CreA-mediated repression of gene expression occurs at low monosaccharide levels during fungal plant biomass conversion in a time and substrate dependent manner

Mao Peng, Claire Khosravi, Ronnie J M Lubbers, Roland S Kun, Maria Victoria Aguilar Pontes, Evy Battaglia, Cindy Chen, Sacha Dalhuijsen, Paul Daly, Anna Lipzen, Vivian Ng, Juying Yan, Mei Wang, Jaap Visser, Igor V Grigoriev, Miia R Mäkelä, Ronald P de Vries

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Carbon catabolite repression enables fungi to utilize the most favourable carbon source in the environment, and is mediated by a key regulator, CreA, in most fungi. CreA-mediated regulation has mainly been studied at high monosaccharide concentrations, an uncommon situation in most natural biotopes. In nature, many fungi rely on plant biomass as their major carbon source by producing enzymes to degrade plant cell wall polysaccharides into metabolizable sugars. To determine the role of CreA when fungi grow in more natural conditions and in particular with respect to degradation and conversion of plant cell walls, we compared transcriptomes of a creA deletion and reference strain of the ascomycete Aspergillus niger during growth on sugar beet pulp and wheat bran. Transcriptomics, extracellular sugar concentrations and growth profiling of A. niger on a variety of carbon sources, revealed that also under conditions with low concentrations of free monosaccharides, CreA has a major effect on gene expression in a strong time and substrate composition dependent manner. In addition, we compared the CreA regulon from five fungi during their growth on crude plant biomass or cellulose. It showed that CreA commonly regulated genes related to carbon metabolism, sugar transport and plant cell wall degrading enzymes across different species. We therefore conclude that CreA has a crucial role for fungi also in adapting to low sugar concentrations as occurring in their natural biotopes, which is supported by the presence of CreA orthologs in nearly all fungi.

Original languageEnglish
Article number100050
Pages (from-to)1-11
JournalThe Cell Surface
Volume7
DOIs
Publication statusPublished - Dec 2021

Keywords

  • creA
  • Carbon catabolite repression
  • Transcription factor
  • Aspergillus niger
  • Fungal plant biomass conversion

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