<i>Trichoderma reesei</i> XYR1 recruits SWI/SNF to facilitate cellulase gene expression

Cao, Yanli; Zheng, Fanglin; Zhang, Weixin; Meng, Xiangfeng; Liu, Weifeng

doi:10.1111/mmi.14352

Cited by 34 publications

(28 citation statements)

References 58 publications

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“…The missing 140 C-terminal amino acids of Xyr1 abolished cellulase production (Lichius et al, 2015). Recent studies have revealed the transcription factor Xyr1 AD could recruit SWI/SNF to remodel nucleosomes positioned in cellulase gene promoters for activating their transcription (Cao et al, 2019), suggesting the important role of this AD in regulation of cellulase gene expression. Therefore, we speculated that Xyr1 AD may function better than Gal4 AD to regulate cellulase gene expression in T. reesei.…”

Section: Discussionmentioning

confidence: 99%

Engineering the Effector Domain of the Artificial Transcription Factor to Improve Cellulase Production by Trichoderma reesei

Meng

Zhang

Wang

et al. 2020

Front. Bioeng. Biotechnol.

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Filamentous fungal strains of Trichoderma reesei have been widely used for cellulase production, and great effort has been devoted to enhancing their cellulase titers for the economic biorefinery of lignocellulosic biomass. In our previous studies, artificial zinc finger proteins (AZFPs) with the Gal4 effector domain were used to enhance cellulase biosynthesis in T. reesei, and it is of great interest to modify the AZFPs to further improve cellulase production. In this study, the endogenous activation domain from the transcription activator Xyr1 was used to replace the activation domain of Gal4 of the AZFP to explore impact on cellulase production. The cellulase producer T. reesei TU-6 was used as a host strain, and the engineered strains containing the Xyr1 and the Gal4 activation domains were named as T. reesei QS2 and T. reesei QS1, respectively. Compared to T. reesei QS1, activities of filter paper and endoglucanases in crude cellulase produced by T. reesei QS2 increased 24.6 and 50.4%, respectively. Real-time qPCR analysis also revealed significant up-regulation of major genes encoding cellulase in T. reesei QS2. Furthermore, the biomass hydrolytic performance of the cellulase was evaluated, and 83.8 and 97.9% more glucose was released during the hydrolysis of pretreated corn stover using crude enzyme produced by T. reesei QS2, when compared to the hydrolysis with cellulase produced by T. reesei QS1 and the parent strain T. reesei TU-6. As a result, we proved that the effector domain in the AZFPs can be optimized to construct more effective artificial transcription factors for engineering T. reesei to improve its cellulase production.

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Section: Discussionmentioning

confidence: 99%

Engineering the Effector Domain of the Artificial Transcription Factor to Improve Cellulase Production by Trichoderma reesei

Meng

Zhang

Wang

et al. 2020

Front. Bioeng. Biotechnol.

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“…For construction of the strain expressing a protein A-tagged TrGAL11, the trp C terminator was amplified from pMDP tcu1 -T trpC [ 37 ], digested with Hin dIII/ Asc I, and then ligated into pUC19- pyr4 [ 55 ] to obtain pUC19- pyr4 -T trpC . The protein A tag encoding sequence was amplified from the pMDP tcu1 proA- Trswi1 plasmid [ 56 ], digested with Not I/ Pme I, and subsequently ligated into the pUC19- pyr4 -T trpC plasmid to obtain the knock-in plasmid pUC19- pyr4 -proA. Finally, a 2 kb fragment upstream from the stop codon of the Trgal11 gene and a 2.3 kb fragment downstream from TGA were amplified from QM9414 genomic DNA, digested with Hin dIII/ Not I and Xba I/ Spe I respectively, and then ligated into pUC19- pyr4 -proA to fuse the Trgal11 with protein A coding sequence to obtain the pUC19- Trgal11 -proA-KI plasmid.…”

