“英拜為您實驗加速” 技術服務網(wǎng)址:http://letsgrowganja.com/ 服務熱線:400-696-6643、 18019265738 郵箱:daihp@yingbio.com 、 huizhang1228@foxmail.com Homeobox (HOX) Genes EpiTect Methyl qPCR Array 同源異形盒(HOX)基因甲基化PCR芯片 The Human Homeobox (HOX) Genes EpiTect Methyl II Signature PCR Array profiles the methylation status of 22 gene promoters involved in multicellular organism development. HOX genes encode a group of homeodomain-containing transcription factors, initially described as controlling segmental patterning during development. Aberrant expression of HOX genes has been also been observed in various types of cancer. Although these HOX genes have been grouped according to their established roles in multicellular organism development, their true function in cellular systems is still waiting to be discovered. Profiling cell or tissue samples with these arrays may help correlate CpG island methylation status with biological phenotypes. The results may also provide insights into the molecular mechanisms and biological pathways behind differentiation and development or oncogenesis. With a simple restriction enzyme digestion and real-time PCR, research studies can analyze the methylation status of 22 different homeobox genes with this DNA methylation PCR array. Both 96-well and 384-well ( 4 X 96 ) formats are available. The EpiTect Methyl II PCR Arrays use the MethylScreen? Technology provided under license from Orion Genomics, LLC 同源異形盒(HOX)基因甲基化PCR芯片研究文獻中已經(jīng)報道的態(tài)參與多細胞生物的發(fā)展的22個基因的啟動子甲基化狀態(tài)。HOX基因編碼一組包含同源結(jié)構(gòu)域的轉(zhuǎn)錄因子,最初被描述為發(fā)育過程控制節(jié)段性模式。HOX基因的異常表達一直在各種類型的癌癥中觀察到。雖然這些HOX基因已經(jīng)被根據(jù)它們在多細胞生物發(fā)育中扮演的角色進行分類,它們在細胞系統(tǒng)中的真實功能仍待被發(fā)掘。利用這些芯片分析細胞或新鮮組織基因組DNA樣本有助于關聯(lián)CpG島甲基化狀態(tài)與生物表型。結(jié)果還可以提供洞察分化和發(fā)育或腫瘤形成背后的分子機制和生物學通路。利用這個芯片,通過簡單的限制性內(nèi)切酶消化和實時定量PCR,就可以研究分析22個不同同源異型盒基因的啟動子甲基化狀態(tài)。 包括96-孔板和384-孔板( 4 X 96 )。 Organ Morphogenesis: HOXA11, HOXA13. Body Pattern Formation: HOXA11, HOXA2, HOXA4, HOXA5, HOXA6, HOXB1, HOXB5, HOXB6, HOXD10, HOXD3. Skeletal Development: HOXA11, HOXA13, HOXA2, HOXB6, HOXD10, HOXD13. Other HOX Genes Involved In Multicellular Organismal Development: HOXA1, HOXA7, HOXA9, HOXB13, HOXB2, HOXB4, HOXB7, HOXB8, HOXC8, HOXD11 How it Works The EpiTect Methyl II PCR Array System relies on the differential cleavage of target sequences by two different restriction endonucleases whose activities require either the presence or absence of methylated cytosines in their respective recognition sequences. As real-time PCR quantifies the relative amount of DNA remaining after each enzyme digestion, the methylation status of individual genes and the methylation profile across a gene panel are reliably and easily calculated. The high yield of DNA from the restriction digests and PCR amplification allow the analysis of smaller, more heterogeneous samples. Download User Manual Tour the FREE Data Analysis Template What It Offers:
You can easily perform an EpiTect Methyl II experiment in your own laboratory using any 96-well or 384-well real-time PCR instrument that you have access to. Array Layout: For more detail on PCR Array layout, see the "Gene Table" link for the individual array products. Data Interpretation In the figure above, each horizontal bar represents the targeted region of a gene from one genome. Biological samples usually contain many genomes derived from many cell types. For simplicity, five such genomes are depicted here. Light and dark circles represent unmethylated and methylated CpG sites, respectively. Performance Data To verify the reliability of the EpiTect Methyl II PCR Array System, its results and sensitivity were compared with bisulfite Sanger sequencing, the gold standard in DNA methylation analysis Same Results as Bisulfite Sanger Sequencing To validate the reliability of the system, EpiTect Methyl II PCR system results (EpiTect Methyl II PCR) were compared with bisulfite Sanger sequencing, the gold standard in DNA methylation analysis. The methylation status of the cadherin 13 (CDH13) gene promoter was analyzed using either bisulfite sequencing or EpiTect Methyl II PCR Assays in two different cell lines. EpiTect Methyl II PCR Assays revealed that 100% of total input DNA had methylated CDH13 gene promoter in MB231 cell lines whereas 100% of input DNA from HeLa cell line had unmethylated CDH13 promoter. Importantly, EpiTect Methyl II PCR Assays yielded results similar to Bisulfite Sequencing. Same Sensitivity as Bisulfite Sanger Sequencing
Primary tumors are typically very heterogeneous, containing a mixture of both cancerous and noncancerous cells. Therefore, reliable tumor characterization requires detecting smaller amounts of methylated DNA diluted in an unmethylated background. To test the sensitivity of EpiTect Methyl II PCR system to detect methylated DNA diluted in an unmethylated background, SKBR3 breast cancer cell line and normal blood genomic DNA (encoding methylated and unmethylated HIC1, respectively) were mixed in different ratios. EpiTect Methyl II Human HIC1 PCR Primers Assays were used to detect the methylation status of the mixed sample. Result show that the percentage of methylated HIC1 relative to total promoter DNA in each mixture was detectable even down to six percent of the total DNA sample showing the high sensitivity of EpiTect Methyl II PCR system. Application Data Gene promoter methylation is the most common epigenetic mechanism silencing tumor suppressor genes during oncogenesis. Almost all cancer-related signaling pathways are affected by methylation, and the number of genes affected in each major type of cancer is still rapidly growing. However, even the most relevant genes have not yet been correlated to individual cancer types or subtypes in order to better define biological pathways and mechanisms leading to oncogenesis and in order to properly develop DNA methylation biomarkers. The EpiTect Methyl II PCR System provides an ideal reagent for such studies, without bisulfite conversion of DNA. The following experiments demonstrate that EpiTect Methyl II PCR Arrays can both verify known and discover new DNA methylation cancer biomarkers EpiTect Methyl II PCR Arrays are used to screen Breast Cancer Gene Methylation Status in Breast Cancer Cell Lines.The heat map compares the methylation status of 22 genes in the genomic DNA of three breast cancer cell lines and blood genomic DNA (used as an unmethylated control) determined with the Human Breast Cancer EpiTect Methyl II Signature PCR Arrays. The results further strengthen the correlation of these biomarkers with breast cancer. Biomarker / Pathway Discovery EpiTect Methyl II DNA Methylation PCR Arrays Discover New Candidate Breast Cancer DNA Methylation Biomarkers. The heat map compares the methylation status of a panel of 79 transcription factor genes in six different breast cancer cell lines (some in duplicate) and a normal epithelial cell line as determined using 384-well EpiTect Methyl II Custom PCR Arrays. These breast cancer cell lines also methylate this gene panel potentially providing a new source of cancer biomarkers. These results are consistent with the notions that aberrant expression of transcription factors controlling cell differentiation plays key roles in oncogenesis and that transcription factors can be tumor suppressors. |