CpG岛甲基化检测技术比较

CpG岛过甲基化所致基因去表达是主要的表遗传学（epigenetics）改变之一,是一种在突变,缺失,异位等序列变异之外的非序列性变化。这种表遗传异常不仅与复制延迟,染色体压缩,转录机制密切相关,而且与疾病的易感性,发生发展,预后和转归均有密切相关。很多肿瘤发生都涉及到基因组甲基化的改变。包括抑癌基因的高甲基化和原癌基因的去甲基化,因此,检测甲基化的相关技术也随着甲基化研究的深入而不断推陈出新,简便高效快捷检测方法的出现极大地提高了工作效率,关键性CpG位点概念的建立增加了实验结果的实用性。     

DNA甲基化与发育调节

甲基化修饰是脊椎动物ＤＮＡ唯一的自然修饰方式,动物基因组甲基化与基因表达密切相关,ＤＮＡ甲基化通过与反式作用因子相互作用或通过改变染色质结构而影响表达,在胚胎发育、Ｘ染色体失活、基因组印记及肿瘤发生发展中起重要作用。     

DNA甲基化与基因表达调节

DNA异常甲基化是一种表观遗传改变,常发生在启动子区的CpG岛。某些基因甲基化与基因表达密切相关,在生命过程中扮演着重要功能。一方面,DNA甲基化与高等动物的生长发育密切相关,另一方面,DNA甲基化和其他生命过程也有重要的联系。如X染色体失活、基因组印记、发育调控及细胞分化和肿瘤发生发展中起重要作用。     

DNA甲基化与基因表达调节

甲基化修饰是脊椎动物ＤＮＡ唯一的自然修饰方式,动物基因组甲基化与基因表达密切相关,ＤＮＡ甲基化通过与反式作用因子相互作用或通过改变染色质结构而影响表达,在Ｘ染危体关系,基因组印记,肿瘤发生发展中的起重要作用。     

乳腺癌相关基因的DNA甲基化

乳腺癌是女性最常见的恶性肿瘤之一。DNA甲基化作为哺乳动物细胞基因组修饰和表达调控的表观遗传学方式,在肿瘤的发生发展过程中总体水平降低,但同时又伴随某些基因的高甲基化。在乳腺癌中,多种关键基因的表达缺失都与其CpG岛高甲基化有关。     

hMLH1基因启动子CpG岛甲基化致MSI与肿瘤的关系

通过人类错配修复基因( hMLHl)启动子CpG岛甲基化与微卫星不稳定性(MSI)的分析,探讨癌症发病的机制.错配修复基因hMLH1启动子CpG岛甲基化是hMLH1基因失活的重要机制,而hMLH1的表达失活则可导致MSI的产生,促进癌症的发生.根据一系列研究得出结论,在肿瘤组织中hMLH1基因启动子CpG岛甲基化和微卫星不稳定(MSI)有显著相关性,并在癌症早期发生、发展过程中起重要作用.因此临床检测hMLH1基因启动子CpG岛甲基化及微卫星不稳定可能成为癌症鉴别诊断、评价预后、指导化疗的分子标志物之一.     

DNA甲基化与基因表达调控研究进展

表观遗传修饰是指不改变DNA序列的、可遗传的对碱基和组蛋白的化学修饰,主要包括DNA甲基化、组蛋白修饰、染色质重塑以及非编码RNA等.表观遗传修饰是更高层次的基因表达调控手段.DNA甲基化是一种重要的表观遗传修饰,参与基因表达调控、基因印记、转座子沉默、X染色体失活以及癌症发生等重要生物学过程.近年来随着研究方法和技术的进步,全基因组DNA甲基化的研究广泛兴起,多个物种全基因组甲基化图谱被破译,全局水平对DNA甲基化的研究不仅利于在宏观层面上了解DNA甲基化的特性与规律,同时也为深入分析DNA甲基化的生物学功能与调控奠定了基础.结合最新研究进展综述DNA甲基化在基因组中的分布模式、规律以及和基因转录的关系等.     

