Molecular cloning,purification and characterization of two endo-1,4-β-glucanases from Aspergillus oryzae KBN616

Two endo-1,4-β-glucanase genes, designated celA and celB, from a shoyu koji mold Aspergillus oryzae KBN616, were cloned and characterized. The celA gene comprised 877 bp with two introns. The CelA protein consisted of 239 amino acids and was assigned to the cellulase family H. The celB gene comprised 1248 bp with no introns. The CelB protein consisted of 416 amino acids and was assigned to the cellulase family C. Both genes were overexpressed under the promoter of the A. oryzae taka-amylase A gene for purification and enzymatic characterization of CelA and CelB. CelA had a molecular mass of 31 kDa, a pH optimum of 5.0 and temperature optimum of 55 °C, whereas CelB had a molecular mass of 53 kDa, a pH optimum of 4.0 and temperature optimum of 45 °C. Received: 3 July 1996 / Accepted: 15 July 1996     

Nucleotide sequences of two contiguous and highly homologous xylanase genes xynA and xynB and characterization of XynA from Clostridium thermocellum

A 5.7-kbp region of the Clostridium thermocellum F1 DNA was sequenced and found to contain two contiguous and highly homologous xylanase genes, xynA and xynB. The xynA gene encoding the xylanase XynA consists of 2049 bp and encodes a protein of 683 amino acids with a molecular mass of 74 511 Da, and the xynB gene encoding the xylanase XynB consists of 1371 bp and encodes a protein of 457 amino acids with a molecular mass of 49 883 Da. XynA is a modular enzyme composed of a typical N-terminal signal peptide and four domains in the following order: a family-11 xylanase domain, a family-VI cellulose-binding domain, a dockerin domain, and a NodB domain. XynB exhibited extremely high overall sequence homology with XynA (identity 96.9%), while lacking the NodB domain present in the latter. These facts suggested that the xynA and xynB genes originated from a common ancestral gene through gene duplication. XynA was purified from a recombinant Escherichia coli strain and characterized. The purified enzyme was highly active toward xylan; the specific activity on oat-spelt xylan was 689 units/mg protein. Immunological and zymogram analyses suggested that XynA and XynB are components of the C. thermocellum F1 cellulosome. Received: 21 September 1998 / Received revision: 30 October 1998 / Accepted: 29 November 1998     

Utilization of the TEF1-a gene (TEF1) promoter for expression of polygalacturonase genes, pgaA and pgaB, in Aspergillus oryzae

For the development of an efficient gene expression system in a shoyu koji mold Aspergillus oryzae KBN616, the TEF1 gene, encoding translation-elongation factor 1α, was cloned from the same strain and used for expression of polygalacturonase genes. The TEF1 gene comprised 1647 bp with three introns. The TEF1-α protein consisted of 460 amino acids possessing high identity to other fungal TEF proteins. Two nucleotide sequences homologous to the upstream activation sequence, characterized for the ribosomal protein genes in Saccharomyces cerevisiae, as well as the pyrimidine-rich sequences were present in the TEF1 gene promoter region, suggesting that the A. oryzae TEF1 gene has a strong promoter activity. Two expression vectors, pTFGA300 and pTFGB200 for production of polygalacturonases A and B respectively, were constructed by using the TEF1 gene promoter. A polygalacturonase (PGB) gene cloned from the same strain comprised 1226 bp with two introns and encoded a protein of 367 amino acids with high similarity to other fungal polygalacturonases. PGA and PGB were secreted at approximately 100 mg/l in glucose medium and purified to homogeneity. PGA had a molecular mass of 41 kDa, a pH optimum of 5.0 and temperature optimum of 45 °C. PGB had a molecular mass of 39 kDa, a pH optimum of 5.0 and temperature optimum of 55 °C. Received: 28 November 1997 / Received revision: 24 February 1998 / Accepted: 6 March 1998     

α-Amylase production in high cell density submerged cultivation of Aspergillus oryzae and A. nidulans

The effect of biomass concentration on the formation of Aspergillus oryzaeα-amylase during submerged cultivation with A. oryzae and recombinant A. nidulans strains has been investigated. It was found that the specific rate of α-amylase formation in chemostats decreased significantly with increasing biomass concentration in the range of approx. 2–12 g dry weight kg⁻¹. When using a recombinant A. nidulans strain in which the gene responsible for carbon catabolite repression of the A. oryzaeα-amylase gene (creA) was deleted, no significant decrease in the specific rate of α-amylase formation was observed. On the basis of the experimental results, it is suggested that the low value of the specific α-amylase productivity observed at high biomass concentration is caused by slow mixing of the concentrated feed solution in the viscous fermentation medium. Received: 13 January 2000 / Received revision: 30 June 2000 / Accepted: 1 July 2000     

