They have a very well-conserved active site (LDGLDLDVE) in common with Endo T and could also represent enzymes with ENGase activity. From the phylogenetic analysis, the presence of multiple copies of the gene during evolution can be assumed, with H. jecorina having retained only a single copy. The theoretical values of the Endo T molecular learn more mass (AEP-VNA: 36 349 Da) differ from those observed by SDS-PAGE (33 kDa) and ESI-MS (32 102 Da). This suggests that the protein is further processed. Several facts indicate trimming at the C-terminus. Firstly, with C-terminal sequencing, only a Glu residue could be determined, probably
due to the presence of a Pro residue as the penultimate amino acid residue (e.g. P289–E290). Secondly, by fingerprint analysis, peptide fragments carrying E290 at their C-terminus were observed. Finally, the mass of the protein sequence A1-E290 (and two GlcNAc residues at two sequons)
approximates the value determined by MS. One of the four potential N-glycosylation sites (Asn316) is then located in the C-terminal processed peptide. C-terminal processing has been reported previously with T. reesei proteins [e.g. cellulases in Messner et al. (1988); Hagspiel et al. (1989); Mischak et al. (1989); Chen et al. (1993) and a tyrosinase in Selinheimo Enzalutamide cost et al. (2006)]. Further research is needed to elucidate the role of this C-terminal processing. The substrate specificity of Endo T resembles that of Streptomyces Endo H and F. meningosepticum Endo F1 (Trimble et al., 1987; Tarentino et al., 1992): oligomannosidic, phosphorylated and hypermannosylated-type glycoproteins are good substrates, whereas complex-type glycans are not hydrolysed. Although the enzyme shows isology with fungal chitinases, this activity could not be detected.
When different filamentous fungi were cultivated in Sabouraud liquid medium, all examined Carnitine palmitoyltransferase II Trichoderma species (T. pseudokoningii, T. longibrachiatum, T. reesei, T. atroviride, T. koningii, T. hamatum, T. harzianum and T. crassum) secreted ENGase activity. Although A. oryzae carries two highly similar genes (Machida et al., 2005) and activity was observed before (Hitomi et al., 1985), no ENGase activity could be detected in our study. The absence of ENGase activity in this strain could be due to suboptimal growth conditions unfavourable for enzyme secretion. Among the fungi that carry a similar gene, only M. grisea strain GUY II was found to be positive. ENGase activity was detected in the cultivation medium of T. reesei with a high glucose content (e.g. Sabouraud liquid medium). Under these conditions, cellobiohydrolase/endoglucanase activity was absent due to induction and glucose repression mechanisms regulating cellulase activity (Ilmen et al., 1996). Thus, in agreement with the study of Foreman et al. (2003), secretion of Endo T seems not to be coregulated with cellulase expression.