Pathogenicity and growth of Metarhizium anisopliae stably transformed to benomyl resistance

Summary The insect pathogenic hyphomycete Metarhizium anisopliae was transformed to benomyl resistance using pBENA3, a plasmid containing the benA3 allele from Aspergillus nidulans. The transformation rate was 9 transformants/50 g DNA/2×10⁶ viable protoplasts. Southern hybridization analyses indicated that the plasmid integrated by nonhomologous recombination at multiple loci. The sites of integration differed among transformants. There was no evidence for autonomous plasmid replication in the transformants. Transformants grew at benomyl concentrations up to 10 times that which inhibits wild type, and they were mitotically stable on either selective or non-selective medium or insect tissue. The transformants were pathogenic to the hornworm, Manduca sexta, producing both appressoria and the cuticle-degrading enzyme, chymoelastase, in the presence of 50 g/ml of benomyl. These studies demonstrate the potential of using transgenic strains of entomopathogenic fungi along with other components of pest control such as fungicides.     

Transformation ofGaeumannomyces graminis to benomyl resistance

Summary Gaeumannomyces graminis var.graminis andtritici were transformed to benomyl resistance using pBT3, a plasmid encoding fungicide-resistant -tubulin. Either circular or linear plasmid DNA producedG. graminis var.graminis transformants in which plasmid DNA was integrated into the fungal genome. There was no evidence for autonomous plasmid replication in any of the transformants examined. 4/11 linear DNA transformants had a single plasmid copy, whereas 8/9 circular DNA transformants had multiple copies of the plasmid. Integration of transforming DNA occurred by nonhomologous recombination in all (20/20) of these transformants.     

Transformation of Trichoderma species with dominant selectable markers

Summary We have developed a transformation system for Trichoderma hamatum and Trichoderma harzianum Rifai, using dominant markers for selection based on the Escherichia coli hygromycin B phosphotransferase gene (hph) and the -tubulin gene (bml) from Neurospora crassa, respectively. Transformation frequencies and protoplast regeneration were low in both species. All the T. hamatum hygromycin-resistant transformants analysed were mitotically stable, in contrast to those of T. harzianum derived by benomyl resistance, in which only 50% of the transformants analysed were stable. Molecular analysis of transformants showed the integration of the transforming DNA into the genome and indicated that the number and sites of integration varied among the transformants.     

Transformations of Penicillium islandicum and Penicillium frequentans that produce anthraquinone-related compounds

Wild-type strains of Penicillium islandicum and Penicillium frequentans, which produce anthraquinone and related compounds, were transformed to benomyl and hygromycin B resistance. Plasmids pSV50 and pBT6, with benomyl-resistant -tublin genes, and plasmids pAN7-1 and pDH25, with a bacterial hygromycin phosphotransferase gene under the control of Aspergillus nidulans sequences, were used respectively. Transformation frequencies with these plasmids were 10–20 transformants per g of DNA per 4-8×10⁷ viable protoplasts. Intergration of plasmid DNAs into chromosomal DNAs was confirmed by Southern-blot analysis. Copy numbers and sites of integration varied among transformants. The integrated plasmid DNAs conferring a drug-resistant phenotype were mitotically stable with or without selection. The demonstration of such transformation systems is the essential first step in the application of recombinant DNA technology to study the biosynthetic genes of anthraquinone and related compounds in P. islandicum and P. frequentans.     

Transformation of the fungal pathogen Cryphonectria parasitica with a variety of heterologous plasmids

Summary An efficient DNA-mediated transformation system for the pathogen of chestnut, Cryphonectria parasitica, is reported. Ten vectors, each containing a promoter from Cochliobolus heterostrophus, Aspergillus nidulans, Ustilago maydis, Cephalosporium acremonium, Neurospora crassa or cauliflower mosaic virus, were creened for their ability to confer resistance to hygromycin B, benomyl or G418 sulfate. Transformants were obtained with all vectors screened and, in each case, transformation occurred by integration of the foreign DNA into the host genome. The initial transformation efficiency ranged from approximately 1–60 transformants/g circular DNA. Under optimized transformation conditions, the transformation rate of the vector pDH25, which contains the trpC promoter and terminator of A. nidulans, exceeded 10⁵ transformants/g DNA. The ease with which C. parasitica is transformed should greatly facilitate the genetic manipulation of this fungal plant pathogen.     

