Deletion analysis of the Taka-amylase A gene promoter using a homologous transformation system in Aspergillus oryzae.

The Taka-amylase A gene (amyB) of Aspergillus oryzae is induced by starch or maltose. The molecular mechanism of the induction was investigated using a fusion of the amyB promoter and the Escherichia coli uidA gene encoding beta-glucuronidase (GUS). To identify the region responsible for high-level expression and regulation within the amyB promoter, a series of deletion promoters was constructed and introduced into the A. oryzae met locus by homologous recombination. Deletion of the region between -377 to -290 (the number indicates the distance in base pairs from the translation initiation point (+1) to the deletion end point) significantly reduced of the GUS activity, but slight reduction of the GUS activity was observed in deletions up to -377. Northern blot analysis showed that reduction of the GUS activity depended upon the expression level of the GUS gene. The region between -377 to -290 is suggested to include the sequence required directly for high-level expression and regulation of the amyB gene.     

Structural and functional analysis of the amdR regulatory gene of Aspergillus oryzae.

We have isolated the Aspergillus oryzae homologue of the amdR regulatory gene of Aspergillus nidulans by cross hybridization. Sequence analysis and functional studies have shown that the amdR genes are highly conserved and functionally interchangeable between the two species. The homology between the two genes extends throughout most of the coding sequences, including sequences encoding the DNA-binding domain and putative activation domains. Two regions of nonconserved sequence were also identified. Studies using various amdS::lacZ fusion constructs indicate that the A. oryzae gene product binds similar sequences and responds to inducer in a similar manner to the A. nidulans protein. Inactivation of the A. oryzae gene results in the inability to grow on gamma-amino-butyric acid (GABA) as a carbon and/or nitrogen source indicating that GABA utilization is amdR-dependent in A. oryzae as it is in A. nidulans.     

Analysis of the Schwanniomyces occidentalis SWA2 gene promoter in Saccharomyces cerevisiae

The effect of different carbon sources on the expression in Saccharomyces cerevisiae of the SWA2 alpha-amylase gene from Schwanniomyces occidentalis was studied from constructs containing its 5' region (-223 to +15), which were fused in-frame to the lacZ gene coding sequence. Maximal expression was achieved with the non-fermentable substrates ethanol and/or glycerol, whereas lower levels were found with maltose or galactose. In contrast, glucose repressed it, even in the presence of any of these other carbon sources. Deletion analyses of the -233 to -85 SWA2 promoter region permitted the identification of two fragments involved in both glucose repression and ethanol activation. A possible region required for cAMP regulation was localised. The SWA2 promoter contains a MIG1-binding GC box whose deletion caused a five-fold increase in the glucose-repressed reporter expression. Despite this, expression of the SWA2 promoter was not MIG1-dependent.     

Development of an efficient production method for beta-mannosidase by the creation of an overexpression system in Aspergillus aculeatus

AIM: To develop an overexpression system in Aspergillus aculeatus in order to establish an efficient overproduction method of beta-mannosidase (MANB). METHODS AND RESULTS: An overexpression plasmid for the manB gene, encoding A. aculeatus MANB, was constructed and introduced into A. aculeatus cells. The gene was overexpressed under an improved promoter containing 12 copies of Region III cis-elements of Aspergillus oryzae in the transformant, and it secreted 2.56 mg MANB ml(-1) in liquid culture, which obtained a 9.4-fold higher productivity than that achieved in an overexpression system in A. oryzae. Most of the secreted protein in the cultured medium of the transformed A. aculeatus was the overproduced enzyme. CONCLUSIONS: Aspergillus aculeatus with the introduced overexpression plasmid produced 2.56 mg MANB ml(-1) in cultured medium. The improved promoter with A. oryzae Region III functioned in A. aculeatus; thus the strain is an expectant host for recombinant protein productions. SIGNIFICANCE AND IMPACT OF THE STUDY: The overexpression system with the improved promoter in A. aculeatus brought the highest productivity of MANB reported to date. The expression system would be a strong bioindustrial tool for protein production.     

Establishment of a hyper-protein production system in submerged Aspergillus oryzae culture under tyrosinase-encoding gene (melO) promoter control

UV-mediated mutagenesis generated a high glucoamylase-producing mutant of Aspergillus oryzae exhibiting strong melanization in solid-state culture. Expression of the glucoamylase-encoding gene (glaB), which is specifically expressed in solid-state culture, and the tyrosinase-encoding gene (melO), was analyzed using an E. coli beta-glucuronidase (GUS) reporter assay to investigate this phenomenon. Although no common regulation was found for melO and glaB expression, the former was greatly enhanced in submerged culture. Interestingly, the melO promoter was about four times stronger for GUS production than the powerful promoters amyB, glaA, and modified agdA, previously isolated for industrial heterologous gene expression in A. oryzae. These findings indicated that the melO promoter would be suitable for hyper-production of heterologous protein in Aspergillus. The glaB-type glucoamylase selected as the target protein was produced in a submerged culture of A. oryzae under the control of the melO promoter. The maximum yield was 0.8 g/l broth, and the total extracellular protein purity was 99%. Repeated batch culture, to improve productivity, gave a maximum yield of 3.3 g/l broth. The importance of this work is in the establishment of a both high-level and high-purity protein overproduction system in A. oryzae by use of the melO promoter.     

