Presence of a P 1 bacteriophage sequence in transforming plasmids of Pleurotus ostreatus

Replicative plasmids pP01 and pP02, recovered from Pleurotus ostreatus transformants, contain an insert of bacteriophage origin. These plasmids have been amplified by the polymerase chain reaction (PCR) and have been shown to represent a low-grade component in the initial preparation of the vector pAN7-1. The pP01 and pP02 plasmids share an insert (P01A) of virtual identity with a SmaI-BamHI genomic fragment of P 1 bacteriophage and retain remnants of a polylinker at the 5 end of this fragment. Such an insert undoubtedly represents an in vitro-generated event and did not arise, as suggested previously, by recombination of pAN7-1 with the P. ostreatus genome. The P. ostreatus transformants, however, do select for the minority pP0 plasmid, apparently recognizing the P01A insert as a heterologous or surrogate replicon.     

A nucleotide sequence involved in replicative transformation of a filamentous fungus

Replicative plasmids generated through in-vivo recombination have been identified among transformants of the fungus Pleurotus ostreatus. In addition to sequences from a standard selection vector (pAN7-1), these recombinant plasmids contain recombined sequences of chromosomal origin conferring replicative potential upon the vector. One such recombined sequence, an 1148-bp insert into plasmid pP01, has been characterized. This sequence has been analyzed for secondary structural features as well as for consensus sites affiliated with origins of replication (ori) in other eukaryotic systems. The 1148-bp insert lacks an ORF and does not contain an acceptable match to the commonly identified 11-bp ars consensus sequence (A/TTTTATA/GTTTA/T) for autonomous replication in the yeast Saccharomyces cerevisiae. The analysis, however, revealed a cluster of three hairpin-loop-forming subsequences with individual G_25°C free energy values of-7.6,-6.4 and-5.2 kcal mol^-1. Also found were two 7-bp analogues to centromere-affiliated sequences recognized in other fungi, as well as several putative gyrase recognition sites comparable to the 9-bp S. cerevisiae/E. coli gyrase-binding consensus sequence. Sequences comparable to the ori of the yeast 2-m plasmid or to various sequences associated with ori of yeast/fungal mitochondrial DNAs (mtDNA) were not present in the 1148-bp insert. Replication of pP01 appears rather to involve a replication of chromosomal derivation devoid of an ars-type consensus.     

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 Botrytis cinerea with the hygromycin B resistance gene,hph

A transformation method has been developed for the phytopathogenic fungus Botrytis cinerea. Protoplasts were transformed with pAN7-1 plasmid carrying the Escherichia coli hygromycin phosphotransferase gene (hph), confering hygromycin B resistance, downstream from an Aspergillus nidulans promoter. Molecular analysis showed that transformation resulted in an integration of the plasmid into different regions of the B. cinerea genome and occurred through non-homologous recombination. The frequency was 2–10 transformants per g of DNA. Transformants expressed phosphotransferase activity confirming that the hph gene conferred the hygromycin-resistance phenotype. All transformants analysed so far proved to be stable after several subcultures without any selective pressure.     

Behaviour of a replicating mitochondrial DNA sequence fromAspergillus amstelodami inSaccharomyces cerevisiae andAspergillus nidulans

Summary An amplified sequence of mitochondrial DNA from a ragged (rgd) mutant ofAspergillus amstelodami has been shown to exist in multimeric circular form, suggesting that it is excised from the genome and can exist independently of it. This sequence has replicative (ARS) activity inSaccharomyces cerevisiae, and a subfragment responsible for this activity has been identified and sequenced. A homologous sequence fromAspergillus nidulans mtDNA also has ARS activity inS. cerevisiae. BothA. amstelodami andA. nidulans ARS elements have been incorporated into the integrative transformation vector pDJBI and the derived vectors used to transformA. nidulans. Inclusion of theA. nidulans ARS element enhanced the transformation frequency 5-fold relative to pDJBI. No increase in transformation frequency was evident with the ARS element fromA. amstelodami. The stability of transformants was variable but in comparison to pDJBI, ARS-containing plasmids were mitotically unstable inA. nidulans. Although plasmid DNAs could be rescued inEscherichia coli from undigested transformant DNA, no freely replicating plasmids were detected by Southern hybridisation.     

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.     

