James R. Kinghorn

Isolation and characterisation of the crnA-niiA-niaD gene cluster for nitrate assimilation in Aspergillus nidulans

Genomic clones containing the entire crnA-niiA-niaD gene cluster of Aspergillus nidulans have been isolated, and the structures of the niiA and niaD genes have been determined by nucleotide sequence analysis. This gene cluster is required for the assimilation of nitrate in A. nidulans, and the three genes encode a product required for nitrate uptake and the enzymes, nitrite reductase and nitrate reductase, respectively. The putative coding sequences, as deduced by comparison to cDNA clones of both niiA and niaD, are interrupted by multiple small introns, and the two genes are divergently transcribed. Identification and characterization of specific mRNAs involved in nitrate assimilation indicates that only monocistronic transcripts are involved, and that the approximate sizes of these transcripts are 1.6 kb, 3.4 kb and 2.8 kb for crnA, niiA and niaD, respectively. The results also indicate that control of niiA and niaD gene expression is mediated by the levels of mRNA accumulation, in response to the source of nitrogen in the growth medium. Two types of transcripts for niiA were observed.

Functional domains of assimilatory nitrate reductases and nitrite reductases

Biochemical investigation of nitrate assimilation enzymes spans the past four decades. With the molecular cloning of genes for nitrate reductases and nitrite reductases, exciting new prospects are developing for the study of these enzymes. As large, complex enzymes with multiple redox centers, these two types of reductases should help us gain understanding of structural, functional and evolutionary relationships among the diverse group of multicenter redox enzymes.

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.

Secretion of heterologous proteins by Aspergillus niger: Production of active human interleukin-6 in a protease-deficient mutant by KEX2-like processing of a glucoamylase-hIL6 fusion protein

To develop improved methods for heterologous protein production in Aspergillus niger, we studied the secretion of human interleukin-6 (hIL6). Since in vitro experiments with culture medium revealed that hIL6 was rapidly degraded, several protease-deficient strains of A. niger were isolated and tested for reduced degradation of hIL6 compared with the wild-type strain. The mutant strain giving the least degradative effect on hIL6 (designated AB1.13) was transformed with several hIL6-expression plasmids. Initially, hIL6 was expressed using various signal sequences fused to the sequence of mature hIL6. The resulting transformants did not produce detectable amounts of hIL6, despite high transcription levels in one transformant. We hypothesized that hIL6 was not efficiently processed during passage along the secretion pathway. Therefore, hIL6 was expressed as a fusion protein with glucoamylase, a protein which is efficiently secreted by A. niger and expression of which can easily be measured enzymatically. To obtain mature hIL6, a sequence encoding the KEX2 cleavage-site (Lys-Arg) was inserted between glucoamylase and hIL6 sequences. Mature active hIL6 was found to be secreted in the extracellular medium. Using this combined approach of transforming a protease-deficient strain with a fusion construct containing the KEX2 site, up to 15 mg l-1 active hIL6 was obtained in shake-flask culture. A fusion construct without the KEX2 site resulted in substantially higher production of the fusion protein, but hIL6 was not active in the fused form. These results indicate that A. niger contains a protease with similar specificity as the KEX2 protease from yeast.

Embryonic temperature affects muscle fibre recruitment in adult zebrafish: genome-wide changes in gene and microRNA expression associated with the transition from hyperplastic to hypertrophic growth phenotypes

