Global analysis of DNA methylation in hepatocellular carcinoma via a whole-genome bisulfite sequencing approach

Alterations in DNA methylation patterns are considered early events in hepatocellular carcinoma (HCC). However, their mechanism and significance remain to be elucidated. We studied the genome-wide DNA methylation landscape of HCC by applying whole-genome bisulfite sequencing (WGBS) techonlogy. Overall, HCC exhibits a genome-wide hypomethylation pattern. After further annotation, we obtained 590 differentially hypermethylated genes (hyper-DMGs) and 977 differentially hypomethylated genes (hypo-DMGs) from three groups. Hyper-DMGs were mainly involved in ascorbate and alternate metabolism pathways, while hypo-DMGs were mainly involved in focal adhesion. By integrating the DMGs with HCC-related differentially expressed genes (DEGs) and DMGs from the TCGA database, we constructed prognostic model based on thirteen aberrantly methylated DEGs, and verified our prognostic model in GSE14520 dataset. This study compares the patterns of global epigenomic DNA methylation during the development of HCC, focusing on the role of DNA methylation in the early occurrence and development of HCC, providing a direction for future research on its epigenetic mechanism.     

大豆雄性不育系与其保持系不同器官蛋白质比较

采用双向凝胶电泳技术对大豆质核互作雄性不育系NJCMS2A及其保持系NJCMS2B的种子、叶片和花药等不同器官蛋白质进行比较分析.结果显示,不育系NJCMS2A与其保持系NJCMS2B的花药2-DE图谱间存在较多差异表达蛋白点,种子2-DE图谱间仅有少量差异表达蛋白点,而叶片2-DE图谱间基本没有差异表达蛋白点.结果表明,不育基因表达具有时空性和器官特异性,与育性有关的蛋白主要在花药中表达.     

DNA methylation affected by male sterile cytoplasm in rice (Oryza sativa L.)

Male sterile cytoplasm plays an important role in hybrid rice, and cytoplasmic effects are sufficiently documented. However, no reports are available on DNA methylation affected by male sterile cytoplasm in hybrid rice. We used a methylation-sensitive amplified polymorphism technique to characterize DNA methylation in four male sterile cytoplasms that are widely commercialized in China. In total, 12 pairs of selective primers in combinations of EcoRI and MspI/HpaII amplified 350 bands among four male sterile (A) lines and the corresponding maintainer (B) lines. Sites b1 and b3 were fully methylated only in all the B lines, while b2 was fully methylated only in all the A lines. These results implied a relationship of DNA methylation at these sites specifically with male sterile cytoplasms, as well as male sterility, since the only difference between the A and B lines was the cytoplasm. The DNA methylation was markedly affected by male sterile cytoplasms. WA-type and Yinshui-type cytoplasms affected the methylation to a much greater degree than G-type and D-type cytoplasms, as indicated by the number and degree of methylated sites, ratio of methylated sites, number of fully methylated sites, ratio of fully methylated sites, and polymorphism between A and B lines for these cytoplasms. The genetic distance between the cytoplasm and nucleus for the WA-type is much greater than for G- and D-types because the former is between wild and cultivated species and the latter is within indica subspecies between African and Asian cultivars. This difference in genetic distance may be responsible for the variation in methylation which we observed.     

The underlying pathophysiology association between the Type 2-diabetic and hepatocellular carcinoma

Type 2-diabetic (T2D) disease has been reported to increase the incidence of liver cancer, however, the underlying pathophysiology is still not fully understood. Here, we aimed to reveal the underlying pathophysiology association between the T2D and hepatocellular carcinoma (HCC) and, therefore, to find the possible therapeutic targets in the occurrence and development of HCC. The methylation microarray data of T2D and HCC were extracted from the Gene Expression Omnibus and The Cancer Genome Atlas. A total of 504 differentially methylated genes (DMGs) between T2D samples and the controls were identified, whereas 6269 DMGs were identified between HCC samples and the control groups. There were 336 DMGs coexisting in diabetes and HCC, among which 86 genes were comethylated genes. These genes were mostly enriched in pathways as glycosaminoglycan biosynthesis, fatty acid, and metabolic pathway as glycosaminoglycan degradation and thiamine, fructose and mannose. There were 250 DMGs that had differential methylation direction between T2D DMGs and HCC DMGs, and these genes were enriched in the Sphingolipid metabolism pathway and immune pathways through natural killer cell-mediated cytotoxicity and ak-STAT signaling pathway. Eight genes were found related to the occurrence and development of diabetes and HCC. Moreover, the result of protein-protein interaction network showed that CDKN1A gene was related to the prognosis of HCC. In summary, eight genes were found to be associated with the development of HCC and CDKN1A may serve as the potential prognostic gene for HCC.     

