Abstract

BackgroundFor Aspergillus niger, a broad set of auxotrophic and dominant resistance markers is available. However, only few offer targeted modification of a gene of interest into or at a genomic locus of choice, which hampers functional genomics studies. We thus aimed to extend the available set by generating a histidine auxotrophic strain with a characterized hisB locus for targeted gene integration and deletion in A. niger.ResultsA histidine-auxotrophic strain was established via disruption of the A. niger hisB gene by using the counterselectable pyrG marker. After curing, a hisB-, pyrG- strain was obtained, which served as recipient strain for further studies. We show here that both hisB orthologs from A. nidulans and A. niger can be used to reestablish histidine prototrophy in this recipient strain. Whereas the hisB gene from A. nidulans was suitable for efficient gene targeting at different loci in A. niger, the hisB gene from A. niger allowed efficient integration of a Tet-on driven luciferase reporter construct at the endogenous non-functional hisB locus. Subsequent analysis of the luciferase activity revealed that the hisB locus is tight under non-inducing conditions and allows even higher luciferase expression levels compared to the pyrG integration locus.ConclusionTaken together, we provide here an alternative selection marker for A. niger, hisB, which allows efficient homologous integration rates as well as high expression levels which compare favorably to the well-established pyrG selection marker.

Highlights

  • For Aspergillus niger, a broad set of auxotrophic and dominant resistance markers is available

  • We analysed whether gene expression levels of hisB and the widely used pyrG are comparable by scrutinzing an in-house database, which comprises genome-wide expression profiles of A. niger from 155 different cultivation conditions [36]

  • In summary, we report here a straight forward approach to rationally generate auxotrophic markers in the filamentous fungus A. niger which was employed to create a histidine auxotrophic strain which can be used as a recipient isolate for endogenous deletion of genes using the A. nidulans orthologue hisB

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Summary

Introduction

For Aspergillus niger, a broad set of auxotrophic and dominant resistance markers is available. Various selection systems are available for transformation of A. niger, including nutritional (pyrG, trpC, amdS, niaD, sC, agaA and argB) and antibiotic resistance (hph, ble) markers [4,5,6,7,8,9,10,11]. This set was expanded by two new nutritional markers (nicB and adeA) which can be used for gene deletion in A. niger [12]. In order to study the function and interplay of several genes, or to construct/re-engineer a complete metabolic pathway in A. niger, it is of advantage

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