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Requirement for Cell-to-Cell Contact in Epstein-Barr Virus Infection of Nasopharyngeal Carcinoma Cells and Keratinocytes 总被引:3,自引:0,他引:3 
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下载免费PDF全文 Yao Chang Che-Huang Tung Yu-Tzu Huang Jean Lu Jen-Yang Chen Ching-Hwa Tsai 《Journal of virology》1999,73(10):8857-8866
Two nasopharyngeal carcinoma (NPC) cell lines and one keratinocyte cell line could be infected with Epstein-Barr virus (EBV) by cocultivation with virus-producing cells but not by cell-free virus. Using porous culture inserts to manipulate the cell-to-cell contact, we demonstrated that contact between EBV donor B cells and EBV recipient epithelial cells was required for the infection. Cell-to-cell contact not only provided a CR2-independent route of infection but also enhanced CR2-mediated infection in a synergistic manner. Activity of two EBV promoters (Cp and Wp) and expression of EBNA2 were detected in the infected population. A small proportion of the infected cells spontaneously entered an EBV lytic state, which could be induced prominently by chemical treatment. This study provides information on how EBV may infect epithelial cells in vivo, such as at the onset of NPC development. 相似文献
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病毒侵染对西伯利亚百合DNA甲基化的影响 总被引:1,自引:0,他引:1
采用基于AFLP的甲基化敏感扩增多态性(MSAP)技术,用10对引物对侵染百合花叶病毒和丛簇病毒的西伯利亚百合植株和无毒植株进行DNA甲基化水平和模式分析.结果发现,西伯利亚百合无毒植株和病毒侵染植株的平均甲基化水平分别为40.1%和31.5%;平均全甲基化率分别为13.0%和9.7%;半甲基化率分别为27.1%和21.8%.研究表明,百合DNA甲基化多以半甲基化的形式存在;病毒侵染导致百合植株DNA甲基化水平降低,且对整体甲基化水平、全甲基化水平和半甲基化水平均产生了影响;说明病毒侵染百合后植株出现的症状在一定程度上与DNA甲基化存在关联. 相似文献
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Leishmania donovani Infection Causes Distinct Epigenetic DNA Methylation Changes in Host Macrophages
Alexandra K. Marr Julia L. MacIsaac Ruiwei Jiang Adriana M. Airo Michael S. Kobor W. Robert McMaster 《PLoS pathogens》2014,10(10)
Infection of macrophages by the intracellular protozoan Leishmania leads to down-regulation of a number of macrophage innate host defense mechanisms, thereby allowing parasite survival and replication. The underlying molecular mechanisms involved remain largely unknown. In this study, we assessed epigenetic changes in macrophage DNA methylation in response to infection with L. donovani as a possible mechanism for Leishmania driven deactivation of host defense. We quantified and detected genome-wide changes of cytosine methylation status in the macrophage genome resulting from L. donovani infection. A high confidence set of 443 CpG sites was identified with changes in methylation that correlated with live L. donovani infection. These epigenetic changes affected genes that play a critical role in host defense such as the JAK/STAT signaling pathway and the MAPK signaling pathway. These results provide strong support for a new paradigm in host-pathogen responses, where upon infection the pathogen induces epigenetic changes in the host cell genome resulting in downregulation of innate immunity thereby enabling pathogen survival and replication. We therefore propose a model whereby Leishmania induced epigenetic changes result in permanent down regulation of host defense mechanisms to protect intracellular replication and survival of parasitic cells. 相似文献
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Enzymatic DNA Methylation Is an Epigenetic Control for Genetic Functions of the Cell 总被引:1,自引:0,他引:1
Vanyushin BF 《Biochemistry. Biokhimii?a》2005,70(5):488-499
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Joseph T. Joyous S Chandhini Das Swati Mysore S. Kirankumar Shah M. Jasmine 《Plant Molecular Biology Reporter》2021,39(4):773-791
Agrobacterium tumefaciens is a unique pathogen with the ability to transfer a portion of its DNA, the T-DNA, to other organisms. The role of DNA repair genes in Agrobacterium transformation remains controversial. In order to understand if the host DNA repair response and dynamics was specific to bacterial factors such as Vir proteins, T-DNA, and oncogenes, we profiled the expression and promoter methylation of various DNA repair genes. These genes belonged to nucleotide excision repair (NER), base excision repair (BER), mismatch repair (MMR), homologous recombination (HR), and non-homologous end joining (NHEJ) pathways. We infected Arabidopsis plants with different Agrobacterium strains that lacked one or more of the above components so that the influence of the respective factors could be analysed. Our results revealed that the expression and promoter methylation of most DNA repair genes was affected by Agrobacterium, and it was specific to Vir proteins, T-DNA, oncogenes, or the mere presence of bacteria. In order to determine if Agrobacterium induced any transgenerational epigenetic effect on the DNA repair gene promoters, we studied the promoter methylation in two subsequent generations of the infected plants. Promoters of at least three genes, CEN2, RAD51, and LIG4 exhibited transgenerational memory in response to different bacterial factors. We believe that this is the first report of Agrobacterium-induced transgenerational epigenetic memory of DNA repair genes in plants. In addition, we show that Agrobacterium induces short-lived DNA strand breaks in Arabidopsis cells, irrespective of the presence or absence of virulence genes and T-DNA.