亚硫酸氢钠测序法检测水稻FIE基因CpG岛甲基化状态

建立了适用于水稻基因组特定基因甲基化检测的亚硫酸氢钠测序法,并利用此方法对FIE2A基因CpG岛部分片段的甲基化差异进行了研究。采用CTAB法提取水稻叶片和胚乳细胞的基因组DNA,经亚硫酸氢钠化学修饰后,针对已修饰的FIE基因序列设计特异引物并结合巢式PCR扩增,TA载体克隆、测序,最后对测序结果进行分析。结果表明巢式PCR能够增加特异性产物的产生,FIE基因CpG岛在对称的CG和CNG位点甲基化水平较高,而在非对称CNN位点甲基化水平最低,此外在叶片中的平均甲基化水平较高。由此表明本研究建立的亚硫酸氢钠测序法适用于水稻基因组特定基因甲基化状态的检测。     

人类全基因组范围的CpG岛的预测与分析

CpG岛的甲基化是表观遗传中基因表达调控的重要机制。虽然目前已存在几个从DNA序列判别CpG岛的标准,但如何在标准中选择合适的参数仍是研究的焦点。文章通过分析比较两种经典CpG岛判定标准与三种预测方法,提出了改进的CpG岛预测方法——CpGISeeker。应用该预测方法,结合判定标准中的三个基本参数组合出的13组组合参数,在人类全基因组范围内进行了CpG岛预测,并统计分析了CpG岛的重复序列组成以及相对于基因转录起始位点的位置分布情况。分析结果表明CpGISeeker具有更精确判定CpG岛的特性;同时还提示,随着判定标准严格性的增加,CpG岛的重复序列含量降低,与基因转录起始位点的相关性提高。将CpG岛最小尺寸为500bp、GC含量为60%、CpG出现率达到0.65的组合参数作为标准,是目前预测CpG岛的最佳方式。     

DNA 甲基化及其与胃癌相关研究进展

DNA甲基化是表观遗传学中的研究热点,与肿瘤的发生、发展、诊断、治疗、预后等相关。胃癌的发生、发展与DNA甲基化状态改变关系密切,研究胃癌相关基因DNA甲基化状态的改变有助于胃癌的早期发现、诊断、治疗及预后。因此,研究胃癌相关基因的甲基化状态具有一定的临床价值。     

Factors to preserve CpG-rich sequences in methylated CpG islands

Background

Mammalian CpG islands (CGIs) normally escape DNA methylation in all adult tissues and developmental stages. However, in our previous study we unexpectedly identified many methylated CGIs in human peripheral blood leukocytes. Methylated CpG dinucleotides convert to TpG dinucleotides through deaminization of their cytosine bases more frequently than hypomethylated CpG dinucleotides. Therefore, we wondered how methylated CGIs in germline or non-germline cells maintain their CpG-rich sequences. It is known that events such as germline hypomethylation, CpG selection, biased gene conversion (BGC), and frequent CpG fixation can contribute to the maintenance of CpG-rich sequences in methylated CGIs in germline or non-germline cells. However, it has not been investigated which of the processes maintain CpG-rich sequences of methylated CGIs in each genomic position.

Results

In this study, we comprehensively examined the contribution of the processes described above to the maintenance of CpG-rich sequences in methylated CGIs in germline and non-germline cells which were classified by genomic positions. Approximately 60–80% of CGIs with high methylation in H1 cell line (H1-HM) in all the genomic positions showed a low average CpG → TpG/CpA substitution rate. In contrast, fewer than half the numbers of CGIs with H1-HM in all the genomic positions showed a low average CpG → TpG/CpA substitution rate and low levels of methylation in sperm cells (SPM-LM). Furthermore, a small fraction of CGIs with a low average CpG → TpG/CpA substitution rate and high levels of methylation in sperm cells (SPM-HM) showed CpG selection.On the other hand, independent of the positions in genes, most CGIs with SPM-HM showed a slightly higher average TpG/CpA → CpG substitution rate compared with those with SPM-LM.

Conclusions

Relatively high numbers (approximately 60–80%) of CGIs with H1-HM in all the genomic positions preserve their CpG-rich sequences by a low CpG → TpG/CpA substitution rate caused mainly by their SPM-LM, and for those with SPM-HM partly by CpG selection and TpG/CpA → CpG fixation. BGC has little contribution to the maintenance of CpG-rich sequences of CGIs with SPM-HM which were classified by genomic positions.

Electronic supplementary material

The online version of this article (doi:10.1186/s12864-015-1286-x) contains supplementary material, which is available to authorized users.     