Section: Methodsmentioning

confidence: 99%

“…For the expression of TrGAL11 KIX (amino acids 1~134) and XYR1 AD in E. coli, the DNA fragment coding for TrGAL11 KIX was amplified from the T. reesei cDNA and was inserted into the pET28a (+) expression vector after digestion with NdeI and NotI to obtain the pET28a-TrGAL11 KIX plasmid. Similarly, the XYR1 AD (amino acids 767~860) was amplified from the pGBKT7-XYR1 AD plasmid [56] and ligated into the pGEX4T-1 expression vector after digestion with NotI and BamHI. To purify the GST-XYR1 AD 767-860 and TrGAL11 KIX-His, the indicated expression constructs were transformed into CaCl 2 -treated competent E. coli BL21 (DE3) cells.…”

Section: Protein Production In E Coli and Gst Pull Down Assaysmentioning

confidence: 99%

Trichoderma reesei XYR1 activates cellulase gene expression via interaction with the Mediator subunit TrGAL11 to recruit RNA polymerase II

et al. 2020

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The ascomycete Trichoderma reesei is a highly prolific cellulase producer. While XYR1 (Xylanase regulator 1) has been firmly established to be the master activator of cellulase gene expression in T. reesei, its precise transcriptional activation mechanism remains poorly understood. In the present study, TrGAL11, a component of the Mediator tail module, was identified as a putative interacting partner of XYR1. Deletion of Trgal11 markedly impaired the induced expression of most (hemi)cellulase genes, but not that of the major β-glucosidase encoding genes. This differential involvement of TrGAL11 in the full induction of cellulase genes was reflected by the RNA polymerase II (Pol II) recruitment on their core promoters, indicating that TrGAL11 was required for the efficient transcriptional initiation of the majority of cellulase genes. In addition, we found that TrGAL11 recruitment to cellulase gene promoters largely occurred in an XYR1-dependent manner. Although xyr1 expression was significantly tuned down without TrGAL11, the binding of XYR1 to cellulase gene promoters did not entail TrGAL11. These results indicate that TrGAL11 represents a direct in vivo target of XYR1 and may play a critical role in contributing to Mediator and the following RNA Pol II recruitment to ensure the induced cellulase gene expression.

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“…However, the transcript of rxe1 homolog (Th_61248) in T. harzianum LZ117 was dramatically decreased, thus the regulatory relationship between Rxe1 and Xyr1 in T. harzianum remains unclear. It was also revealed that Xyr1 recruits SWI/SNF complex through direct interactions with TrSNF12 to remodel chromatin at cellulase gene promoters, thereby activating cellulase gene expression in T. reesei (Cao et al, 2019) but no significant change for the transcription of Trsnf12 homolog (Th_101097) in T. harzianum LZ117 was found as compared to the control strain. The Velvet family protein Ve1 (Liu et al, 2015) in T. reesei plays an important role in the regulation of cellulase expression, while transcriptional level of its homologous gene veA (Th_95531) in T. harzianum LZ117 has not changed significantly.…”

Section: Changed Genes That Encode Regulators and Major Transportersmentioning

confidence: 98%

Diversity of Cellulase-Producing Filamentous Fungi From Tibet and Transcriptomic Analysis of a Superior Cellulase Producer Trichoderma harzianum LZ117

Zhang

Jiang³

et al. 2020

Front. Microbiol.

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Trichoderma reesei XYR1 recruits SWI/SNF to facilitate cellulase gene expression

Cited by 34 publications

References 58 publications

Engineering the Effector Domain of the Artificial Transcription Factor to Improve Cellulase Production by Trichoderma reesei

Engineering the Effector Domain of the Artificial Transcription Factor to Improve Cellulase Production by Trichoderma reesei

Trichoderma reesei XYR1 activates cellulase gene expression via interaction with the Mediator subunit TrGAL11 to recruit RNA polymerase II

Diversity of Cellulase-Producing Filamentous Fungi From Tibet and Transcriptomic Analysis of a Superior Cellulase Producer Trichoderma harzianum LZ117

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