(1993). To evaluate the effect of seed media on the AlX expression of transformants, two seed media (Sabouraud’s and wheat flour media) were tried. AlX expression was found to be highest in transformants grown in Sabouraud’s media (41.91–91.4 U mg−1) in comparison with wheat flour media
(5.61–20.72 U mg−1). This may be because of better growth of transformants in Sabouraud’s media than in wheat flour media. Wheat bran is considered as one of the most popular components of complex media for xylanase production (Deschamps & Huet, 1985; Hoq et al., 1994; Sa-Pereira et al., 2002). Many authors reported the advantages of using wheat bran as a substrate for xylanase production, and therefore for functional characterization; wet wheat bran was used as production medium. In Sabouraud’s media,
transformants A1–A10 showed AlX activity in the range Selleckchem BGB324 of 46.66–80.74 U mg−1, which showed B-Raf inhibition a 3.21-fold increase in AlX activity. This might be attributed to TATA box present at −59 position in Pcat300. The TATA box was the first core promoter element identified in eukaryotic protein-coding genes (Breathnach & Chambon, 1981). In Sabouraud’s media, transformants K1–K10 showed AlX activity in the range of 41.91–91.4 U mg−1, which showed a 3.64-fold increase in AlX activity that might be attributed to two TATAA boxes at position −59 and −359 and two CCAAT motifs lying at positions −355 and −590. As reported by Bucher (1990),
in filamentous fungi and higher eukaryotes, the CCAAT motif is an essential and functional element for high-level expression of a large number of genes. The region from −59 to −590 contains the two TATAA and two CCAAT boxes and thus was involved in strong expression. As also suggested by Liu et al. (2003), multiple copies of CCAAT motifs improved the heterologous protein production in A. niger. Results discussed here indicated that there was no significant increase in specific activity in K transformants despite two CCAAT and two TATAA boxes, perhaps because of three cre1-binding sites (5′-SYGGRG-3′) present at −98, −613 and −900, which are responsible for repression by glucose. In wheat flour media, transformants A1–A10 showed AlX activity in the range of 5.75–7.67 U mg−1, Nintedanib (BIBF 1120) which showed a 3.95-fold increase in AlX activity. In contrast, transformants K1–K10 showed AlX activity in the range of 5.85–20.72 U mg−1, showing a 10.3-fold increase in AlX activity. This increase might be attributed to two TATAA boxes, two CCAAT motifs and absence of repression created by binding of glucose with three cre1-binding sites (5′-SYGGRG-3′) because of absence of glucose in wheat flour medium. Similarly, Roth et al. (2007), using the Psuc1 promoter, observed a sevenfold increased GFP fluorescence in recombinant A. niger strain. High expression levels and induction of the A.