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首页> 外文期刊>Applied and Environmental Microbiology >Glucoamylase gene fusions alleviate limitations for protein production in Aspergillus awamori at the transcriptional and (post) translational levels.
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Glucoamylase gene fusions alleviate limitations for protein production in Aspergillus awamori at the transcriptional and (post) translational levels.

机译:葡糖淀粉酶基因融合物减轻了泡盛曲霉在转录和(翻译后)翻译水平上蛋白质生产的限制。

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In this study we have analyzed the effects of a glucoamylase gene fusion on the mRNA levels and protein levels for the human interleukin-6 gene (hil6) and the guar alpha-galactosidase gene (aglA). Previously it was shown that production of nonfused alpha-galactosidase and hIL-6 in Aspergillus awamori was limited at transcriptional and (post)translational levels, respectively (R. J. Gouka, P. J. Punt, J. G. M. Hessing, and C. A. M. J. J. van den Hondel, Appl. Environ. Microbiol. 62:1951-1957, 1996). Vectors were constructed which contained either the hil6 or aglA gene fused to the Aspergillus niger glucoamylase gene (glaA) under control of the efficient 1,4-beta-endoxylanase A promoter and transcription terminator. For comparison, the vectors were integrated in a single copy at the pyrG locus of A. awamori. A glaA fusion to the 5' end of the hil6 gene resulted in a large increase in hIL-6 yield, whereas with a glaA fusion to the 3' end of the hil6 gene, almost no protein was produced. Nevertheless, the steady-state mRNA levels of both fusions were very similar and not clearly increased compared to those of a strain expressing nonfused hIL-6. Fusions of glaA to the 5' end of the wild-type guar aglA gene resulted in truncated mRNA lacking almost 900 bases (> 80%) of the aglA sequence. When the coding sequence of the wild-type aglA gene was replaced by a synthetic aglA gene with optimized Saccharomyces cerevisiae codon usage, full-length mRNA was obtained. Compared to a nonfused synthetic aglA gene, a glaA fusion with the synthetic aglA gene resulted in a 25-fold increase in the mRNA level and, as a consequence, a similar increase in the alpha-galactosidase protein level. The truncated transcripts derived from the wild-type aglA gene were further analyzed by nuclear run-on transcription assays. These experiments indicated that transcription elongation in the nucleus proceeded at least 400 bases downstream of the site where the truncation was determined, indicating that transcription elongation or premature termination was not the reason for the generation of truncated mRNAs. As the truncated mRNA also contained a poly(A) tail, truncation most likely occurs by incorrect processing of the aglA mRNA in the nucleus.
机译:在这项研究中,我们分析了葡糖淀粉酶基因融合对人白介素6基因(hil6)和瓜尔瓜α-半乳糖苷酶基因(aglA)的mRNA水平和蛋白质水平的影响。以前已证明泡盛曲霉中未融合的α-半乳糖苷酶和hIL-6的产生分别在转录和翻译后水平受到限制(RJ Gouka,PJ Punt,JGM Hessing和CAMJJ van den Hondel,Appl.Environ。 62:1951-1957,1996)。构建了包含在有效的1,4-β-内​​切木聚糖酶A启动子和转录终止子的控制下与黑曲霉葡糖淀粉酶基因(glaA)融合的hil6或aglA基因的载体。为了比较,将载体整合到泡盛曲霉的pyrG基因座的单个拷贝中。与hil6基因5'末端融合的glaA导致hIL-6产量的大幅增加,而与hil6基因3'末端融合的glaA融合则几乎不产生蛋白质。然而,与表达未融合的hIL-6的菌株相比,两种融合的稳态mRNA水平非常相似并且没有明显增加。 glaA融合至野生型瓜耳豆aglA基因的5'端导致截短的mRNA缺少aglA序列的近900个碱基(> 80%)。当野生型aglA基因的编码序列被具有优化的酿酒酵母密码子使用的合成aglA基因替代时,获得了全长mRNA。与未融合的合成aglA基因相比,glaA与合成的aglA基因融合导致mRNA水平增加25倍,因此,α-半乳糖苷酶蛋白质水平也出现类似的增加。来自野生型aglA基因的截短的转录本通过核运行转录分析进一步分析。这些实验表明,在确定截短的位点下游至少400个碱基处进行了核中的转录延长,这表明转录延长或过早终止不是产生截短的mRNA的原因。由于截短的mRNA也包含poly(A)尾部,因此截断很可能是由于对核中的aglA mRNA的不正确处理而发生的。

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