Genome-wide evidence for local DNA methylation spreading from small RNA-targeted sequences in Arabidopsis

Transposable elements (TEs) and their relics play major roles in genome evolution. However, mobilization of TEs is usually deleterious and strongly repressed. In plants and mammals, this repression is typically associated with DNA methylation, but the relationship between this epigenetic mark and TE sequences has not been investigated systematically. Here, we present an improved annotation of TE sequences and use it to analyze genome-wide DNA methylation maps obtained at single-nucleotide resolution in Arabidopsis. We show that although the majority of TE sequences are methylated, ∼26% are not. Moreover, a significant fraction of TE sequences densely methylated at CG, CHG and CHH sites (where H = A, T or C) have no or few matching small interfering RNA (siRNAs) and are therefore unlikely to be targeted by the RNA-directed DNA methylation (RdDM) machinery. We provide evidence that these TE sequences acquire DNA methylation through spreading from adjacent siRNA-targeted regions. Further, we show that although both methylated and unmethylated TE sequences located in euchromatin tend to be more abundant closer to genes, this trend is least pronounced for methylated, siRNA-targeted TE sequences located 5′ to genes. Based on these and other findings, we propose that spreading of DNA methylation through promoter regions explains at least in part the negative impact of siRNA-targeted TE sequences on neighboring gene expression.     

Cytoplasmic effects on DNA methylation between male sterile lines and the maintainer in wheat (Triticum aestivum L.)

Male sterile cytoplasm plays an important role in hybrid wheat, and three-line system including male sterile (A line), its maintainer (B line) and restoring (R line) has played a major role in wheat hybrid production. It is well known that DNA methylation plays an important role in gene expression regulation during biological development in wheat. However, no reports are available on DNA methylation affected by different male sterile cytoplasms in hybrid wheat. We employed a methylation-sensitive amplified polymorphism technique to characterize nuclear DNA methylation in three male sterile cytoplasms. A and B lines share the same nucleus, but have different cytoplasms which is male sterile for the A and fertile for the B. The results revealed a relationship of DNA methylation at these sites specifically with male sterile cytoplasms, as well as male sterility, since the only difference between the A lines and B line was the cytoplasm. The DNA methylation was markedly affected by male sterile cytoplasms. K-type cytoplasm affected the methylation to a much greater degree than T-type and S-type cytoplasms, as indicated by the ratio of methylated sites, ratio of fully methylated sites, and polymorphism between A lines and B line for these cytoplasms. The genetic distance between the cytoplasm and nucleus for the K-type is much greater than for the T- and S-types because the former is between Aegilops genus and Triticum genus and the latter is within Triticum genus between Triticum spelta and Triticum timopheevii species. Thus, this difference in genetic distance may be responsible for the variation in methylation that we observed.     

玉米新选细胞质雄性不育系小孢子发育的细胞学观察及DNA甲基化分析

细胞质雄性不育在高等植物中普遍存在,是杂种优势利用的重要工具,为推动植物杂种优势的利用发挥了重要作用。文章以本课题组前期新选的玉米细胞质雄性不育系A1、A2及保持系18(红)为材料,利用石蜡切片技术对不育材料小孢子发育过程进行细胞学观察,采用高效液相色谱法(HPLC)对不同发育时期的叶片及不同发育时期的雄穗DNA进行甲基化分析,从细胞学和表观遗传学角度了解不育系A1、A2的败育机制。结果表明：不育材料A1、A2小孢子发生败育的主要时期为四分体时期至单核小孢子中期。在不育系A2中还存在另一种败育方式,即在花粉母细胞时期表现出败育特征。甲基化分析结果表明,保持系18(红)的叶片DNA甲基化水平从苗期到拔节期迅速上升,而不育系A1、A2叶片DNA甲基化水平基本保持不变;保持系雄穗DNA甲基化水平表现为从花粉母细胞时期到双核期逐渐升高,而不育材料A1、A2从花粉母细胞时期到双核期的雄穗DNA甲基化水平表现为先上升后下降的趋势,达到最高峰的时期均出现在小孢子发育的四分体时期。从小孢子发育的细胞学观察结果可以发现,小孢子败育的主要时期往往具有较高的甲基化水平,推测DNA甲基化水平变化可能与不育材料A1、A2的花粉败育有关。     

