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染色质调节元件与不同启动子的相互作用对基因表达调控的影响
引用本文:王斌,郭庆,刘凌云,李美荃,戴利利,陈奇娜,刘雪莉,翟书华. 染色质调节元件与不同启动子的相互作用对基因表达调控的影响[J]. 生物工程学报, 2021, 37(9): 3310-3322
作者姓名:王斌  郭庆  刘凌云  李美荃  戴利利  陈奇娜  刘雪莉  翟书华
作者单位:1 昆明学院 农学与生命科学学院,云南 昆明 650224;2 河北省唐山市丰南区第一中学,河北 唐山 063300;3 解放军联勤保障部队 第920医院,云南 昆明 650031
基金项目:国家自然科学基金 (Nos. 31760256, 32060147),云南省地方高校联合基金 (No. 202001BA070001-217),云南省教育厅项目 (No. 2020J0510) 资助。
摘    要:为探究DNA序列元件对不同启动子调节转基因稳定表达的影响,利用遍在染色质开放元件 (Ubiquitous chromatin opening elements,UCOE) 和基质黏附序列 (Scaffold/matrix-attachment regions,MAR) 分别与含增强子的oct4基因启动子、含CpG岛的sox2基因启动子和不含调控元件的nanog基因启动子以及同时包含增强子和CpG岛的CMV启动子组合构建pOCT4-MAR、pOCT4-UCOE、pSOX2-MAR、pSOX2-UCOE、pNANOG-MAR、pNANOG-UCOE、pCMV-UCOE、pCMV-MAR等质粒,分析这些质粒稳定转染后的表达量和嵌合表达差异。结果发现,UCOE与含增强子元件的oct4启动子组合能较稳定高效表达,而MAR与含CpG岛的sox2启动子组合能较稳定高效表达。利用排除位置效应原因的嵌合表达对染色质高级结构调控基因表达的稳定性分析表明:(1) 通常情况下UCOE比MAR调节的表达载体的表达更高效和更稳定;UCOE连接含CpG岛的启动子形成开放染色质调节的高表达更稳定;(2) MAR与启动子上TATA盒或增强子可能通过染色质环产生高表达,但相对不稳定。结论:染色质调节元件UCOE和MAR与启动子调控元件之间能通过染色质开放状态或染色质环调控基因稳定表达。

关 键 词:染色质调节序列,启动子调控元件,开放染色质,染色质环
收稿时间:2020-11-25

Effect of interactions of chromatin regulatory elements with different promoters on the regulation of gene expression
Bin Wang,Qing Guo,Lingyun Liu,Meiquan Li,Lili Dai,Qina Chen,Xueli Liu,Shuhua Zhai. Effect of interactions of chromatin regulatory elements with different promoters on the regulation of gene expression[J]. Chinese journal of biotechnology, 2021, 37(9): 3310-3322
Authors:Bin Wang  Qing Guo  Lingyun Liu  Meiquan Li  Lili Dai  Qina Chen  Xueli Liu  Shuhua Zhai
Affiliation:1 School of Agriculture and Life Sciences, Kunming University, Kunming 650224, Yunnan, China;2 No. 1 High School, Fengnan District, Tangshan 063300, Hebei, China;3 920th Hospital of Joint Logistics Support Force, Kunming 650031, Yunnan, China
Abstract:The effect of altering the promoter region of ubiquitous chromatin-opening element (UCOE) and matrix attachment region (MAR) on stable and efficient expression of genes was investigated. Four different promoters were tested, namely, oct4 containing an enhancer region, sox2 having a CpG island, nanog having no regulatory elements, and CMV containing a CpG island and an enhancer region. Eight reporter plasmids were constructed: pOCT4-UCOE, pOCT4-MAR, pSOX2-UCOE, pSOX2-MAR, pNANOG-UCOE, pNANOG-MAR, pCMV-UCOE, and pCMV-MAR. Stable and efficient expression was observed when UCOE combined with the oct4 promoter, whereas the sox2 was the best promoter suited for MAR. Comparison of the stable clones of oct4-UCOE and sox2-MAR showed that UCOE-regulated expression is more stable and efficient than MAR-regulated expression. When CpG island-containing promoter is linked with UCOE, stable and efficient expression could be observed. These data suggest that an enhancer region in the promoter leads to high, yet unstable expression when combined with UCOE, whereas CpG islands stabilize expression. In conclusion, UCOE and MAR interact with regulatory elements on the promoter by altering the chromatin open state and chromatin loop to regulate gene expression.
Keywords:chromatin-modifying sequences   regulatory elements on promoter   opening chromatin   chromatin loop
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