Characterization and engineering of the xylose-inducible xylP promoter for use in mold fungal species

IF 3.7 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Metabolic Engineering Communications Pub Date : 2022-12-01 DOI:10.1016/j.mec.2022.e00214
Annie Yap , Irene Glarcher , Matthias Misslinger, Hubertus Haas
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引用次数: 5

Abstract

Conditional promoters allowing both induction and silencing of gene expression are indispensable for basic and applied research. The xylP promoter (pxylP) from Penicillium chrysogenum was demonstrated to function in various mold species including Aspergillus fumigatus. pxylP allows high induction by xylan or its degradation product xylose with low basal activity in the absence of an inducer. Here we structurally characterized and engineered pxylP in A. fumigatus to optimize its application. Mutational analysis demonstrated the importance of the putative TATA-box and a pyrimidine-rich region in the core promoter, both copies of a largely duplicated 91-bp sequence (91bpDS), as well as putative binding sites for the transcription factor XlnR and a GATA motif within the 91bpDS. In agreement, pxylP activity was found to depend on XlnR, while glucose repression appeared to be indirect. Truncation of the originally used 1643-bp promoter fragment to 725 bp largely preserved the promoter activity and the regulatory pattern. Integration of a third 91bpDS significantly increased promoter activity particularly under low inducer concentrations. Truncation of pxylP to 199 bp demonstrated that the upstream region including the 91bpDSs mediates not only inducer-dependent activation but also repression in the absence of inducer. Remarkably, the 1579-bp pxylP was found to act bi-bidirectionally with a similar regulatory pattern by driving expression of the upstream-located arabinofuranosidase gene. The latter opens the possibility of dual bidirectional use of pxylP. Comparison with a doxycycline-inducible TetOn system revealed a significantly higher dynamic range of pxylP. Taken together, this study identified functional elements of pxylP and opened new methodological opportunities for its application.

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木糖诱导型霉菌真菌启动子的鉴定与工程
诱导和沉默基因表达的条件启动子在基础和应用研究中是不可或缺的。从青霉菌中提取的xyylp启动子(pxylP)已被证明在包括烟曲霉在内的多种霉菌中起作用。在没有诱导剂的情况下,木聚糖或其降解产物木糖对pxyylp的诱导作用很高,但基础活性很低。本文对烟曲霉中的pxylP进行了结构表征和工程化,以优化其应用。突变分析证明了核心启动子中假定的TATA-box和富含嘧啶的区域、大量重复的91-bp序列(91bpDS)的两个拷贝以及91bpDS中转录因子XlnR和GATA基序的假定结合位点的重要性。与此一致的是,pxylP活性依赖于XlnR,而葡萄糖抑制似乎是间接的。将最初使用的1643-bp的启动子片段截断为725 bp,在很大程度上保留了启动子活性和调控模式。第三个91bpDS的整合显著提高了启动子活性,特别是在低诱导剂浓度下。截断到199 bp的pxylP表明,包括91bpdp在内的上游区域不仅介导依赖诱导剂的激活,而且在没有诱导剂的情况下介导抑制。值得注意的是,1579-bp的pxylP被发现以类似的调控模式双向作用,通过驱动位于上游的阿拉伯糖醛酸苷酶基因的表达。后者开启了pxyylp双向使用的可能性。与强力霉素诱导的TetOn体系相比,pxylP的动态范围显著提高。综上所述,本研究确定了pxylP的功能元素,为其应用开辟了新的方法学机遇。
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来源期刊
Metabolic Engineering Communications
Metabolic Engineering Communications Medicine-Endocrinology, Diabetes and Metabolism
CiteScore
13.30
自引率
1.90%
发文量
22
审稿时长
18 weeks
期刊介绍: Metabolic Engineering Communications, a companion title to Metabolic Engineering (MBE), is devoted to publishing original research in the areas of metabolic engineering, synthetic biology, computational biology and systems biology for problems related to metabolism and the engineering of metabolism for the production of fuels, chemicals, and pharmaceuticals. The journal will carry articles on the design, construction, and analysis of biological systems ranging from pathway components to biological complexes and genomes (including genomic, analytical and bioinformatics methods) in suitable host cells to allow them to produce novel compounds of industrial and medical interest. Demonstrations of regulatory designs and synthetic circuits that alter the performance of biochemical pathways and cellular processes will also be presented. Metabolic Engineering Communications complements MBE by publishing articles that are either shorter than those published in the full journal, or which describe key elements of larger metabolic engineering efforts.
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