Development of a transformation system for the filamentous,ML-236B (compactin) — producing fungus Penicillium citrinum

Summary We present here the first report of a transformation system developed for the filamentous, ML-236B (compactin)-producing fungus Penicillium citrinum. Hygromycin B-resistant colonies were obtained after treatment of protoplasts with a vector containing an Escherichia coli hygromycin B phosphotransferase gene fused to a 3-phosphoglycerate kinase promoter from Aspergillus nidulans. The transformation rate was 194 transformants per g circular DNA per 4x10⁵ viable protoplasts under optimized transformation conditions. Transformation took place via the integration of plasmid DNA into the fungal chromosomal DNA. Most of the integration events appeared to produce tandemly iterated arrays of plasmid molecules at different sites in the chromosome. The transformed, drug-resistant, phenotype and the integrated plasmids were mitotically stable with or without selection in a majority of cases. The demonstration of such a transformation system is an essential first step in the application of recombinant DNA technology to strain improvement and for the production of novel ML-236B derivatives.     

Transformation of the rice blast fungus Magnaporthe grisea to hygromycin B resistance

Summary Low frequency, integrative transformation of three fertile hermaphroditic strains of Magnaporthe grisea has been achieved using plasmid pAN7-1 and cosmid pAN7-2, which contain an Escherichia coli hygromycin B phosphotransferase gene linked to Aspergillus nidulans regulatory sequences.     

Transformation of the phytopathogenic fungus Septoria nodorum to hygromycin B resistance

Summary The phytopathogenic fungus Septoria nodorum has been transformed using a plasmid (pAN7-1) containing the Escherichia coli hygromycin phosphotransferase gene (hph). Large, stable hygromycin-resistant transformant colonies appeared at frequencies between 2 and 25 per g DNA when wheat-adapted and barley-adapted wild type strains were used as recipients. These transformants grew at hygromycin concentrations up to ten times that which inhibits the wild types. A second type of colony also developed on transformation plates. These appeared at higher frequencies, grew less vigorously and could not be subcultured in the presence of hygromycin. They are believed to be abortive transformants. Southern hybridization analyses indicated that transformation takes place via the integration of plasmid DNA into the fungal chromosomal DNA. Multiple integrations occur producing tandemly iterated arrays of plasmid molecules. Some transformants arose as heterokaryons. These could be resolved by propagation through a single spore and transformants purified in this way remained mitotically stable. All of 1,025 transformants tested were unchanged in pathogenicity. Reisolates from leaves retained their hygromycin-resistance, indicating that transformants remain stable during growth in plant tissue. Cotransformation of an unselected plasmid (p3SR2) carrying the Aspergillus nidulans amdS gene occurred at a high frequency.     

High efficiency transformation of Fusarium solani f. sp. cucurbitae race 2 (mating population V)

Summary A cosmid vector, suitable for library construction and DNA transformation in filamentous fungi, has been constructed and a reliable and highly efficient PEG-mediated DNA transformation system for F. solani f. sp. cucurbitae, based on resistance to hygromycin B, has been developed for use with this vector. This transformation system yielded 10⁴ transformants per g of DNA when using 10⁷ protoplasts. Factors important in achieving high efficiency included: the maintenance of an osmoticum in all transformation steps, PEG 4000 concentration, and the ratio of transforming vector DNA to protoplasts. Approximately 60% of transformants stably integrated vector DNA. Molecular analysis revealed multiple copies of the plasmid integrated into the genome at one or more sites. The frequency of transformation achieved will facilitate the isolation of genes from this fungus by complementation.     

Heterologous and homologous plasmid integration at a spore-pigment locus in Penicillium paxilli generates large deletions

Mutations in a spore pigmentation locus (brs; brown spore) in Penicillium paxilli were isolated at a relatively-high frequency (0.17%) following integrative transformation of the hygromycin-resistance plasmid pAN7-1. A molecular analysis of four independently-isolated Brs^- mutants showed that all contained pAN7-1 integrated at a single-site that was unique for each mutant. A previously-described Brs^- mutant, YI-34 (Itoh et al. 1994), was a two-site integration. Three of the mutants had multiple copies of pAN7-1 arranged in head-to-tail tandem arrays. A 9.6-kb BamHI junction fragment was cloned from one of these, YI-33, by plasmid rescue and used to isolate two overlapping lambda clones, WB33-1 and WB33-2, that span about 30 kb in the region of the wild-type locus. When genomic digests of the five Brs^- mutants were probed with these lambda clones all of them were found to contain an extensive deletion through a common region of the P. paxilli genome. Subsequent attempts to generate one-step gene replacements within a 4.5-kb EcoRI fragment at the wild-type locus resulted in the isolation of Brs^- mutants at a frequency of 1.6%, but all mutants with this phenotype were also found to contain an extensive genomic deletion. Therefore, a common outcome of both heterologous and homologous plasmid integration at this locus is deletion formation.     

