Shu Limin, Katholi Charles R, Higazi Tarig, Unnasch Thomas R
Division of Geographic Medicine, University of Alabama at Birmingham, BBRB 203, 1530 3rd Avenue South, Birmingham, AL, USA.
Mol Biochem Parasitol. 2003 Apr 25;128(1):67-75. doi: 10.1016/s0166-6851(03)00052-5.
Biolistic transient transfection of Brugia malayi embryos with constructs driving the expression of a luciferase reporter gene was used to identify regions of the upstream sequence of the heat shock protein 70 (HSP70) gene of B. malayi necessary for transgene expression. Analysis of 1160 nucleotides upstream of the start codon of the HSP70 gene identified several potentially important elements, including putative CAAT and TATA boxes, a core promoter domain, a polypurine stretch, and a spliced leader addition site. Nested deletion analysis of the HSP70 upstream domain mapped the promoter of the HSP70 gene to the region 396 to 31 nucleotides upstream of the start codon. This encompassed the putative CAAT and TATA boxes, and putative core promoter. Deletion of the putative CAAT box did not result in any diminution of reporter activity, while constructs in which the TATA box or core promoter were deleted retained roughly half of the activity of the undeleted construct. Unlike the native gene, transcripts derived from constructs containing the HSP70 upstream sequences were not trans-spliced. However, incorporation of the 495 nucleotides downstream of the start codon (encompassing exon 1, intron 1 and part of exon 2) resulted in the production of transcripts that were correctly cis- and trans-spliced. Similarly, a construct containing the 495 downstream nucleotides in which most of exon 1 was deleted, was correctly cis- and trans-spliced. This finding suggests that downstream intron sequences in addition to the splice leader addition site are necessary for trans-splicing in B. malayi.
利用携带萤光素酶报告基因表达构建体的基因枪对马来丝虫胚胎进行瞬时转染,以鉴定马来丝虫热休克蛋白70(HSP70)基因上游序列中对转基因表达必需的区域。对HSP70基因起始密码子上游1160个核苷酸的分析确定了几个潜在的重要元件,包括假定的CAAT盒和TATA盒、一个核心启动子结构域、一个聚嘌呤序列以及一个剪接前导序列添加位点。对HSP70上游结构域的嵌套缺失分析将HSP70基因的启动子定位到起始密码子上游396至31个核苷酸的区域。这包括假定的CAAT盒和TATA盒以及假定的核心启动子。删除假定的CAAT盒不会导致报告基因活性的任何降低,而删除TATA盒或核心启动子的构建体保留了未删除构建体约一半的活性。与天然基因不同, 源自含有HSP70上游序列构建体的转录本未发生反式剪接。然而,起始密码子下游495个核苷酸(包括外显子1、内含子1和部分外显子2)的掺入导致产生了正确进行顺式和反式剪接的转录本。同样,一个包含495个下游核苷酸且大部分外显子1被删除的构建体也进行了正确的顺式和反式剪接。这一发现表明,除了剪接前导序列添加位点外,下游内含子序列对于马来丝虫的反式剪接也是必需的。