High-resolution mapping of DNA methylation in human genome using oligonucleotide tiling array

DNA methylation is an epigenetic mark crucial in regulation of gene expression. Aberrant DNA methylation causes silencing of tumor suppressor genes and promotes chromosomal instability in human cancers. Most of previous studies for DNA methylation have focused on limited genomic regions, such as selected genes or promoter CpG islands (CGIs) containing recognition sites of methylation-sensitive restriction enzymes. Here, we describe a method for high-resolution analysis of DNA methylation using oligonucleotide tiling arrays. The input material is methylated DNA immunoprecipitated with anti-methylcytosine antibodies. We examined the ENCODE region (∼1% of human genome) in three human colorectal cancer cell lines and identified over 700 candidate methylated sites (CMS), where 24 of 25 CMS selected randomly were subsequently verified by bisulfite sequencing. CMS were enriched in the 5′ regulatory regions and the 3′ regions of genes. We also compared DNA methylation patterns with histone H3 and H4 acetylation patterns in the HOXA cluster region. Our analysis revealed no acetylated histones in the hypermethylated region, demonstrating reciprocal relationship between DNA methylation and histone H3 and H4 acetylation. Our method recognizes DNA methylation with little bias by genomic location and, therefore, is useful for comprehensive high-resolution analysis of DNA methylation providing new findings in the epigenomics. Electronic supplementary material Supplementary material is available in the online version of this article at and is accessible for authorized users.     

Variation and Patterns of DNA Methylation in Maize C-type CMS Lines and their Maintainers

DNA methylation plays an important role in gene expression regulation during biological development in plants. This study adopted methylation sensitive amplification polymorphism (MSAP) to compare the levels and patterns of cytosine methylation at CCGG sites in maize genome. The tissues assayed included seedlings and tassels of C-type cytoplasmic male sterility (C Huang Zao Si, C 48-2) and its maintainer lines. For each tissue, both C Huang Zao Si and C 48-2 were more methylated than their corresponding maintainers not only on MSAP ratios, but also on the full methylation levels. In different nuclear backgrounds, the two tissues were more methylated in Huang Zao Si than in 48-2, although the two lines shared the same cytoplasm. Full methylation of internal cytosine was the dominant type in the maize genome. In addition, four different classes of methylation patterns were identified in tassels between C-CMS lines and their maintainer lines; these were specific-methylation, demethylation, hypo-methylation, and hyper-methylation. The results obtained demonstrated the power of the MSAP technique for large-scale DNA methylation detection in the maize genome, and suggested the possible association between DNA methylation polymorphism and C-type cytoplasmic male sterility.     

Deep re-sequencing of a widely used maintainer line of hybrid rice for discovery of DNA polymorphisms and evaluation of genetic diversity

Genetic diversity within parental lines of hybrid rice is the foundation of heterosis utilization and yield improvement. Previous studies have suggested that genetic diversity was narrow in cytoplasmic male sterile (CMS/A line) and restorer lines (R line) for Three-line hybrid rice. However, the genetic diversity within maintainer lines (B line), especially at a genome-wide scale, remains largely unknown. In the present study, we performed deep re-sequencing of the elite maintainer line V20B (Oryza sativa L. ssp. indica). We then compared the V20B sequence with the 93-11 (Oryza sativa L. ssp. indica) genome sequence. 112.1 × 106 paired-end reads (PE reads) were generated with approximately 30-fold sequencing depth. The V20B PE reads uniquely covered 87.6 % of the 93-11 genome sequence. Overall, a total of 660,778 single-nucleotide polymorphism (SNPs) and 266,301 insertions and deletions (InDels) were identified, yielding an average of 2.1 SNPs/kb and 0.8 InDels/kb. Genome-wide distribution of the SNPs and InDels was non-random, and variation-rich and variation-poor regions were identified in all chromosomes. A total of 20,562 non-synonymous SNPs spanning 8,854 genes were annotated. Our results identified DNA polymorphisms at the genome-wide scale and uncovered the high level of genetic diversity between V20B and 93-11. Our results proved that next-generation sequencing technologies can be powerful tools to study genome-wide DNA polymorphisms, to query genetic diversity, and to enable molecular improvement efforts with Three-line hybrid rice. Further, our results also indicated that 93-11 could be used as core germplasm for the improvement of wild-abortive CMS lines and the maintainer lines.     