Molecular cloning and characterization of a gene encoding glutaminase from Aspergillus oryzae

 A glutaminase from Aspergillus oryzae was purified and its molecular weight was determined to be 82,091 by matrix-assisted laser desorption ionization time-of-flight mass spectrometry. Purified glutaminase catalysed the hydrolysis not only of l-glutamine but also of d-glutamine. Both the molecular weight and the substrate specificity of this glutaminase were different from those reported previously [Yano et al. (1998) J Ferment Technol 66: 137–143]. On the basis of its internal amino acid sequences, we have isolated and characterized the glutaminase gene (gtaA) from A. oryzae. The gtaA gene had an open reading frame coding for 690 amino acid residues, including a signal peptide of 20 amino acid residues and a mature protein of 670 amino acid residues. In the 5′-flanking region of the gene, there were three putative CreAp binding sequences and one putative AreAp binding sequence. The gtaA structural gene was introduced into A. oryzae NS4 and a marked increase in activity was detected in comparison with the control strain. The gtaA gene was also isolated from Aspergillus nidulans on the basis of the determined nucleotide sequence of the gtaA gene from A. oryzae. Received: 23 August 1999 / Received last revision: 7 January 2000 / Accepted: 14 January 2000     

Evidence for and expression of a laccase gene in three basidiomycetes degrading humic acids

The majority of lignin-degrading basidiomycetes are able to depolymerize humic acids. In this presentation the relationship and possible similarities between enzymes involved in lignin degradation and humic acid depolymerization were examined on the genetic level. We have cloned fragments of the gene encoding the extracellular ligninolytic enzyme laccase from Clitocybula dusenii, Nematoloma frowardii and a fungal strain designated i63-2, and compared the three sequences with those of several other published laccase genes. The sequenced fragments displayed a high homology both on the DNA (97%–77%) and amino acid (100%–85%) level. Furthermore, the expression of this gene in the above-mentioned fungi was demonstrated by a nested polymerase chain reaction with cDNA as template. Received: 3 February 1998 / Received revision: 31 August 1998 / Accepted: 3 September 1998     

Cloning and characterization of a gene (arpA) from Aspergillus oryzae encoding an actin-related protein required for normal nuclear distribution and morphology of conidiophores

We have isolated the arpA gene from Aspergillus oryzae as a homologue of the Neurospora crassa ro-4 gene. In N. crassa, mutations in the ro-4 gene, which encodes a major component of the dynactin complex Arp1, causes curling of hyphae and abnormalities in nuclear distribution. The arpA gene contains two introns and encodes a polypeptide of 381 amino acids, with a 78% sequence identity to the N. crassa Arp1. Overexpression of the arpA gene causes a defect in nuclear migration into elongating hyphae of germlings in A. oryzae. We constructed arpA disruptant strains of A. oryzae. The arpA null mutants showed poor growth and hyper-branched mycelia, as well as a nuclear distribution defect. Scanning electron microscopy revealed that the arpA null mutant has an aberrant conidiophore morphology with irregular phialides. Received: 26 January 1999 / Accepted: 22 July 1999     

Microorganism inactivation using high-pressure generation in sealed vessels under sub-zero temperature

In order to test the possibility of utilizing high pressure in bioscience and biotechnology, a simple method for high-pressure generation and its use for microbial inactivation have been studied. When a pressure vessel was filled with water, sealed tightly and cooled to sub-zero temperatures, high pressure was generated in the vessel. The pressure generation was 60 MPa at −5 °C, 103 MPa at −10 °C, and 140 MPa at −15 °C, −20 °C, and −22 °C. The high pressure generated inactivated microorganisms effectively: yeasts (Saccharomyces cerevisiae and Zygosaccharomyces rouxii), bacteria (Lactobacillus brevis and Eschericia coli), and fungi (Aspergillus niger and Aspergillus oryzae) were completely inactivated when stored in sealed vessels −20 °C for 24 h. However, Staphylococcus aureus was only partly inactivated under the same conditions. This method opens up a new application of high pressure for storing, transporting, and sterilizing of foods and biological materials. Received: 28 July 1997 / Received last revision: 12 June 1998 / Accepted: 19 June 1998     

