparison with total chromatin, the centromeric heterochromatin of young animals was characterized by (1) enrichment in the replication-dependent variants H2A1, H2B2 and H32, (2) reduced amount of the minor variant H2Az and (3) absence of ubiquitinated molecules of H2A. This specific variant pattern changed upon ageing as a result of accumulation of replacement variants so that in adult animals both chromatin preparations exhibited similar pattern for H2A and H2B, while the difference in the profile of H3 variants was preserved.  相似文献   

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组蛋白变体及组蛋白替换   总被引:2,自引:0,他引:2  
吴南  桂建芳 《遗传》2006,28(4):493-500
组蛋白作为核小体的基本组分,是染色质的结构和功能必需的。对于不同状态的染色质,核小体中会组装入相应的组蛋白变体,并且各种组蛋白变体的尾部也能发生多种修饰。这些变体通过改变核小体的空间构象和稳定性,决定基因转录的激活或沉默,DNA的修复,染色体的异染色化等。在组蛋白替换过程中,组蛋白变体是通过相应的染色质重构复合物组装入核小体,不同的变体有着不同的组装途径。对组蛋白变体的研究是近年来表观遗传学新的研究热点,也是对“组蛋白密码”的新的诠释。并且,组蛋白替换揭示了DNA-组蛋白相互作用变化的一种新的机制。

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High-resolution scanning electron microscopy (SEM) has previously been used to study intracellular detail, including chromatin. It has, however, been commonly carried out either on cellular subfractions or following extraction methods to visualize detail. In the work presented here, intracellular detail of neurons of the dorsal root was visualized in situ by viewing freeze-fracture faces obtained after hypotonic expansion. This procedure permits the detailed resolution, by SEM, of juxtanuclear and intranuclear detail to a degree impossible without hypotonic dispersal. In agreement with work previously reported, nuclear chromatin of these interphase cells presents largely as 30-nm fibers, with a next higher hierarchical structure imparted by swelling in magnesium chloride. Detailed analyses showed that particles as small as 10-nm nucleosomes comprising the 30-nm chromatin fiber could be resolved, with "end-on" views of such fibers showing 5 nucleosomes per helical turn of the fiber. Chromatin fibers positioned subjacent to nuclear pores, or associated with "nuclear spaces" communicating with nuclear pores, were frequently found to be resolved as clusters, in an apparently more decondensed conformation, rather than tightly coiled into the 30-nm fiber. In addition, details of the nuclear envelope, including nuclear pores and perinuclear filaments as well as membranes of the endoplasmic reticulum, decorated with ribosomes, were clearly resolved.  相似文献   

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Wei GH  Liu DP  Liang CC 《Cell research》2005,15(4):292-300
The eukaryotic genome is organized into functionally and structurally distinct domains, representing regulatory units for gene expression and chromosome behavior. DNA sequences that mark the border between adjacent domains are the insulators or boundary elements, which are required in maintenance of the function of different domains. Some insulators need others enable to play insulation activity. Chromatin domains are defined by distinct sets of post-translationally modified histones. Recent studies show that these histone modifications are also involved in establishment of sharp chromatin boundaries in order to prevent the spreading of distinct domains. Additionally, in some loci, the high-order chromatin structures for long-range looping interactions also have boundary activities, suggesting a correlation between insulators and chromatin loop domains. In this review, we will discuss recent progress in the field of chromatin domain boundaries.  相似文献   

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