Xpp1 regulates the expression of xylanases, but not of cellulases in Trichoderma reesei

Derntl, Christian; Rassinger, Alice; Srebotnik, Ewald; Mach, Robert L.; Mach-Aigner, Astrid R.

doi:10.1186/s13068-015-0298-8

Cited by 52 publications

(55 citation statements)

References 33 publications

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“…Previously, the expression of Xpp1 itself was shown to depend on growth rate (33). Taken together, we propose that the general role of Xpp1 is to direct the flow of material and energy toward the accumulation of biomass.…”

Section: Discussionsupporting

confidence: 60%

“…The pigment is a mixture of different sorbicillin derivatives, of which biosynthesis results from a gene cluster that is present in a range of not closely related ascomycetes (38,39). However, in a previous study, we cultivated an xpp1 deletion strain and its parent strain on carboxymethylcellulose (CMC) to determine the expression levels of cellulases (33). Throughout growth, we observed that cultures of the xpp1 deletion strain turned yellow earlier and that coloring was more pronounced compared with the parent strain.…”

Section: Resultsmentioning

confidence: 90%

“…As mentioned in the Introduction, Xpp1 was originally identified and described as a repressor of xylanase expression (32,33). Therein, Xpp1 was reported to regulate the expression of xylanolytic enzymes at late time points during cultivation on xylan.…”

Section: Discussionmentioning

confidence: 99%

“…To gain insight into how Xpp1 influences the fungal transcriptome, we performed RNA-Seq analysis. For this purpose, the xpp1 deletion and parent strains were grown for 48 h on CMC, on which the two strains grow similarly (33). The processing of individual samples (Fig.…”

Section: Xpp1 Affects the Expression Of Genes Of Primary And Secondarymentioning

confidence: 99%

“…In this study, we describe the identification of a transcription factor that acts as a switch between primary and secondary metabolism. The deletion of the previously described xylanase repressor Xylanase promoter binding protein 1 (Xpp1) (32,33) results in a decline of the primary metabolism and the up-regulation of secondary metabolism in terms of compound diversity and quantity in the saprotrophic ascomycete Trichoderma reesei [teleomorph; Hypocrea jecorina (34)]. To study the extent of the Xpp1 regulon in detail, we performed RNAsequencing (RNA-Seq) analysis.…”

mentioning

confidence: 99%

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Transcription factor Xpp1 is a switch between primary and secondary fungal metabolism

Derntl

Kluger

Bueschl

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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Fungi can produce a wide range of chemical compounds via secondary metabolism. These compounds are of major interest because of their (potential) application in medicine and biotechnology and as a potential source for new therapeutic agents and drug leads. However, under laboratory conditions, most secondary metabolism genes remain silent. This circumstance is an obstacle for the production of known metabolites and the discovery of new secondary metabolites. In this study, we describe the dual role of the transcription factor Xylanase promoter binding protein 1 (Xpp1) in the regulation of both primary and secondary metabolism of Trichoderma reesei. Xpp1 was previously described as a repressor of xylanases. Here, we provide data from an RNAsequencing analysis suggesting that Xpp1 is an activator of primary metabolism. This finding is supported by our results from a Biolog assay determining the carbon source assimilation behavior of an xpp1 deletion strain. Furthermore, the role of Xpp1 as a repressor of secondary metabolism is shown by gene expression analyses of polyketide synthases and the determination of the secondary metabolites of xpp1 deletion and overexpression strains using an untargeted metabolomics approach. The deletion of Xpp1 resulted in the enhanced secretion of secondary metabolites in terms of diversity and quantity. Homologs of Xpp1 are found among a broad range of fungi, including the biocontrol agent Trichoderma atroviride, the plant pathogens Fusarium graminearum and Colletotrichum graminicola, the model organism Neurospora crassa, the human pathogen Sporothrix schenckii, and the ergot fungus Claviceps purpurea.transcription factor | secondary metabolism | low molecular compounds | fungi | gene regulation F ungi are prominent producers of a broad variety of so-called secondary metabolites (1, 2). They are highly variable in structure and effects but share the following common feature: they are produced via the secondary metabolism (3, 4). Whereas primary metabolites are shared between all living cells, secondary metabolites are highly diverse and frequently produced by a limited number of species or cell types. Fungi use secondary metabolites for different purposes [e.g., protection against predation (5) or harsh environments (6), communication (7), competition and toxicity against bacteria (8) and other fungi (9), and pathogenicity (10)]. Some fungal secondary metabolites have toxic characteristics, such as aflatoxins, fumonisins, trichothecenes, fusarins, zearalenone, and ergot alkaloids (11-16), whereas other secondary metabolites are of major interest because of their potential application in the treatment of infectious diseases [e.g., antibiotics (17)] or cancer [e.g., immunosuppressants (18)] and as a potential source for novel therapeutic agents and drug leads (19). Interestingly, some of these natural products have already been used by ancient human populations (20). Numerous new compounds have been identified within the last decade that are now applied by the biotechnology and pharma...

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Section: Discussionsupporting

confidence: 60%

Section: Resultsmentioning

confidence: 90%

Section: Discussionmentioning

confidence: 99%

Section: Xpp1 Affects the Expression Of Genes Of Primary And Secondarymentioning

confidence: 99%

mentioning

confidence: 99%

See 3 more Smart Citations

Transcription factor Xpp1 is a switch between primary and secondary fungal metabolism

Derntl

Kluger

Bueschl

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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Enhanced cellulase production from Trichoderma reesei Rut‐C30 by engineering with an artificial zinc finger protein library

Zhang

Bai

Zhao

2016

Biotechnology Journal

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Trichoderma reesei Rut-C30 is a well-known cellulase producer, and improvement of its cellulase production is of great interest. An artificial zinc finger protein (AZFP) library is constructed for expression in T. reesei Rut-C30, and a mutant strain T. reesei U3 is selected based on its enhanced cellulase production. The U3 mutant shows a 55% rise in filter paper activity and 8.1-fold increased β-glucosidase activity, when compared to the native strain T. reesei Rut-C30. It is demonstrated that enhanced β-glucosidase activity was due to elevated transcription level of β-glucosidase gene in the U3 mutant. Moreover, significant elevation in transcription levels of several putative Azfp-U3 target genes is detected in the U3 mutant, including genes encoding hypothetical transcription factors and a putative glycoside hydrolase. Furthermore, U3 cellulase shows 115% higher glucose yield from pretreated corn stover, when compared to the cellulase of T. reesei Rut-C30. These results demonstrate that AZFP can be used to improve cellulase production in T. reesei Rut-C30. Our current work offers the establishment of an alternative strategy to develop fungal cell factories for improved production of high value industrial products.

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Genetic Regulation Networks in Cellulase and Hemicellulase Production in an Industrially Applied Cellulase Producer Trichoderma reesei

Zimmermann,

Till,

Danner

et al. 2024

Handbook of Biorefinery Research and Technology: Biomass Logistics to Saccharification

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Xpp1 regulates the expression of xylanases, but not of cellulases in Trichoderma reesei

Cited by 52 publications

References 33 publications

Transcription factor Xpp1 is a switch between primary and secondary fungal metabolism

Transcription factor Xpp1 is a switch between primary and secondary fungal metabolism

Enhanced cellulase production from Trichoderma reesei Rut‐C30 by engineering with an artificial zinc finger protein library

Genetic Regulation Networks in Cellulase and Hemicellulase Production in an Industrially Applied Cellulase Producer Trichoderma reesei

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