Analysis of the role of the gene bipA, encoding the major endoplasmic reticulum chaperone protein in the secretion of homologous and heterologous proteins in black Aspergilli

The function of the endoplasmic-reticulum-localized chaperone binding protein (BiP) in relation to protein secretion in filamentous fungi was studied. It was shown that the overproduction of several homologous and heterologous recombinant proteins by Aspergillus strains induces the expression of bipA, the BiP-encoding gene from Aspergillus niger and Aspergillus awamori. As this result could imply that BiP plays a role in protein overproduction, the effect of modulation of bipA gene expression on protein secretion was studied in several recombinant strains expressing glucoamylase (glaA) fusion genes. For overproduction of BiPA in these strains, extra copies of the bipA gene under the control of an inducible promoter were introduced. To allow analysis of the effect of a decreased bipA expression level on protein secretion, replacement of the wild-type gene for a bipA gene driven by the glaA promoter was attempted. However, this endeavour failed because of the lethality of this replacement. Although the final amount of secreted recombinant protein did not change significantly in strains with increased BiPA levels, increased levels of unprocessed fusion protein were detected in the total protein extracts of these strains. Received: 9 February 1998 / Received last revision: 26 May 1998 / Accepted: 14 June 1998     

The NADP-dependent glutamate dehydrogenase gene from Penicillium chrysogenum and the construction of expression vectors for filamentous fungi

The gdhA gene encoding the NADP-dependent glutamate dehydrogenase activity from Penicillium chrysogenum has been isolated and characterized for its use in gene expression. The nucleotide sequence of a 2816-bp genomic fragment was determined, showing an open reading frame of 1600 bp interrupted by two introns, of 160 bp and 57 bp respectively, with fungal consensus splice-site junctions. The predicted amino acid sequence revealed a high degree of identity to glutamate dehydrogenase enzymes, especially to those from the fungi Aspergillus nidulans (82%) and Neurospora crassa (78%). The gdhA gene was found to be present in a single copy in the genome of several P. chrysogenum strains with different penicillin productivity. The use of the gdhA promoter for homologous and heterologous gene expression in fungi and Escherichia coli was analyzed. Heterologous gene expression was ascertained by the construction of gene fusions with the lacZ gene from E. coli and the bleomycin-resistance determinant (ble ^R) from Streptoalloteichus hindustanus. Homologous gene expression was shown through the use of the penicillin-biosynthetic genes pcbC and penDE from P. chrysogenum and the cephalosporin biosynthetic genes cefEF and cefG from Acremonium chrysogenum. Received: 2 November 1998 / Received revision: 15 January 1999 / Accepted: 5 March 1999     

Improvement of tempe fermentations by application of mixed cultures consisting of Rhizopus sp. and bacterial strains

Tempe fermentations using mixed cultures of Rhizopus oligosporus MS5, R. oryzae EN, Citrobacter freundii, and Brevibacterium epidermidis were investigated. Consumption of 150 g tempe, produced with a pure fungal mixed culture out of strains MS5 and EN, is sufficient to cover the daily requirements of niacin, vitamin K, ergosterol, and tocopherol as well as half of the daily requirement of pyridoxine, riboflavin, and biotin. Moreover, one-fourth of the recommended amount of folate is supplied. Supplementation of the fungal inoculum with C. freundii results in tempe enriched with vitamin B₁₂. Menachinone was produced as a typical bacterial vitamin K derivative. Metabolic activity of C.␣freundii led to an additional decrease of the α-galactosides stachyose and raffinose compared to pure fungal fermentations. No bacterial formation of factor 2 could be observed. Received: 31 July 1996 / Received revision: 4 October 1996 / Accepted: 14 October 1996     

High-level expression of the angiotensin-converting-enzyme-inhibiting peptide, YG-1, as tandem multimers in Escherichia coli