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Hiroaki Okae Hatsune Chiba Hitoshi Hiura Hirotaka Hamada Akiko Sato Takafumi Utsunomiya Hiroyuki Kikuchi Hiroaki Yoshida Atsushi Tanaka Mikita Suyama Takahiro Arima 《PLoS genetics》2014,10(12)
DNA methylation is globally reprogrammed during mammalian preimplantation development, which is critical for normal development. Recent reduced representation bisulfite sequencing (RRBS) studies suggest that the methylome dynamics are essentially conserved between human and mouse early embryos. RRBS is known to cover 5–10% of all genomic CpGs, favoring those contained within CpG-rich regions. To obtain an unbiased and more complete representation of the methylome during early human development, we performed whole genome bisulfite sequencing of human gametes and blastocysts that covered>70% of all genomic CpGs. We found that the maternal genome was demethylated to a much lesser extent in human blastocysts than in mouse blastocysts, which could contribute to an increased number of imprinted differentially methylated regions in the human genome. Global demethylation of the paternal genome was confirmed, but SINE-VNTR-Alu elements and some other tandem repeat-containing regions were found to be specifically protected from this global demethylation. Furthermore, centromeric satellite repeats were hypermethylated in human oocytes but not in mouse oocytes, which might be explained by differential expression of de novo DNA methyltransferases. These data highlight both conserved and species-specific regulation of DNA methylation during early mammalian development. Our work provides further information critical for understanding the epigenetic processes underlying differentiation and pluripotency during early human development. 相似文献
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Sharada Ramasubramanyan Aditi Kanhere Kay Osborn Kirsty Flower Richard G. Jenner Alison J. Sinclair 《Journal of virology》2012,86(23):12494-12502
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Christine Couldrey Rudiger Brauning Jeremy Bracegirdle Paul Maclean Harold V. Henderson John C. McEwan 《PloS one》2014,9(7)
DNA methylation plays a central role in regulating many aspects of growth and development in mammals through regulating gene expression. The development of next generation sequencing technologies have paved the way for genome-wide, high resolution analysis of DNA methylation landscapes using methodology known as reduced representation bisulfite sequencing (RRBS). While RRBS has proven to be effective in understanding DNA methylation landscapes in humans, mice, and rats, to date, few studies have utilised this powerful method for investigating DNA methylation in agricultural animals. Here we describe the utilisation of RRBS to investigate DNA methylation in sheep Longissimus dorsi muscles. RRBS analysis of ∼1% of the genome from Longissimus dorsi muscles provided data of suitably high precision and accuracy for DNA methylation analysis, at all levels of resolution from genome-wide to individual nucleotides. Combining RRBS data with mRNAseq data allowed the sheep Longissimus dorsi muscle methylome to be compared with methylomes from other species. While some species differences were identified, many similarities were observed between DNA methylation patterns in sheep and other more commonly studied species. The RRBS data presented here highlights the complexity of epigenetic regulation of genes. However, the similarities observed across species are promising, in that knowledge gained from epigenetic studies in human and mice may be applied, with caution, to agricultural species. The ability to accurately measure DNA methylation in agricultural animals will contribute an additional layer of information to the genetic analyses currently being used to maximise production gains in these species. 相似文献
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《Current biology : CB》2002,12(1):65-68
DNA methylation has been implicated in a variety of epigenetic processes, and abnormal methylation patterns have been seen in tumors 1, 2, 3. Analysis of methylation patterns has traditionally been conducted either by using Southern analysis after cleavage with methyl-sensitive restriction endonucleases or by bisulfite sequencing [4]. However, neither method is practical for analyzing more than a few genes. Here, we describe a simple technique for genome-wide mapping of DNA methylation patterns. Fragmentation by a methyl-sensitive restriction endonuclease is followed by size fractionation and hybridization to microarrays. We demonstrate the utility of this method by characterizing methylation patterns in Arabidopsis methylation mutants. This analysis reveals that CHROMOMETHYLASE3 (CMT3) [5], which was previously shown to maintain CpXpG methylation 6, 7, preferentially methylates transposons, even when they are present as single copies within the genome. Methylation profiling has potential applications in disease research and diagnostic screening. 相似文献
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Melville B. Vaughan Ruben D. Ramirez Capri M. Andrews Woodring E. Wright Jerry W. Shay 《PloS one》2009,4(11)