小鼠ATPase II启动子的分离、测序和功能分析以及ATPase II基因的结构分析

Tomasz Sobocki , Farah Jayman , Malgorzata B. Sobocka , Jonathan D. Marmur , Probal Banerjee
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引用次数: 7

摘要

p型Mg2+- atp酶,称为atp酶II (Atp8a1),是一种假定的氨基磷脂转运酶,有助于维持细胞膜磷脂的不对称性。在本项目中,我们阐明了小鼠atp酶II基因的组织结构,并鉴定了其启动子。该基因位于5号染色体内,全长约224 kb,由38个外显子组成,其中3个外显子选择性剪接(外显子7,8和16),产生两种转录变体。这些转录本的翻译产生两个ATPase II亚型(1和2),分别由1164和1149个氨基酸组成。利用RNA连接酶介导的cDNA末端快速扩增技术(RLM-RACE),我们在心脏、肺、肝脏和脾脏的信息中发现了多个转录起始位点(TSS)。小鼠atp酶II启动子不含tata,缺乏一致的启动子序列。对完整启动子和核心启动子的荧光素酶报告分析显示,它们的活性较强,但细胞类型特异性较低,这可能是因为需要更多的侧翼调控序列才能产生这种组织特异性。在神经元HN2、N18、SN48细胞和NIH3T3成纤维细胞中,核心启动子(与最常见的TSS相比为- 318/+ 193)的活性明显高于完整启动子(- 1026/+ 193),但在B16F10黑色素瘤细胞中没有。核心启动子序列5 '的缺失显示出这些片段具有显著的细胞类型特异性活性,表明在测试的五种细胞系中转录因子的表达和使用存在差异。此外,TSS的分布具有器官特异性。这些观察结果表明,转录起始复合物的组装和ATPase II基因表达的调节存在组织特异性差异。这里提供的信息为进一步研究该基因在凋亡细胞中的表达奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Isolation, sequencing, and functional analysis of the TATA-less murine ATPase II promoter and structural analysis of the ATPase II gene

The P-type Mg2+-ATPase, termed ATPase II (Atp8a1), is a putative aminophospholipid transporting enzyme, which helps to maintain phospholipid asymmetry in cell membranes. In this project we have elucidated the organization of the mouse ATPase II gene and identified its promoter. Located within chromosome 5, this gene spans about 224 kb and consists of 38 exons, three of which are alternatively spliced (exons 7, 8 and 16), giving rise to two transcript variants. Translation of these transcripts results in two ATPase II isoforms (1 and 2) composed of 1164 and 1149 amino acids, respectively. Using RNA ligase-mediated rapid amplification of cDNA ends (RLM-RACE) we identified multiple transcription start sites (TSS) in messages obtained from heart, lung, liver, and spleen. The mouse ATPase II promoter is TATA-less and lacks a consensus initiator sequence. Luciferase reporter analysis of full and core promoters revealed strong activity and little cell type specificity, possibly because more flanking, regulatory sequences are required to cause such tissue specificity. In the neuronal HN2, N18, SN48 cells and the NIH3T3 fibroblast cells, but not in the B16F10 melanoma cells, the core promoter (− 318/+ 193 with respect to the most common TSS) displayed significantly higher activity than the full promoter (− 1026/+ 193). Serial 5′ deletion of the core promoter revealed significant cell type-specific activity of the fragments, suggesting differential expression and use of transcription factors in the five cell lines tested. Additionally distribution of the TSS was organ specific. Such observations suggest tissue-specific differences in transcription initiation complex assembly and regulation of ATPase II gene expression. Information presented here form the groundwork for further studies on the expression of this gene in apoptotic cells.

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