Cloning of the Trichoderma reesei pyrG gene and its use as a homologous marker for a high-frequency transformation system

Summary The Trichoderma reesei orotidine-5-phosphate decarboxylase gene was isolated by heterologous hybridization with the corresponding Neurospora gene as a probe. A 2.7 kb SalI fragment, which exclusively hybridized to the Neurospora gene, was subcloned in pGEM-5Zf(+). This subclone was termed pFG1 and was used to transform a Trichoderma reesei pyrG^- negative mutant to PYR⁺. The transformation frequency in this homologous system was up to 12000 transformants per g DNA. About one-fifth of the transformants tested were abortive. Perfect mitotic stability was found in half of the non-abortive transformants, correlating with vector integration at homologous and ectopic loci. In the unstable transformants the transforming DNA appears to be present in the form of extrachromosomal elements.     

The development of a heterologous transformation system for the cellulolytic fungus Trichoderma reesei based on a pyrG-negative mutant strain

Summary Six uridine auxotroph mutants of Trichoderma reesei QM 9414 were isolated by resistance to 5-fluoroorotic acid and one strain was identified as OMP-decarboxylase negative (pyr ^-) by a radiometric enzyme assay. Transformation to uridine prototrophy was achieved with the pyr4 gene of Neurospora crassa (up to 1500 transformants/g) and with pyrA of Aspergillus niger (700–800 transformants/g). In many transformants the PYR⁺ function seems to be present as extrachromosomal DNA. There is evidence for a correlation between the stability of transformants and integration of the vector in the genome whereas unstable transformants are obtained when autonomous replication of the plasmid occurs.     

Transformation of Penicillium nalgiovense with the amdS gene of Aspergillus nidulans

Summary Penicillium nalgiovense was transformed with the amdS gene from Aspergillus nidulans as a selectable marker. The vector apparently integrated at multiple sites into the chromosomes of the transformants, which were mitotically stable. A transformation efficiency of 12 transformants/g vector DNA was achieved when the expression phase was prolonged to 8 h.     

Expression of the Escherichia coli β-glucuronidase gene in industrial and phytopathogenic filamentous fungi

Summary The plant pathogenic fungus Pseudocercosporella herpotrichoides has been successfully transformed using two positive selection systems, one based on the Escherichia coli hygromycin B phosphotransferase gene (hph) and the other on the Neurospora crassa -tubulin gene bml which encodes resistance to the methyl benzimidazole carbamate fungicides. Both selection systems gave a transformation frequency of 1–20 transformants g^–1 DNA. The vector DNA was integrated into the genome and the number and sites of integration varied among the transformants. The hph transformants were mitotically stable and the transformed gene was transmitted through spores. In contrast the bml transformants were less stable.     

Homologous transformation of the edible basidiomycete Agrocybe aegerita with the URA1 gene: characterization of integrative events and of rearranged free plasmids in transformants

The URA1 gene, encoding dihydroorotate dehydrogenase of the pyrimidine pathway, cloned into pUC18 (pUra1-1) was used to develop an homologous transformation system for the cultivated mushroom Agrocybe aegerita. Protoplasts of a ura1 auxotrophic strain were transformed by electroporation with efficiencies ranging from 1 to 26 transformants per g of DNA. The phenotype of the stable Ura+transformants suggested a strong nuclear heterogeneity further confirmed by Southern-blot analysis. All transformants acquired extrachromosomal forms derived from pUra1-1. Integration of pUra1-1 into chromosomal DNA occurred for some transformants. Plasmids containing the integrant of pUC18 recombined to different parts of the URA1 gene were rescued from A. aegerita transformants through transformation of E. coli. Their molecular analysis indicated that they represent products of the continuous excision of primary-integrated vector sequences rather than ARS-dependent autoreplicative forms.     

