Manuela Pail scite author profile

The 5' regulatory region of the cbh2 gene of Hypocrea jecorina contains the cbh2 activating element (CAE) which is essential for induction of cbh2 gene expression by sophorose and cellulose. The CAE consists of two motifs, a CCAAT box on the template strand and a GTAATA box on the coding strand, which cooperate during induction. Northern analyses of cbh2 gene expression has revealed an absolute dependence on induction, but no direct effect of Cre1-mediated carbon catabolite repression. Investigation of the chromatin structure in the wild-type strain showed that, under repressing conditions, there is a nucleosome free region (nfr) around the CAE, which is flanked by strictly positioned nucleosomes. Induction results in a loss of positioning of nucleosomes -1 and -2 downstream of the CAE, thus making the TATA box accessible. Simultaneous mutation of both motifs of the CAE, or of the CCAAT-box alone, also leads to shifting of nucleosome -1, which normally covers the TATA-box under repressing conditions, whereas mutation of the GTAATA element results in a narrowing of the nfr, indicating that the proteins that bind to both motifs in the CAE interact with chromatin, although in different ways. A cellulase-negative mutant strain, which has previously been shown to be altered in protein binding to the CAE, still displayed the induction-specific changes in nucleosome structure, indicating that none of the proteins that directly interact with CAE are affected, and that nucleosome rearrangement and induction of cbh2 expression are uncoupled. Interestingly, the carbon catabolite repressor Cre1 is essential for strict nucleosome positioning in the 5' regulatory sequences of cbh2 under all of the conditions tested, and induction can occur in a promoter that lacks positioned nucleosomes. These data suggest that Cre1, the Hap2/3/5 complex and the GTAATA-binding protein are all involved in nucleosome assembly on the cbh2 promoter, and that the latter two respond to inducing conditions by repositioning nucleosome -1.

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The d‐xylose reductase of Hypocrea jecorina is the major aldose reductase in pentose and d‐galactose catabolism and necessary for β‐galactosidase and cellulase induction by lactose

Schink

Gamauf

Pail

et al. 2007

Molecular Microbiology

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The galactokinase of Hypocrea jecorina is essential for cellulase induction by lactose but dispensable for growth on d‐galactose

Schink

Hartl

Pail

et al. 2003

Molecular Microbiology

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SummaryLactose is the only soluble carbon source which can be used economically for the production of cellulases or heterologous proteins under cellulase expression signals by Hypocrea jecorina (= Trichoderma reesei ). Towards an understanding of lactose metabolism and its role in cellulase formation, we have cloned and characterized the gal1 (galactokinase) gene of H. jecorina , which catalyses the first step in D -galactose catabolism. It exhibits a calculated M r of 57 kDa, and shows moderate identity (about 40%) to its putative homologues of Saccharomyces cerevisiae and Kluyveromyces lactis . Gal1 is a member of the GHMP family, shows conservation of a Gly/Ser rich region involved in ATP binding and of amino acids (Arg 51, Glu 57, Asp 60, Asp 214, Tyr 270) responsible for galactose binding. A single transcript was formed constitutively during the rapid growth phase on all carbon sources investigated and accumulated to about twice this level during growth on D -galactose, L -arabinose and their corresponding polyols. Deletion of gal1 reduces growth on D -galactose but does only slightly affect growth on lactose. This is the result of the operation of a second pathway for D -galactose catabolism, which involves galactitol as an intermediate, and whose transient concentration is strongly enhanced in the delta-gal1 strain. In this pathway, galactitol is catabolised by the lad1 -encoded L -arabinitol-4-dehydrogenase, because a gal1 / lad1 double delta-mutant failed to grow on D -galactose. In the delta-gal1 strain, induction of the Leloir pathway gene gal7 (encoding galactose-1-phosphate uridylyltransferase) by D -galactose, but not by L -arabinose, is impaired. Induction of cellulase gene expression by lactose is also impaired in a gal1 deleted strain, whereas their induction by sophorose (the putative cellulose-derived inducer) was shown to be normal, thus demonstrating that galactokinase is a key enzyme for cellulase induction during growth on lactose, and that induction by lactose and sophorose involves different mechanisms.

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d -Xylose Metabolism in Hypocrea jecorina : Loss of the Xylitol Dehydrogenase Step Can Be Partially Compensated for by lad1 -Encoded l -Arabinitol-4-Dehydrogenase

et al. 2003

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Manuela Pail

Nucleosome transactions on the Hypocrea jecorina ( Trichoderma reesei) cellulase promoter cbh2 associated with cellulase induction

The d‐xylose reductase of Hypocrea jecorina is the major aldose reductase in pentose and d‐galactose catabolism and necessary for β‐galactosidase and cellulase induction by lactose

The galactokinase of Hypocrea jecorina is essential for cellulase induction by lactose but dispensable for growth on d‐galactose

d -Xylose Metabolism in Hypocrea jecorina : Loss of the Xylitol Dehydrogenase Step Can Be Partially Compensated for by lad1 -Encoded l -Arabinitol-4-Dehydrogenase

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