肝细胞癌中FHIT基因启动子甲基化状态分析及其与临床病理特征之间的关系研究

目的:分析肝细胞癌组织中FHIT基因启动子甲基化状态及其与FHIT基因表达和肝细胞癌临床病理特征的关系。方法:运用甲基化特异性PCR(MSP)方法分析肝细胞癌组织和癌旁正常肝脏组织中FHIT基因启动子甲基化状况;应用RT-PCT和Western免疫印迹方法检测FHIT基因mRNA和蛋白的表达情况;统计学分析FHIT基因启动子甲基化与肝细胞癌临床病理特征的关系。结果:MSP分析结果表明肝细胞癌组织中FHIT基因甲基化率(60.8%)显著高于癌旁正常组织中FHIT基因甲基化(16.2%;x2=31.071,P=0.000)。同时我们还发现:发生完全或者部分甲基化的肝细胞癌组织或者癌旁正常肝组织中FHIT基因mRNA和蛋白表达水平显著降低。FHIT基因启动子甲基化和肝细胞癌患者的临床分期和肝外转移情况密切相关(P=0.006和0.049),而与其他临床病理特征无相关性(P>0.05)。结论:FHIT基因甲基化是导致FHIT基因在肝细胞癌中失活的一个重要因素,与肝细胞癌的发生密切相关,有望成为肝细胞癌早期诊断的分子检测标志物和分子治疗新靶点。     

CpG island methylation pattern in different human tissues and its correlation with gene expression

The study on DNA methylation pattern in different human tissues attracts increasing interest nowadays, but a systematic analysis of CpG island methylation pattern between both somatic tissues and gametocyte is still lacking. In this work, we analyzed the CpG island methylation data of sperm and other 11 somatic tissues from Human Epigenome Project, and found that the CpG island methylation profiles are highly correlated between somatic tissues, while the methylation profile in sperm is quite distinct. Furthermore, we observed that in the six tissues investigated, there is no obvious correlation between the methylation level of promoter CpG islands and corresponding gene expression across different tissues.     

山羊克隆胎儿不同组织中H19基因CpG岛甲基化模式及表达量检测

表观重编程异常是核移植胚胎发育异常的重要原因。为了研究克隆山羊胎儿不同组织中H19基因CpG岛甲基化水平和相对表达量,本实验运用亚硫酸盐法和荧光实时定量PCR法分别检测了死亡克隆山羊胎儿和同期普通山羊胎儿(对照组)肝脏、胎盘、肾脏、肺脏和心脏组织中H19基因CpG岛甲基化水平和mRNA的相对表达量。结果表明,克隆山羊胎儿胎盘组织中H19基因第5个CpG岛的甲基化水平显著高于对照组(70%vs49.41%,P0.05),H19基因相对表达量显著低于对照组(883.3vs1264.5,P0.05);肺脏组织甲基化水平显著低于对照组(63.53%vs88.24%,P0.05),相对表达量显著高于对照组(1003.4vs515.5,P0.05);其他各组差异不显著(P0.05)。结果说明,H19基因在克隆山羊胎儿部分组织中DNA甲基化重编程异常,而且这种异常影响H19基因的正常表达,这也可能是导致克隆动物死亡的重要因素之一。     

DNA甲基化及其与胃癌相关研究进展

DNA甲基化是表观遗传学中的研究热点,与肿瘤的发生、发展、诊断、治疗、预后等相关。胃癌的发生、发展与DNA甲基化状态改变关系密切,研究胃癌相关基因DNA甲基化状态的改变有助于胃癌的早期发现、诊断、治疗及预后。因此,研究胃癌相关基因的甲基化状态具有一定的临床价值。     

Histone methylation marks play important roles in predicting the methylation status of CpG islands

The methylation status of CpG islands is highly correlated with gene expression. Current methods for computational prediction of DNA methylation only utilize DNA sequence features. In this study, besides 35 DNA sequence features, we added four histone methylation marks to predict the methylation status of CpG islands, and improved the accuracy to 89.94%. Also we applied our model to predict the methylation pattern of all the CpG islands in the human genome, and the results are consistent with the previous reports. Our results imply the important roles of histone methylation marks in affecting the methylation status of CpG islands. H3K4me enriched in the methylation-resistant CpG islands could disrupt the contacts between nucleosomes, unravel chromatin and make DNA sequences accessible. And the established open environment may be a prerequisite for or a consequence of the function implementation of zinc finger proteins that could protect CpG islands from DNA methylation.