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胞嘧啶甲基化是DNA表观遗传修饰的主要类型之一,在维持正常细胞功能和调控基因表达中具有重要作用。重亚硫酸盐测序法(bisulfite sequencing PCR,BSP)是特异性位点DNA甲基化检测的通用方法,能明确目的片段中每一个CpG位点的甲基化状态,但此方法需要大量的单克隆测序,操作过程较繁琐、成本昂贵。因此,开发准确、高效、便捷的DNA甲基化检测技术对提升表观遗传研究效率具有重要意义。基于本课题组开发的高通量突变类型检测平台Hi-TOM (high-throughput tracking of mutations),我们进一步建立了特定位点DNA甲基化高通量检测平台Hi-Meth (high-throughput detection of DNA methylation)。DNA样品通过重亚硫酸盐处理之后,仅需一轮PCR扩增即可通过Hi-Meth平台获得特定位点DNA甲基化分析结果。利用Hi-Meth平台,对水稻不同基因启动子区域进行了DNA甲基化检测分析,并与基于BSP方法获得的结果进行了比较。结果表明,Hi-Meth策略与BSP策略检测结果基本一致。而且通过Hi-Meth平台可以更准确、便捷地获得特异性位点DNA甲基化分析结果。综上所述,Hi-Meth为特定DNA区域提供了重要的甲基化检测平台,对表观遗传研究具有重要意义。 相似文献
993.
Xinxin Wang Xin Ma Gaobo Wei Weirui Ma Zhen Zhang Xuepeng Chen Lei Gao Zhenbo Liu Yue Yuan Lizhi Yi Jun Wang Toshinobu Tokumoto Junjiu Huang Dahua Chen Jian Zhang Jiang Liu 《基因组蛋白质组与生物信息学报(英文版)》2021,19(1):48-63
DNA methylation is a prevalent epigenetic modification in vertebrates, and it has been shown to be involved the regulation of gene expression and embryo development. However, it remains unclear how DNA methylation regulates sexual development, especially in species without sex chromosomes. To determine this, we utilized zebrafish to investigate DNA methylation reprogramming during juvenile germ cell development and adult female-to-male sex transition.We reveal that primordial germ cells(PGCs) undergo significant DNA methylation reprogramming during germ cell development, and the methylome of PGCs is reset to an oocyte/ovary-like pattern at 9 days post fertilization(9 dpf). When DNA methyltransferase(DNMT) activity in juveniles was blocked after 9 dpf, the zebrafish developed into females. We also show that Tet3 is involved in PGC development. Notably, we find that DNA methylome reprogramming during adult zebrafish sex transition is similar to the reprogramming during the sex differentiation from 9 dpf PGCs to sperm. Furthermore, inhibiting DNMT activity can prevent the female-to-male sex transition, suggesting that methylation reprogramming is required for zebrafish sex transition. In summary, DNA methylation plays important roles in zebrafish germ cell development and sexual plasticity. 相似文献
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Wenna Guo Shanshan Ma Yanting Zhang Hongtao Liu Ya Li JiTian Xu Bo Yang Fangxia Guan 《Journal of cellular and molecular medicine》2022,26(2):449
Glioma is the most malignant and aggressive type of brain tumour with high heterogeneity and mortality. Although some clinicopathological factors have been identified as prognostic biomarkers, the individual variants and risk stratification in patients with lower grade glioma (LGG) have not been fully elucidated. The primary aim of this study was to identify an efficient DNA methylation combination biomarker for risk stratification and prognosis in LGG. We conducted a retrospective cohort study by analysing whole genome DNA methylation data of 646 patients with LGG from the TCGA and GEO database. Cox proportional hazard analysis was carried out to screen and construct biomarker model that predicted overall survival (OS). The Kaplan‐Meier survival curves and time‐dependent ROC were constructed to prove the efficiency of the signature. Then, another independent cohort was used to further validate the finding. A two‐CpG site DNA methylation signature was identified by multivariate Cox proportional hazard analysis. Further analysis indicated that the signature was an independent survival predictor from other clinical factors and exhibited higher predictive accuracy compared with known biomarkers. This signature was significantly correlated with immune‐checkpoint blockade, immunotherapy‐related signatures and ferroptosis regulator genes. The expression pattern and functional analysis showed that these two genes corresponding with two methylation sites contained in the model were correlated with immune infiltration level, and involved in MAPK and Rap1 signalling pathway. The signature may contribute to improve the risk stratification of patients and provide a more accurate assessment for precision medicine in the clinic. 相似文献
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《Chronobiology international》2013,30(1):103-112
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《Epigenetics》2013,8(9):976-981
During fertilization, two of the most differentiated cells in the mammalian organism, a sperm and oocyte, are combined to form a pluripotent embryo. Dynamic changes in chromatin structure allow the transition of the chromatin on these specialized cells into an embryonic configuration capable of generating every cell type. Initially, this reprogramming activity is supported by oocyte-derived factors accumulated during oogenesis as proteins and mRNAs; however, the underlying molecular mechanisms that govern it remain poorly characterized. Trimethylation of histone H3 at lysine 27 (H3K27me3) is a repressive epigenetic mark that changes dynamically during pre-implantation development in mice, bovine and pig embryos. Here we present data and hypotheses related to the potential mechanisms behind H3K27me3 remodeling during early development. We postulate that the repressive H3K27me3 mark is globally erased from the parental genomes in order to remove the gametic epigenetic program and to establish a pluripotent embryonic epigenome. We discuss information gathered in mice, pigs, and bovine, with the intent of providing a comparative analysis of the reprogramming of this epigenetic mark during early mammalian development. 相似文献
1000.
Genetics of Paracoccus denitrificans 总被引:5,自引:0,他引:5
Abstract In bioenergetic research Paracoccus denitrificans has been used as an interesting model to elucidate the mechanisms of bacterial energy transduction. Genes for protein complexes of the respiratory chain and for proteins which are involved in periplasmic electron transport have been cloned and sequenced. Conjugational gene transfer has allowed the construction of site-specific mutant strains. Complementation experiments did not only open the field for site-directed mutagenesis and investigation of the structure/function relationship of the various electron-transport proteins, but also allowed first insights into processes like oxygen-dependent gene regulation or the assembly of electron-transport complexes. Also data will be presented that characterize two restriction-/modification systems, the codon usage and the promoter sequences of Paracoccus . Details will be given about the extrachromosomal localization of a duplicated cytochrome oxidase subunit I gene on one of the Paracoccus megaplasmids. 相似文献