Development of an homologous transformation system forAcremonium chrysogenum based on theβ−tubulin gene

The–tubulin gene was isolated from the filamentous fungusAcremonium chrysogenum using a heterologous gene probe to screen anA. chrysogenum lambda library. Sequencing of theA. chrysogenum gene revealed a mosaic gene which contains five exons and four intervening sequences. The exons encode for a polypeptide of 447 amino-acid residues which showed a high degree of similarity when compared with amino-acid sequences from -tubulins of other eukaryotes. The introns are characterized by typical consensus sequences found in intervening sequences from other filamentous fungi. In-vitro mutagenesis of codon 167 of the -tubulin gene resulted in the substitution of a phenylalanine by a tyrosine in the corresponding polypeptide sequence. The mutated gene was used successfully in the transformation and co-transformation ofA. chrysogenum to benomyl resistance. The molecular analysis of transformants provided evidence that they contain the mutated -tubulin gene in addition to the wild-type gene, as was proved by Southern-hybridization analysis and direct sequencing of PCR amplification products.     

Transformation of Candida maltosa and Pichia guilliermondii by a plasmid containing Saccharomyces cerevisiae ARG4 DNA

Summary Saccharomyces cerevisiae, Candida maltosa and Pichia guilliermondii have been transformed by the plasmid pYe(ARG4)411, which contains the S. cerevisiae ARG4 gene inserted into pBR322. In all transformants argininosuccinate lyase as well as -lactamase were detected. The ARG⁺ phenotype of transformants is mitotically unstable. Closed circular pYe(ARG4)411, DNA was detected in transformant DNA preparations by hybridization to pBR322 DNA and by transformation of E. coli to ampicillin resistance.     

Transformation of the thermophilic fungus Humicola grisea var. thermoidea and overproduction of Humicola glucoamylase

Summary The thermophilic fungus Humicola grisea var. thermoidea was successfully transformed using a bleomycin-phleomycin resistance gene linked to regulatory sequences from Aspergillus nidulans. Transformation was achieved using the lithium acetate method with young mycelia, and transformants were obtained at a frequency of 0.5–2 per g of plasmid DNA. Vector DNA used in transformations was integrated in the genome of Humicola in varying patterns and copy number, and transformants were mitotically stable. Extra copies of an Humicola gla1 gene encoding glucoamylase (GAM) were introduced into the genome of several Humicola strains by transformation, with the result that some transformants produced almost 3-fold more GAM in comparison to the untransformed parental strains.     

Homologous transformation of the lignin-degrading basidiomycete Phanerochaete chrysosporium

Summary A clone containing the Phanerochaete chrysosporium ade1 gene was isolated from a EMBL3 genomic library using the ade5 gene encoding aminoimidazole ribonucleotide synthetase, from Schizophyllum commune, as a probe. A 6.0 kb fragment incorporating the ade1 gene was subcloned into pUC18 (pADE1) and used to transform the P. chrysosporium ade1 auxotrophic strain. Transformation frequencies were similar to those obtained previously with the S. commune ade5 gene; however, homologous transformants arose earlier than heterologous transformants. The transformants were mitotically and meiotically stable and Southern blot analysis indicated that the plasmid, pADE1, integrated ectopically in single or multiple copies. The pADE1 insert was mapped for restriction sites and the approximate location of the ade1 gene within the insert was determined.     