The CDC8 gene product is required for transformation with episomal and integrative plasmids in Saccharomyces cerevisiae

Summary The product of the yeast CDC8 gene (thymidylate kinase), which is required for chromosomal, mitochondrial and 2 plasmid replication, also participates in plasmid transformation processes in S. cerevisiae. The thermosensitive cdc8-1 mutant strain was transformed with episomal pDQ9 and integrative pDQ9-1 plasmids both of which carry the CDC8 gene. The results suggest that thymidylate kinase is essential for the expression of genes carried on transforming episomal plasmid DNA (probably through its replication) and is also essential for homologous recombination between chromosomal and linearized integrative plasmid DNA.     

Co-transformation with autonomously-replicating helper plasmids facilitates gene cloning from an Aspergillus nidulans gene library

Autonomously-replicating, marker-less helper plasmids were added to transformations of Aspergillus nidulans with plasmids which normally transform by chromosomal integration. This resulted in as much as a 200-fold increase in transformation efficiency. Recovery of autonomously-replicating plasmid co-integrates indicated that co-transformation involves recombination between integrating and helper plasmids, which occurs at a high frequency. Increasing DNA sequence-homology between pairs of plasmids used in simultaneous transformations enhanced co-transformation efficiency. Using helper plasmids and an A. nidulans gene library in a normally-integrating vector, the genes adC and adD were cloned as part of such a co-integrate. In effect, the addition of helper plasmid converts an integrating into an autonomously-replicating gene library in vivo.     

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.     

Shuttle vectors for <Emphasis Type="Italic">Candida albicans</Emphasis>: control of plasmid copy number and elevated expression of cloned genes

Plasmids containing the inosine monophosphate dehydrogenase gene CaIMH3 from Candida albicans strain ATCC 32354 transform their host to resistance against mycophenolic acid (MPA). The transformants maintain the plasmids at a high copy number (20–40 per cell) and express the CaIMH3 gene at very high levels relative to untransformed controls. The plasmid copy number can be controlled by the concentration of MPA in the media. The transformation procedure is reproducible and the efficiency of transformation is high, up to 15,000 per microgram. Unrearranged plasmids are readily recovered by transforming total DNA from transformants back into Escherichia coli. C. albicans genes cloned into the plasmid are expressed at elevated levels relative to untransformed controls. A derivative vector containing the CaMAL2 promoter and termination sequences expresses the CaERG11 ORF at high levels and confers moderate resistance to fluconazole. These shuttle vectors should facilitate global genomics approaches in C. albicans that have been hampered by its diploid genome.     

Heterologous gene expression of the glyphosate resistance marker and its application in yeast transformation

Summary The E. coli aroA gene was inserted between yeast promoter and terminator sequences in different shuttle expression plasmids and found to confer enhanced EPSP synthase activity as well as resistance to glyphosate toxicity. Subsequently, a transformation system using these newly constructed vectors in yeast was characterized. The efficiency of the glyphosate resistance marker for transformation and selection with plasmid pHR6/20-1 in S. cerevisiae laboratory strain SHY2 was found to be relatively high when compared with selection for LEU2 prototrophy. The fate of the recombinant plasmid pHR6/20-1 in the transformants, the preservation of the aroA E. coli DNA fragment in yeast, mitotic stability, EPSP synthase activity, and growth on glyphosate-containing medium have been investigated. As this plasmid also allows direct selection for glyphosate resistant transformants on rich media, the glyphosate resistance marker was used for transforming both S. cerevisiae laboratory strain SHY2 and brewer's yeast strains S. cerevisiae var. uvarum BHS5 and BHS2. In all cases, the vector pHR6/20-1 was maintained as an autonomously replicating plasmid. The resistance marker is, therefore, suitable for transforming genetically unlabeled S. cerevisiae laboratory, wild, and industrial yeast strains.Abbreviations EPSP 5-enolpyruvylshikimate 3-phosphate     

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.     

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.     

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.     

High efficiency transformation of Kluyveromyces marxianus by a replicative plasmid

Kluyveromyces marxianus can be transformed with an efficiency of 10⁵ transformants/g of DNA by a replicative plasmid using electroporation. In order to obtain this efficiency, we isolated ura^- mutants cells which can be complemented by the URA3 gene from Saccharomyces cerevisiae. The URA3 gene and KARS2, a replicative origin from Kluyveromyces lactis which functions in K. marxianus, were ligated together in a plasmid which can be used as a vector to transform this strain.