To produce a large quantity of the angiotensin-converting-enzyme(ACE)-inhibiting peptide YG-1, which consists of ten amino acids derived from yeast glyceraldehyde-3-phosphate dehydrogenase, a high-level expression was explored with tandem multimers of the YG-1 gene in Escherichia coli. The genes encoding YG-1 were tandemly multimerized to 9-mers, 18-mers and 27-mers, in which each of the repeating units in the tandem multimers was connected to the neighboring genes by a DNA linker encoding Pro-Gly-Arg for the cleavage of multimers by clostripain. The multimers were cloned into the expression vector pET-21b, and expressed in E. coli BL21(DE3) with isopropyl β-d-thiogalactopyranoside induction. The expressed multimeric peptides encoded by the 9-mer, 18-mer and 27-mer accumulated intracellularly as inclusion bodies and comprised about 67%, 25% and 15% of the total proteins in E. coli respectively. The multimeric peptides expressed as inclusion bodies were cleaved with clostripain, and active monomers were purified to homogeneity by reversed-phase high-performance liquid chromatography. In total, 105 mg pure recombinant YG-1 was obtained from 1 l E. coli culture harboring pETYG9, which contained the 9-mer of the YG-1 gene. The recombinant YG-1 was identical to the natural YG-1 in molecular mass, amino acid sequence and ACE-inhibiting activity. Received: 6 January 1998 / Received revision: 23 February 1998 / Accepted: 24 February 1998     

Two xylanase genes of the vascular wilt pathogen Fusarium oxysporum are differentially expressed during infection of tomato plants

Two genes encoding putative family F xylanases from the tomato vascular wilt pathogen Fusarium oxysporum f.sp. lycopersici have been cloned and sequenced. The two genes, designated xyl2 and xyl3, encode proteins with calculated molecular masses of 33 and 39.3 kDa and isoelectric points of 8.9 and 6.7, respectively. The predicted amino acid sequences show significant homology to other family F xylanases. XYL3 contains a cellulose-binding domain in its N-terminal region. Southern analysis suggested that xyl2 and xyl3 homologs are also present in other formae speciales of F. oxysporum. Both genes were expressed during growth on oat spelt xylan and tomato vascular tissue in vitro. RT-PCR revealed that xyl3 is expressed in roots and in the lower stems of tomato plants infected by F. oxysporum f.sp. lycopersici throughout the whole disease cycle, whereas xyl2 is only expressed during the final stages of disease. Received: 1 June 1998 / Accepted: 25 December 1998     

Zn biosorption by Rhizopus arrhizus and other fungi

Biosorption of zinc ions by inactivated fungal mycelia was studied. Of the six fungal species, Rhizopus arrhizus, Mucor racemosus, Mycotypha africana, Aspergillus nidulans, Aspergillus niger and Schizosaccharomyces pombe, R. arrhizus exhibited the highest capacity (Q ^max = 213 μmol g⁻¹ dry weight). Further experiments with different cellular fractions of R. arrhizus showed that Zn was predominantly bound to cell-wall chitin and chitosan (Q ^max = 312 μmol g⁻¹ dry weight). Adsorption data were best modelled by the Langmuir isotherm, although they can be modelled by the Freundlich equation as well at relatively low aqueous concentrations. Biosorption generally decreased with increase in biosorbent particle size and its concentration. Low pH reduced Zn sorption, because of the strong competition from hydrogen ions for binding sites on fungi. The presence of ligands reduced metal uptake, chiefly by forming metal complexes of a less biosorbable nature. Received: 2 November 1998 / Received revision: 12 January 1999 / Accepted: 17 January 1999     

Regulation and cloning of microbial chitinase genes

A range of chitinase genes from microorganisms have been cloned and the potential uses of these genetically manipulated organisms are being investigated by various researchers. Fungi and yeast are better producers of chitinase than bacteria. Since fungi grow at a slower rate, there have been efforts to clone the fungal chitinase genes into fast-growing bacteria. This review gives a brief survey of recent progress in the regulation and cloning of microbial chitinase genes. Emphasis is placed on the post-translational modification and localization of the recombinant protein in the host. Various amino acid domains are present in this protein. The mode of catalytic activity of the recombinant protein in comparison to the wild-type protein is discussed in the available literature. The different mechanisms involved in the regulation of chitinase genes from various microorganisms is discussed by the researchers. The scope of future research and conclusions yet to be obtained in this particular area are also outlined in this review. Received: 13 July 1998 / Received revision: 28 October 1998 / Accepted: 30 October 1998     

Influence of microbial concentration on the rheology of non-Newtonian fermentation broths