Integrative and replicative genetic transformation of Aureobasidium pullulans

A hybrid selectable marker for transformation was constructed by placing the promoter (TEF1p) from the gene encoding the Aureobasidium pullulans translation elongation factor 1- (TEF1) adjacent to the 5 end of the Escherichia coli hygromycin B phosphotransferase gene (HPT). Plasmids containing this hybrid gene (TEF1p/HPT) transformed A. pullulans strain R106 to a hygromycin B-resistant (HmB^R) phenotype. A PCR-generated DNA fragment consisting of the TEF1p/HPT resistance marker flanked by 41 bp of homologous DNA has also been shown to transform A. pullulans to HmB^R. Linearized plasmid DNA consistently produced more transformants than circular plasmid DNA. Analyses of 23 HmB^R transformants revealed integration of the plasmid in only eight of these transformants. In two transformants, integration into the largest chromosome (VIII) resulted in an alteration of the molecular karyotype. In four other transformants, integration occurred in chromosome VI (the chromosome containing TEF1) but only one was the result of homologous recombination with the genomic copy of the TEF1 promoter. The remainder of the transformants contained replicative plasmids that could be visualized on an agarose gel by ethidium bromide staining. These plasmids were generally 7–8 kb in size. One transformant appeared to contain four plasmids ranging in size from 4 to 8 kb, suggesting rearrangement of the transforming DNA. One plasmid obtained from a HmB^R A. pullulans transformant was able to transform E. coli to ampicillin resistance. However, after recovery from E. coli, this plasmid (approximately 4 kb) was unable to transform A. pullulans to HmB^R.     

A homologous and self-replicating system for efficient transformation ofFusarium oxysporum

A highly efficient transformation system has been developed forFusarium oxysporum f. sp.lycopersici based on the complementation of a nitrate-reductase mutant with the homologousnitI gene and on the presence ofARS and telomeric sequences in the vector. Preliminary transformation experiments with theniaD gene fromAspergillus niger generated self-replicating plasmids within the transformed entity that contained extra-fungal DNA. A fragment of the extra DNA was inserted into pUC19 together with theF. oxysporum nitl gene, resulting in plasmid pFNit-Lam. This allowed the isolation of a new linear plasmid within self-replicativeF. oxysporum transformants (pFNit-Lam-TLam, linear). The circular form of this vector yielded 5600 fungal transformants per g of DNA. All of the transformants contained autonomous linear plasmids harboring direct repeats of fungal DNA at both ends. The sequence of the 1.2-kb fragment fromF. oxysporum responsible for autonomous replication, and maintenance as linear plasmid molecules, has been determined. Comparison analysis with theARS from different organisms has shown that this fragment contained the commonly identifiedARS consensus sequence, 5A/TTTTATA/GTTTA/T3 and, in addition to this core, ten copies of theARS-box, TNTA/GAA3. Adjacent to this presumedARS, the telomeric hexanucleotide sequence (TTAGGG)_n was present in six tandem copies followed by 18 copies of its complementary sequence.     

Behaviour of recombinant plasmids in Aspergillus nidulans: structure and stability

Summary A pyrG ^– Aspergillus strain was transformed with plasmid pDJB-1, derived from pBR325 by insertion of the Neurospora crassa pyr4 gene (orotidine 5-phosphate carboxylase), giving mitotically unstable transformants. Aspergillus DNA which acted as an autonomously replicating sequence (ARS) in yeast was inserted into pDJB-1 and the resulting construct, pDJB12.1, gave mitotically stable transformants when introduced into Aspergillus. Transformants obtained with pDJB-1 and pDJB12.1 gave few pyr ^– progeny in crosses to a pyrG ⁺ strain. Southern hybridisation analysis of pyr ⁺ transformants obtained with pDJB-1 revealed restriction fragments expected for integrated plasmid but transformants obtained with pDJB12-1 showed only bands derived from free plasmid. pDJB-1 and derivatives of pDJB12.1 could be recovered from transformants. These derivatives could not be explained by straightforward excision of integrated pDJB12.1 sequences but could result from recombination between plasmid molecules. Hybridisation of undigested transformant DNAs showed that the transforming DNA was present in a high molecular weight form. These results suggest: (1) pDJB12.1 derivatives and possibly pDJB-1 can replicate autonomously in Aspergillus; (2) A. nidulans DNA acting as an ARS in yeast enhances replication and/or segregation of transforming plasmids in Aspergillus; and (3) recombinant plasmids may undergo rearrangements when introduced into Aspergillus.Abbreviations PABA para-amino benzoic acid - EDTA disodium salt of ethylene diamine tetra-acetic acid - SDS sodium dodecyl sulphate - DTT dithiothreitol - UV ultra violet - SSC standard saline citrate; 0.15 M sodium chloride, 0.015 M trisodium citrate pH 7. - ARS('s) autonomously replicating sequence(s) - kb kilobase pairs     