小麦Ven型胞质雄性不育植株与可育植株花药蛋白质组差异研究

普通小麦具有偏凸山羊草（Ae. ventricosa）细胞质的不育系为Ven型胞质雄性不育系（Ven cytoplasmic male sterility, Ven CMS）,是粘类小麦CMS的一种类型。该研究对小麦Ven型雄性不育系冀5418A及其同型保持系冀5419B的单核期和二核期的花药进行差异蛋白质组学分析,探讨小麦质核互作雄性不育的分子机制。通过双向电泳分离花药蛋白,基质辅助激光解析飞行时间串联质谱（MALDI TOF TOF）对差异表达蛋白进行质谱鉴定,利用生物信息学进行差异表达蛋白鉴定和功能注释分析。结果表明,在分子量19.0～100.0 kD、等电点4～7线性范围内,共检测到约2 000个蛋白点。2个时期共检测到差异蛋白98个,其中两个时期差异表达变化一致的蛋白点56个;数据库搜索获得鉴定的蛋白点41个,其中18个蛋白的表达量在冀5418A 中显著下调,23个在冀5418B 中明显下调。在不育系和可育系中均有参与能量代谢、活性氧代谢、核糖体合成、花粉物质合成的差异蛋白。GO分析预测差异蛋白生物学过程多涉及电子传递和能量代谢、核糖体代谢、活性氧代谢等,细胞组成主要是在膜区域和线粒体,分子功能主要是DNA和RNA结合功能和水解酶等。KEGG分析表明,较多蛋白分布于碳水化合物代谢、活性氧代谢和蛋白组装和折叠途径。推测不育系冀5418A 的雄性不育性除了涉及能量代谢、活性氧清除过程,核糖体蛋白、伴侣蛋白等也有重要作用,雄性不育性可能还与蛋白质加工、物质合成过程的紊乱有关。     

Identification of key genes and pathways associated with different immune statuses of hepatitis B virus infection

We aimed to identify key genes and pathways associated with different immune statuses of hepatitis B virus (HBV) infection. The gene expression and DNA methylation profiles were analysed in different immune statuses of HBV infection. Differentially expressed genes (DEGs) and differentially methylated genes (DMGs) were identified, followed by their functional and integrative analyses. The differential expression of IgG Fc receptors (FcγRs) in chronic HBV‐infected patients and immune cells during different stages of HBV infection was investigated. Toll‐like receptor (TLR) signalling pathway (including TLR6) and leucocyte transendothelial migration pathway (including integrin subunit beta 1) were enriched during acute infection. Key DEGs, such as FcγR Ib and FcγR Ia, and interferon‐alpha inducible protein 27 showed correlation with alanine aminotransferase levels, and they were differentially expressed between acute and immune‐tolerant phases and between immune‐tolerant and immune‐clearance phases. The integrative analysis of DNA methylation profile showed that lowly methylated and highly expressed genes, including cytotoxic T lymphocyte‐associated protein 4 and mitogen‐activated protein kinase 3 were enriched in T cell receptor signalling pathway during acute infection. Highly methylated and lowly expressed genes, such as Ras association domain family member 1 and cyclin‐dependent kinase inhibitor 2A were identified in chronic infection. Furthermore, differentially expressed FcγR Ia, FcγR IIa and FcγR IIb, CD3^?CD56⁺CD16⁺ natural killer cells and CD14^highCD16⁺ monocytes were identified between immune‐tolerant and immune‐clearance phases by experimental validation. The above genes and pathways may be used to distinguish different immune statuses of HBV infection.