Efficient heterologous expression in Aspergillus oryzae of a unique dye-decolorizing peroxidase, DyP, of Geotrichum candidum Dec 1

Efficient expression of the dye-decolorizing peroxidase, DyP, from Geotrichum candidum Dec 1 in Aspergillus oryzae M-2-3 was achieved by fusing mature cDNA encoding dyp with the A. oryzae alpha-amylase promoter (amyB). The activity yield of the purified recombinant DyP (rDyP) was 42-fold compared with that of the purified native DyP from Dec 1. No exogenous heme was necessary for the expression of rDyP in A. oryzae. From the N-terminal amino acid sequence analyses of native DyP and rDyP, the absence of a histidine residue in both DyPs, which was considered to be important for heme binding of DyP, was confirmed. These results suggest that rDyP without a typical heme-binding region produced by A. oryzae exhibits a function similar to that of native DyP.     

Pancreatic beta cell-specific transcription of the pdx-1 gene. The role of conserved upstream control regions and their hepatic nuclear factor 3beta sites

To identify potential transactivators of pdx-1, we sequenced approximately 4.5 kilobases of the 5' promoter region of the human and chicken homologs, assuming that sequences conserved with the mouse gene would contain critical cis-regulatory elements. The sequences associated with hypersensitive site 1 (HSS1) represented the principal area of homology within which three conserved subdomains were apparent: area I (-2694 to -2561 base pairs (bp)), area II (-2139 to -1958 bp), and area III (-1879 to -1799 bp). The identities between the mouse and chicken/human genes are very high, ranging from 78 to 89%, although only areas I and III are present within this region in chicken. Pancreatic beta cell-selective expression was shown to be controlled by mouse and human area I or area II, but not area III, from an analysis of pdx-1-driven reporter activity in transfected beta- and non-beta cells. Mutational and functional analyses of conserved hepatic nuclear factor 3 (HNF3)-like sites located within area I and area II demonstrated that activation by these regions was mediated by HNF3beta. To determine if a similar regulatory relationship might exist within the context of the endogenous gene, pdx-1 expression was measured in embryonic stem cells in which one or both alleles of HNF3beta were inactivated. pdx-1 mRNA levels induced upon differentiation to embryoid bodies were down-regulated in homozygous null HNF3beta cells. Together, these results suggest that the conserved sequences represented by areas I and II define the binding sites for factors such as HNF3beta, which control islet beta cell-selective expression of the pdx-1 gene.     

Development of Aspergillus oryzae thiA promoter as a tool for molecular biological studies

In filamentous fungi, the repertoire of promoters available for exogenous gene expression is limited. Here, we report the development and application of the thiamine-regulatable thiA promoter (PthiA) in Aspergillus oryzae as a tool for molecular biological studies. When PthiA was used to express the enhanced green fluorescent protein (EGFP) reporter, the fluorescence in the mycelia was either repressed or induced in the presence or absence of thiamine in the culture media, respectively. In addition, the expression level from the thiA promoter can be controlled by the concentration of external thiamine. Thiamine content in the media did not affect mycelial morphology, making the thiA promoter more useful compared with alcA and amyB promoters that depend on carbon source for regulation. Moreover, as the A. oryzae thiA promoter was also regulated by thiamine in A. nidulans, this promoter can be further applied as an inducible promoter in other Aspergilli.     

The Fugu rubripes tyrosinase gene promoter targets transgene expression to pigment cells in the mouse

The regulation of the mouse tyrosinase gene expression is controlled by a highly conserved element at -100 bp, the M-box, and an enhancer at -12 kb. In most vertebrates, the length of intergenic sequences makes it difficult to analyze the whole gene and the complete regulatory region. We took advantage of the compact Fugu genome to identify regulatory regions involved in pigment cell-specific expression. We isolated the Fugu tyrosinase gene, and identified putative cis-acting regulatory elements within the promoter. We then asked whether the Fugu promoter sequence functions in mouse pigment cells. We showed that E11.5 transgenic embryos bearing 6 kb or 3 kb of Fugu tyrosinase 5' sequence fused to the reporter gene lacZ revealed melanoblast and RPE-specific expression. This is the first evidence that the tyrosinase promoter is active at midgestation in melanoblasts, long before the onset of pigmentation.