Highly-efficient transformation of the homobasidiomycete Schizophyllum commune to phleomycin resistance

Regulatory sequences of the glyceraldehyde-3-phosphate-dehydrogenase (GPD) gene from the homobasidiomycete Schizophyllum commune were fused to the coding sequence of the ble gene from Streptoalloteichus hindustanus, which codes for a phleomycin-binding protein. The resulting construct transformed S. commune to phleomycin resistance at a high frequency (up to 10⁴ transformants/g DNA per 10⁷ protoplasts) when regeneration was done in 0.5 M MgSO₄. A similar construct with regulatory sequences from Aspergillus nidulans failed to give transformants, showing the importance of homologous regulatory sequences for the expression of genes in S. commune. The homologous GPD promoter could be deleted up to position -130 without any effect on the number of phleomycin-resistant transformants. This is the first effective stable transformation system in a homobasidiomycete employing antibiotic resistance.     

Integrative transformation of the yeast Yarrowia lipolytica

Summary An EcoR1 shotgun of Yarrowia lipolytica DNA was inserted into the plasmid YIp333 which carries the LYS2 gene of S. cerevisiae. The resulting plasmid pool was transformed in both S. cerevisiae and Y. lipolytica. Whereas numerous replicating plasmids could be isolated from the S. cerevisiae Lys⁺ transformants, all transformants of Y. lipolytica so far analyzed were found to result from integrative transformation. This occurred at a frequency of 1 to 10 transformants per g of input DNA. Co-transformation occurred at high frequency and resulted in tandem integration of 2 to 10 copies of the incoming DNA. Structural and segregational stability of the transforming DNA were both high.     

Cloning of a DNA fragment from Cephalosporium acremonium which functions as an autonomous replication sequence in yeast

Summary A fragment of DNA which functions as an autonomous replication sequence in yeast was cloned from Cephalosporium acremonium. Mitochondrial DNA (mtDNA) was isolated from an industrial strain of C. acremonium (08G-250-21) highly developed for the production of the antibiotic, cephalosporin C. Size, 27 kb, and restriction pattern indicated this DNA was identical to mtDNA previously isolated (Minuth et al. 1982) from an ancestral strain (ATTC 14553) which produces very low amounts of cephalosporin C. A 1.9 kb Pst1 fragment of the Cephalosporium mtDNA was inserted into a Pst1 site of the yeast integrative plasmid, Ylp5, to produce a 7.5 kb plasmid, designated pPS1. The structure of pPS1 was verified by restriction analysis and hybridization.PS1 transformed Saccharomyces cerevisiae (DBY-746) to uracil prototrophy at a frequency of 272 transformants/g DNA. Transformation frequencies of 715 transformants/g DNA and zero were obtained for the replicative plasmid, YRp7, and the integrative plasmid YIp5, respectively. Southern hybridization and transformation of E. coli by DNA from yeast transformed by pPS1 verified that pPS1 replicates autonomously in yeast.The uracil-independent pPS1-yeast transformants were mitotically unstable. The average retention of pPS1 after three days growth in selective and non-selective medium was 4.5% and 0.4%, respectively, compared to retentions of 4.6% and 0.5% for YRp7. The properties of pPS1 were compared to those of a related plasmid, pCP2. pCP2 was constructed (Tudzynski et al. 1982) by inserting the C. acremonium 1.9 kb Pst1 fragment into the yeast integrative plasmid, pDAM1.