Edward I. Campbell

The development of a homologous transformation system for Aspergillus oryzae based on the nitrate assimilation pathway: A convenient and general selection system for filamentous fungal transformation

SummaryThe development of an efficient and homologous transformation system for Aspergillus oryzae is described. This is based on nitrate reductase (niaD) of the nitrate assimilation pathway. The niaD system offers a number of inherent advantages over many other systems and may be of general use for nitrate-utilising filamentous fungi. Transformation frequencies of up to 800 transformants per microgram DNA are observed with A. oryzae. The preponderance of integration events take place at the resident niaD locus either by gene conversion (41%), single integration (23%) or multiple tandem integration (36%). Heterologous expression of the A. oryzae niaD gene in the filamentous fungi A. nidulans, A. niger and Penicillum chrysogenum is observed. That heterologous putative niaD hybridisation signals are seen with other fungal DNAs affords the oppotunity to isolate the corresponding niaD from various fungi in order to develop homolgous transformation. Co-transformation with the introduction of the non-selected markers pyrG, tub-2, and uidA has been achieved.

A gene transfer system based on the homologous pyrG gene and efficient expression of bacterial genes in Aspergillus oryzae

SummaryA homologous transformation system for Aspergillus oryzae is described. The system is based on an A. oryzae strain deficient in orotidine-5′-phosphate decarboxylase (pyrG) and the vector pA04-2, which contains a functional A. oryzae pyrG gene as selection marker. Transformation of the A. oryzae pyrG mutant with circular PA04-2 resulted in the appearance of Pyr+ transformants at a frequency of up to 20 per μg of DNA, whereas with linear pA04-2 up to 200 transformants per μg DNA were obtained. In 75 % of the Pyr+ transformants recombination events had occurred at the pyrG locus, most of which (90%) resulted in insertion of one or two copies of the vector and the others (10%) in a replacement of the mutant allele by the wild-type allele. Vector pA04-2 is also capable of transforming a corresponding mutant of Aspergillus niger. This transformation system was used to introduce into A. oryzae the heterologous and non-selectable bacterial genes lacZ, encoding β-galactosidase, and uidA, encoding β-glucuronidase. Using the Aspergillus nidulans gpdA promoter to drive bacterial gene expression in A. oryzae, relatively high levels of activity, as well as protein per se, as judged by western blot analyses, were obtained.

Improved transformation efficiency of Aspergillus niger using the homologous niaD gene for nitrate reductase.

SummaryAspergillus niger transformation frequencies of up to 1,176 transformants per μg DNA were achieved using the plasmid vector pSTA10 containing the A. niger nitrate reductase structural gene. Analysis of genomic endonuclease cleaved DNA from nitrate utilising transformants by DNA hybridisation, showed that most integration events are as a result of homologous recombination. The niaD transformation system was used successfully for the introduction of the unselected Escherichia coli fusion genes lacZ, encoding β-galactosidase, and uidA, for β-glucuronidase, as well as the Neurospora crassa tub-2 gene, for β-tubulin. pSTA10 was also capable of transforming niaD mutants of other filamentous fungi such as A. nidulans, A. oryzae and Penicillium chrysogenum.

Transformation of Aspergillus niger with the homologous nitrate reductase gene

A homologous transformation for Aspergillus niger was developed based on the nitrate reductase structural gene niaD. This system offered certain advantages over existing A. niger systems, such as the ease of recipient mutant isolation, absence of abortive transformants, convenient enzyme assay, ease of transformant stability testing, and complete absence of background growth. Transformation frequencies of up to 100 transformants per microgram DNA were obtained with the vector pSTA10 which carries the niaD gene of A. niger. Southern blotting analysis indicated that vector DNA had integrated into the genome of A. niger. Mitotic stability studies demonstrated that while some transformants were as stable as the wild-type (wt), others were markedly less so. No correlation was seen between plasmid integration, mitotic stability and nitrate reductase activity, which was markedly different from wt in only three of the transformants examined.

The Aspergillus niger niaD gene encoding nitrate reductase: upstream nucleotide and amino acid sequence comparisons

The Aspergillus niger niaD gene has been sequenced and the inferred nitrate reductase (NR) protein found to consist of 867 amino acid residues (97 kDa). The gene is interrupted by six small introns, as deduced by comparison with the niaD gene of Aspergillus nidulans. The positions of these putative introns are conserved between the two fungi, although the sequences are dissimilar. The niiA gene, encoding nitrite reductase, the second reductive step in the nitrate assimilation pathway, is tightly linked to niaD and divergently transcribed in A. niger, similar to the general organisation in the related fungi, Aspergillus oryzae and A. nidulans. The nucleotide (nt) sequences of the intergenic region between niiA and niaD (excluding the ATG translation start codon) of A. niger (1668 nt) and A. oryzae (1575 nt) were determined and compared with the previously determined A. nidulans (1262 nt) sequence. No striking extended nt regions of homology are observed in spite of the fact that transgenic strains with fungal niaD or the two control genes required for induction and repression show virtually normal regulation. Fungal NR shows considerable aa homology with higher plant NR, particularly within the co-factor domains for flavin adenoside dinucleotide, heme and molybdopterin cofactor.

Transformation of a nitrate reductase deficient mutant of Penicillium chrysogenum with the corresponding Aspergillus niger and A. nidulans niaD genes

SummaryA heterologous gene mediated transformation system based on niaD, the structural gene encoding nitrate reductase, has been developed for Penicillium chrysogenum. Transformation frequencies of up to 20 transformants per microgram DNA were obtained using the Aspergillus nidulans gene and 9 transformants per microgram using the A. niger gene. Vector constructs carrying the A. nidulans ans-1 sequence and the A. niger niaD gene did not show increased transformation frequencies. Southern blot hybridisation analysis demonstrated that vector sequences had integrated into the recipient genome. The control of heterologous niaD gene expression generally agreed with that found in the wild-type strain, that is, induction by nitrate and repression in the presence of ammonium.

Transformation of the filamentous fungus Gibberella fujikuroi using the Aspergillus niger niaD gene encoding nitrate reductase

SummaryA transformation system for Gibberella fujikuroi based on the Aspergillus niger nitrate reductase gene (niaD) was developed. A strain (designated SG140) carrying a non-reverting niaD mutation (niaD11) was generated by screening mutagenised cells for non-growth on nitrate as sole nitrogen source. Transformation frequencies of 1–2 transformants per μg DNA were observed when strain SG140 was transformed to nitrate utilisation. Southern blot analyses of niaD+ transformants showed that the vector DNA sequences were integrated into the chromosomal DNA. The results demonstrate that the A. niger niaD gene is expressed in G. fujikuroi.