cerevisiae Gal2p being the basal protein (E Fekete, E Sándor, C

cerevisiae Gal2p being the basal protein (E. Fekete, E. Sándor, C.P. Kubicek and L. Karaffa, PD0325901 concentration unpublished). Their function is currently investigated by us. In any case, it is clear from our experiments, however, that the transport of d-galactose is not functional in the conidiospores of A. niger. While the reason for this unknown, our data suggest that d-galactose uptake in A. niger is growth stage dependent; for example, it is expressed in mycelia but not in resting conidia, resembling the behaviour of certain permeases from T. reesei (Metz et al., 2011) and

A. nidulans (Tazebay et al., 1997; Amillis et al., 2004; Pantazopoulou et al.,2007). d-Galactose metabolism via the Leloir pathway is a ubiquitous trait in pro- and eukaryotic cells (Frey, 1996). It involves an ATP-dependent galactokinase (EC 2.7.1.6) to form d-galactose 1-phosphate, which is subsequently transferred to UDP-glucose in exchange with d-glucose 1-phosphate by d-galactose 1-phosphate uridylyltransferase (EC 2.7.7.12). The resulting UDP-galactose is a substrate for the reaction catalysed by UDP-galactose 4-epimerase (EC 5.1.3.2), resulting www.selleckchem.com/products/jq1.html in UDP-glucose. While we did not determine specific enzyme activities apart from that of galactokinase, gene expression

data strongly suggest that the Leloir pathway is readily available to convert d-galactose once this sugar is inside of the cell, which occurs only in the mycelial stage of A. niger. In the conidiosporal stage, however, expression of the genes encoding the first two enzymes of the Leloir pathway was hardly detected, and weak expression was observed for the other three genes of the pathway as

well. As we demonstrated that the conidia are unable to transport d-galactose, we conclude that the d-galactose-negative phenotype of the A. niger is unlikely to be caused by a lack of d-galactose catabolism. Rather, the phenomenon seems to be mainly uptake related in conidiospores. Therefore, the reduced expression observed for the Tau-protein kinase Leloir genes in conidiospores may be due to the lack of inducer (d-galactose) uptake and appears to be a secondary effect rather than the cause of the nongrowth phenotype. Future studies will address this in more detail. The project was carried out in the framework of an Austrian-Hungarian Intergovernmental Science & Technology Cooperation Programme (AT-18/2007). Research at the University of Debrecen was supported by the Hungarian Scientific Research Fund (OTKA; K67667 and K1006600) and the National Office for Research and Technology (NKTH; A2-2006-0017). E.F. is supported by a Bolyai János Research Scholarship (BO/00519/09/8). B.S. was supported by the Austrian Science Foundation (P19421). “
“Cordyceps militaris is considered a model organism for the study of Cordyceps species, which are highly prized in traditional Chinese medicine. Gene expression analysis has become more popular and important in studies of this fungus.

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