Regulation of plant cell wall degradation by light in Trichoderma

Schmoll, Monika

doi:10.1186/s40694-018-0052-7

Cited by 80 publications

(66 citation statements)

References 122 publications

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“…Even though Neurospora was grown under constant light conditions for the present study, the data reveal abundant phosphorylations present in clock components. Crosstalk between gene regulation in response to different nutritional conditions and the light response pathway is extensive (Schmoll, 2018; Stappler et al, 2017) and was also shown in N. crassa (Sancar et al, 2012; Schmoll et al, 2012). FREQUENCY (FRQ; NCU02265) is a key component of the Neurospora circadian clock, allowing precise daily control of several processes, including metabolism (Hurley et al, 2016; Montenegro-Montero et al, 2015).…”

Section: Resultsmentioning

confidence: 89%

Broad substrate-specific phosphorylation events are associated with the initial stage of plant cell wall recognition inNeurospora crassa

Horta

Thieme

Gao

et al. 2019

Preprint

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Fungal plant cell wall degradation processes are governed by complex regulatory mechanisms, allowing the organisms to adapt their metabolic program with high specificity to the available substrates. While the uptake of representative plant cell wall mono- and disaccharides is known to induce specific transcriptional and translational responses, the processes related to early signal reception and transduction remain largely unkown. A fast and reversible way of signal transmission are post-translational protein modifications, such as phosphorylations, which could initiate rapid adaptations of the fungal metabolism to a new condition. To elucidate how changes in the initial substrate recognition phase of Neurospora crassa affect the global phosphorylation pattern, phospho-proteomics was performed after a short (2 minutes) induction period with several plant cell wall-related mono- and disaccharides. The MS/MS-based peptide analysis revealed large-scale substrate-specific protein phosphorylation and de-phosphorylations. Using the proteins identified by MS/MS, a protein-protein-interaction (PPI) network was constructed. The variance in phosphorylation of a large number of kinases, phosphatases and transcription factors indicate the participation of many known signaling pathways, including circadian responses, two-component regulatory systems, MAP kinases as well as the cAMP-dependent and heterotrimeric G-protein pathways. Adenylate cyclase, a key component of the cAMP pathway, was identified as a potential hub for carbon source-specific differential protein interactions. In addition, four phosphorylated F-Box proteins were identified, two of which, Fbx-19 and Fbx-22, were found to be involved in carbon catabolite repression responses. Overall, these results provide unprecedented and detailed insights into a so far less well known stage of the fungal response to environmental cues and allow to better elucidate the molecular mechanisms of sensory perception and signal transduction during plant cell wall degradation.

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Section: Resultsmentioning

confidence: 89%

Broad substrate-specific phosphorylation events are associated with the initial stage of plant cell wall recognition inNeurospora crassa

Horta

Thieme

Gao

et al. 2019

Preprint

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“…The LaeA/VeA/VeB complex genes, which were previously reported to be involved in ChA biosynthesis and cellulase production [ 40 ], were down-regulated in pG14 as well (log 2 Ratio = − 1.7, − 0.5, − 1.7). In addition, the photoreceptor env1 gene, connecting the light signaling and the cellulase gene transcript levels [ 41 ], was upregulated in pG14 in light (log 2 Ratio = 1.5) (Table 1 ).…”

Section: Resultsmentioning

confidence: 99%

“…Besides the response to different substrates, cellulase gene transcript levels are also modulated by environmental factors especially light and by ENVOY (ENV1), the central component of the light signaling machinery in T. reesei [ 41 ]. The photoreceptor ENV1 mainly established connections with the heterotrimeric G-protein pathway and triggers posttranscriptional regulation of cellulase expression with light response.…”

Section: Resultsmentioning

confidence: 99%

Regulation of the Gα-cAMP/PKA signaling pathway in cellulose utilization of Chaetomium globosum