SUMMARY We investigated the effects of embryonic temperature (ET) treatments (22, 26 and 31°C) on the life-time recruitment of fast myotomal muscle fibres in zebrafish Danio rerio L. reared at 26/27°C from hatching. Fast muscle fibres were produced until 25 mm total length (TL) at 22°C ET, 28 mm TL at 26°C ET and 23 mm TL at 31°C ET. The final fibre number (FFN) showed an optimum at 26°C ET (3600) and was 19% and 14% higher than for the 22°C ET (3000) and 31°C ET (3100) treatments, respectively. Further growth to the maximum TL of ∼48 mm only involved fibre hypertrophy. Microarray experiments were used to determine global changes in microRNA (miRNA) and mRNA expression associated with the transition from the hyperplasic myotube-producing phenotype (M+, 10–12 mm TL) to the hypertrophic growth phenotype (M–, 28–31 mm TL) in fish reared at 26–27°C over the whole life-cycle. The expression of miRNAs and mRNAs obtained from microarray experiments was validated by northern blotting and real-time qPCR in independent samples of fish with the M+ and M– phenotype. Fourteen down-regulated and 15 up-regulated miRNAs were identified in the M– phenotype together with 34 down-regulated and 30 up-regulated mRNAs (>2-fold; P<0.05). The two most abundant categories of down-regulated genes in the M– phenotype encoded contractile proteins (23.5%) and sarcomeric structural/cytoskeletal proteins (14.7%). In contrast, the most highly represented up-regulated transcripts in the M– phenotype were energy metabolism (26.7%) and immune-related (20.0%) genes. The latter were mostly involved in cell–cell interactions and cytokine pathways and included β-2-microglobulin precursor (b2m), an orthologue of complement component 4, invariant chain-like protein 1 (iclp), CD9 antigen-like (cd9l), and tyrosine kinase, non-receptor (tnk2). Five myosin heavy chain genes that were down-regulated in the M– phenotype formed part of a tandem repeat on chromosome 5 and were shown by in situ hybridisation to be specifically expressed in nascent myofibres. Seven up-regulated miRNAs in the M– phenotype showed reciprocal expression with seven mRNA targets identified in miRBase Targets version 5 (http://microrna.sanger.ac.uk/targets/v5/), including asporin (aspn) which was the target for four miRNAs. Eleven down-regulated miRNAs in the M– phenotype had predicted targets for seven up-regulated genes, including dre-miR-181c which had five predicted mRNA targets. These results provide evidence that miRNAs play a role in regulating the transition from the M+ to the M– phenotype and identify some of the genes and regulatory interactions involved.

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.

Apparent genetic redundancy facilitates ecological plasticity for nitrate transport.

Aspergillus nidulans possesses two high‐affinity nitrate transporters, encoded by the nrtA and the nrtB genes. Mutants expressing either gene grew normally on 1–10 mM nitrate as sole nitrogen source, whereas the double mutant failed to grow on nitrate concentrations up to 200 mM. These genes appear to be regulated coordinately in all growth conditions, growth stages and regulatory genetic backgrounds studied. Flux analysis of single gene mutants using 13NO3− revealed that Km values for the NrtA and NrtB transporters were ∼100 and ∼10 μM, respectively, while Vmax values, though variable according to age, were ∼600 and ∼100 nmol/mg dry weight/h, respectively, in young mycelia. This kinetic differentiation may provide the necessary physiological and ecological plasticity to acquire sufficient nitrate despite highly variable external concentrations. Our results suggest that genes involved in nitrate assimilation may be induced by extracellular sensing of ambient nitrate without obligatory entry into the cell.

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.

Actin in the oomycetous fungus Phytophthora infestans is the product of several genes.

Actin (ACT) in Phytophthora infestans is encoded by at least two genes, in contrast to unicellular and other filamentous fungi where there is a single gene. These genes (designated actA and actB) have been isolated from a genomic library of P. infestans. The complete nucleotide sequence of both genes has been determined. Unlike the actin-encoding genes (act) of other filamentous fungi, no introns are obvious in the coding region, a feature shared with the act genes of certain protists. Northern blotting and primer extension studies of the mRNA show that actA and actB are actively transcribed in mycelium, sporangia and germinating cysts but only at a low level in the case of actB. Both genes display bias in their codon usage. This is more extreme in actA. The deduced ACTB protein is strikingly similar to that of the Phytophthora megasperma actin and is more diverged from other actins than ACTA.