人过氧化物还氧蛋白5基因的组织,启动子的初步鉴定和mRNA替代形式的鉴定

Nhu Tiên Nguyên-nhu , Jehanne Berck , André Clippe , Elee Duconseille , Hanane Cherif , Christophe Boone , Valérie Van der Eecken , Alfred Bernard , Ingrid Banmeyer , Bernard Knoops
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引用次数: 40

摘要

过氧还蛋白5 (PRDX5)是哺乳动物组织中普遍表达的硫氧还蛋白过氧化物酶。它作为抗氧化酶的作用已经在不同的病理情况下得到了支持。在这项研究中,我们确定了完整的人类PRDX5基因组组织,并分离了该基因的5 ' -侧翼区域。人类PRDX5基因与其他脊索动物PRDX5基因相似,由6个外显子和5个内含子组成。发现了几个单核苷酸多态性。其中6种在蛋白质编码区有氨基酸取代。分析人类PRDX5的5 '侧区发现了一个TATA-less启动子,包含一个典型的CpG岛和几个可能的转录因子应答元件。为了分析控制人类PRDX5表达的调控机制,我们通过在荧光素酶报告序列前克隆该区域的不同片段来表征该区域的5 ' -侧翼区域。转染HepG2细胞表明,5 '侧区含有人PRDX5组成表达的调控元件。用5′-RACE-PCR在人肝脏中也发现了多个转录起始位点。此外,虽然没有相应的蛋白被报道,我们提出了新的替代剪接变体特异性编码人类PRDX5基因。人类PRDX5基因的特征揭示了其调控的复杂性和序列的高度可变性,这可能与病理情况有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Human peroxiredoxin 5 gene organization, initial characterization of its promoter and identification of alternative forms of mRNA

Peroxiredoxin 5 (PRDX5) is a mammalian thioredoxin peroxidase ubiquitously expressed in tissues. Its role as antioxidant enzyme has been previously supported in different pathological situations. In this study, we determined the complete human PRDX5 genomic organization and isolated the 5′-flanking region of the gene. Human PRDX5 gene is composed of six exons and five introns similarly to other chordate PRDX5 genes. Several single nucleotide polymorphisms were identified. Six out of them have amino acid substitutions in protein-coding region. Analysis of the 5′-flanking region of human PRDX5 revealed the presence of a TATA-less promoter containing a canonical CpG island and several putative response elements for transcription factors. To analyze the regulatory mechanisms controlling human PRDX5 expression, we characterized the 5′-flanking region by cloning various segments of this region in front of a luciferase reporter sequence. Transfection in HepG2 cells indicate that the 5′-flanking region contains regulatory elements for constitutive expression of human PRDX5. Multiple transcription start sites were also identified by 5′-RACE-PCR in human liver. Moreover, although no corresponding proteins were reported, we present new alternative splicing variants encoded specifically by human PRDX5 gene. The characterization of human PRDX5 gene revealed the complexity of its regulation and a high variability of sequences that might be associated with pathological situations.

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