The objective of this study was to quantify the effect of fungal biomass concentration on the rheology of non-Newtonian fermentation systems. Batch fermentations of Penicillium chrysogenum were carried out with glucose as the sole carbon source. The flow behavior of the system was characterized at various fermentation times and was adequately described by the power-law model. The apparent viscosity of the fermentation broth was significantly affected by biomass concentrations in the fermenter. Fermentation broths containing 17.71 g/l biomass as dry weight were characterized by an apparent viscosity of 0.25 Pa s at a shear rate of 50 s⁻¹. Microbial concentration also affected the power-law flow-behavior index and the consistency index. The value of the consistency index ranged from 0.002 Pa s ⁿ at a biomass concentration of 0.1 g/l to 6.14 Pa s ⁿ at a biomass concentration of 17.71 g/l. The flow-behavior index decreased from an initial value of 1 to a final value of 0.17. Simple empirical correlations have been proposed to quantify the dependence of the power-law parameters on fungal biomass concentration. Experimental data obtained in this study were accurately described by these correlations. The general applicability of these relationships was tested, using previously published rheological data on Aspergillus awamori and Aspergillus niger fermentation broths, and good agreement was seen between experimental data and the predictions from the empirical correlations. Received: 24 March 1998 / Received revision: 10 September 1998 / Accepted: 16 October 1998     

Construction of a low-serine-type-carboxypeptidase-producing mutant of Aspergillus oryzae by the expression of antisense RNA and its use as a host for heterologous protein secretion

Using an antisense control strategy, we isolated an Aspergillus oryzae mutant that produced low levels of carboxypeptidases (CPases). The mutant TF_C-1 expressed the antisense RNA of the structural gene of CPase O and showed about 30% of the CPase activity in the parent strain. Gel filtration analysis indicated that this mutant decreased the CPase activities not only of CPase O but also of CPase O-1 and O-2. This result indicated that the antisense RNA was able to control the expression of the CPase genes as a group. Using the mutant as a heterologous protein expression host that produced the low levels of CPases, a stable and higher level of lysozyme expression could be obtained compared with the wild-type. In vitro proteolytic degradation assay also demonstrated that human lysozyme was degraded by purified CPase O. Received: 16 June 1997 / Received last revision: 29 August 1997 / Accepted: 15 September 1997     

Induction of xylanase in Aspergillus tamarii by methyl β-d-xyloside

Aspergillus tamarii produced extracellular xylanase and intracellular β-xylosidase inductively in washed glucose-grown mycelia incubated with xylan and methyl β-d-xyloside, a synthetic glycoside. Methyl β-d-xyloside was a more effective inducer than xylan at the same concentration for both enzymes. Glucose and cycloheximide were found to inhibit xylanase production by methyl β-d-xyloside. Methyl β-d-xyloside was hydrolyzed to xylose by mycelial extract in vitro. Received: 23 May 1996 / Received revision: 5 September 1996 / Accepted: 13 October 1996     

Reversal of the inhibitory effect of surfactants upon germination and growth of a consortium of two strains of Bacillus

Anionic, cationic, amphoteric and non-ionic surfactants inhibited spore germination and subsequent growth of a mixture of two Bacillus strains at surfactant concentrations ranging from 1 ppm to 50 ppm. Germination appeared to be more affected than cell growth by the presence of surfactants, the inhibitory thresholds being largely increased when media were inoculated with vegetative cells. The bacterial species forming the consortium were incapable of growing on liquid and agar-solidified media prepared with non-diluted domestic wastewater. Addition of hydrolases (protease, cellulase, α-amylase and lipase) to the wastewater medium allowed the germination of spores and their vegetative growth. Received: 9 July 1998 / Received revision: 26 October 1998 / Accepted: 30 October 1998     

Isolation, characterization and disruption of the areA nitrogen regulatory gene of Gibberella fujikuroi

The gene areA-GF, a homologue of the major nitrogen regulatory genes nit-2, areA, nre and NUT1 of Neurospora crassa, Aspergillus nidulans, Penicillium chrysogenum and Magnaporthe grisea, respectively, was cloned from the gibberellin (GA)-producing rice pathogen Gibberella fujikuroi.areA-GF encodes a protein of 972 amino acid residues which contains a single putative zinc finger DNA-binding domain that is at least 98% identical to the zinc finger domains of the homologous fungal proteins. The areA-GF gene has been shown to be functional in N. crassa by heterologous complementation of a RIP induced nit-2 mutant. The transformation rate was nearly as high as in a homologous complementation control. Transformants were able to utilize nitrate and expressed a normally regulated nitrate reductase activity. To generate areA-GF  ⁻ mutants, gene replacement experiments were performed using a linearized replacement vector carrying the hygromycin B phosphotransferase (hph) gene. The replacement of the zinc finger by the hygromycin cassette resulted in transformants which were unable to utilize nitrogen sources other than ammonium and glutamine, and gave significantly reduced gibberellin production yields. Complementation of such a mutant with the wild-type gene led to the full recovery of gibberellin production. Received: 23 April 1998 / Accepted: 16 October 1998