Liu

Hao

et al. 2018

Microb Cell Fact

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BackgroundThe canonical heterotrimeric G protein-cAMP/PKA pathway regulates numerous cellular processes in filamentous fungi. Chaetomium globosum, a saprophytic fungus, is known for producing many secondary metabolites, including cytotoxic chaetoglobosin A (ChA), as well as abundant cellulase and xylanase.ResultsHere we report on the functional characterization of this signaling pathway in C. globosum. We blocked the pathway by knocking down the putative Gα-encoding gene gna1 (in the pG14 mutant). This led to impaired cellulase production and significantly decreased transcription of the major cellulase and xylanase genes. Almost all the glycohydrolase family genes involved in cellulose degradation were downregulated, including the major cellulase genes, cel7a, cel6a, egl1, and egl2. Importantly, the expression of transcription factors was also found to be regulated by gna1, especially Ace1, Clr1/2 and Hap2/3/5 complex. Additionally, carbon metabolic processes including the starch and sucrose metabolism pathway were substantially diminished, as evidenced by RNA-Seq profiling and quantitative reverse transcription (qRT)-PCR. Interestingly, these defects could be restored by simultaneous knockdown of the pkaR gene encoding the regulatory subunit of cAMP-dependent PKA (in the pGP6 mutant) or supplement of the cAMP analog, 8-Br-cAMP. Moreover, the Gα-cAMP/PKA pathway regulating cellulase production is modulated by environmental signals including carbon sources and light, in which VelB/VeA/LaeA complex and ENVOY probably work as downstream effectors.ConclusionThese results revealed, for the first time, the positive role of the heterotrimeric Gα-cAMP/PKA pathway in the regulation of cellulase and xylanase utilization in C. globosum.Electronic supplementary materialThe online version of this article (10.1186/s12934-018-1008-6) contains supplementary material, which is available to authorized users.

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“…Hence, in the optimal nutritional conditions, the growth-related metabolism should be approximately equal in the light and in the dark, but alterations in these conditions would affect the metabolic processes differently depending on the lighting status (Carlile, 1965). It has been proved that light regulates gene expression in Trichoderma reesei and the genes encoding CAZYmes are clustered together in the genome (Schmoll, 2018a). Therefore, it is hard to compare different fungal organisms growing in different media in the same lighting conditions.…”

Section: Discussionmentioning

confidence: 99%

Light-regulated synthesis of extra- and intracellular enzymes related to wood degradation by the white rot fungus Cerrena unicolor during solid-state fermentation on ash sawdust-based medium

et al. 2019

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The light-dependent metabolism of the white rot basidiomycete Cerrena unicolor FCL139 has already been demonstrated using transcriptomic and Biolog-based approaches. To further analyze the influence of light on C. unicolor wood degradation, we measured the activity of an array of CAZymes (carbohydrate-active enzymes) and enzymes involved in the redox system of fungal cells associated with lignolysis. Extra- and intracellular enzymatic extracts were obtained from solid-state ash sawdust C. unicolor cultures cultivated for 14 days under red, blue, green, or white light conditions, or in the dark. Light greatly influenced the synthesis of MnP, total cellulases, endo-1,4-β-glucanase, endo-1,4-β-xylanase, catalase, and superoxide dismutase. The production of MnP and catalase was evidently stimulated by white light. It is also worth noticing that blue light caused a gradual increase in the activity of total cellulases throughout the entire period of C. unicolor growth. Moreover, endo-1,4-β-glucanase showed the highest activity on day 13 of fungus cultivation and the production of laccase and β-glucosidase appeared to be the least influenced by light. However, the strongest activity of the endo-1,4-β-xylanase was observed in the dark. It seemed that light not only influenced the regulation of the synthesis of the wood-degrading enzymes at different levels, but also acted indirectly by affecting production of enzymes managing harmful lignin by-products causing oxidative stress. The ability of the fungus to decompose woody plant material is clearly influenced by environmental factors.

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Regulation of plant cell wall degradation by light in Trichoderma

Cited by 80 publications

References 122 publications

Broad substrate-specific phosphorylation events are associated with the initial stage of plant cell wall recognition inNeurospora crassa

Broad substrate-specific phosphorylation events are associated with the initial stage of plant cell wall recognition inNeurospora crassa

Regulation of the Gα-cAMP/PKA signaling pathway in cellulose utilization of Chaetomium globosum

Light-regulated synthesis of extra- and intracellular enzymes related to wood degradation by the white rot fungus Cerrena unicolor during solid-state fermentation on ash sawdust-based medium

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