Isolation and nucleotide sequence of an autonomously replicating sequence (ARS) element functional in Candida albicans and Saccharomyces cerevisiae

Summary An 8.6-kb fragment was isolated from an EcoRI digest of Candida albicans ATCC 10261 genomic DNA which conferred the property of autonomous replication in Saccharomyces cervisiae on the otherwise non-replicative plasmid pMK155 (5.6 kb). The DNA responsible for the replicative function was subcloned as a 1.2-kb fragment onto a non-replicative plasmid (pRC3915) containing the C. albicans URA3 and LEU2 genes to form plasmid pRC3920. This plasmid was capable of autonomous replication in both S. cerevisiae and C. albicans and transformed S. cerevisiae AH22 (leu2 ^–) to Leu⁺ at a frequency of 2.15 × 10³ transformants per pg DNA, and transformed C. albicans SGY-243 (ura3) to Ura⁺ at a frequency of 1.91 × 10³ transformants per g DNA. Sequence analysis of the cloned DNA revealed the presence of two identical regions of eleven base pairs (5TTTTATGTTTT3) which agreed with the consensus of autonomously replicating sequence (ARS) cores functional in S. cerevisiae. In addition there were two 10/11 and numerous 9/11 matches to the core consensus. The two 11/11 matches to the consensus, CaARS1 and CaARS2, were located on opposite strands in a non-coding AT-rich region and were separated by 107 bp. Also present on the C. albicans DNA, 538 by from the ARS cores, was a gene for 5S rRNA which showed sequence homology with several other yeast 5S rRNA genes. A sub-fragment (494 bp) containing the 5S rRNA gene (but not the region containing the ARS cores) hybridized to genomic DNAs from a number of yeast species, including S. cerevisiae, C. tropicalis, C. pseudotropicalis, C. parapsilosis, C. kruseii, C. (Torulopsis) glabrata and Neurospora crassa. The 709-bp ARS element (but not the 5S rRNA gene) was necessary for high-frequency transformation and autonomous plasmid replication in both S. cerevisiae and C. albicans.EMBL/GenBank database accession number: X16634 (5S rRNA)     

Cloning and expression of Candida albicans ADE2 and proteinase genes on a replicative plasmid in C. albicans and in Saccharomyces cerevisiae.

Summary A plasmid vector (denoted pRC2312) was constructed, which replicates autonomously in Escherichia coli, Saccharomyces cerevisiae and Candida albicans. It contains LEU2, URA3 and an autonomously replicating sequence (ARS) from C. albicans for selection and replication in yeasts, and bla (ampicillin resistance) and ori for selection and replication in E. coli. S. cerevisiae AH22 (Leu^–) was transformed by pRC2312 to Leu^– at a frequency of 1.41 × 10⁵ colonies per g DNA. Transformation of C. albicans SGY-243 (Ura-) to Ura⁺ with pRC2312 resulted in smaller transformant colonies at a frequency of 5.42 × 10³ per g DNA where the plasmid replicated autonomously in transformed cells, and larger transformant colonies at a frequency of 32 per g DNA, in which plasmid integrated into the genome. Plasmid copy number in yeasts was determined by a DNA hybridization method and was estimated to be 15±3 per haploid genome in S. cerevisiae and 2–3 per genome in C. albicans replicative transformants. Multiple tandem integration occurred in integrative transformants and copy number of the integrated sequence was estimated to be 7–12 per diploid genome. The C. albicans ADE2 gene was ligated into plasmid pRC2312 and the construct transformed Ade^– strains of both C. albicans and S. cerevisiae to Ade⁺. The vector pRC2312 was also used to clone a fragment of C. albicans genomic DNA containing an aspartic proteinase gene. C. albicans transformants harboring this plasmid showed a two-fold increase in aspartic proteinase activity. However S. cerevisiae transformants showed no such increase in proteinase activity, suggesting the gene was not expressed in S. cerevisiae.     

Expression of Escherichia coli tryptophan operon in Rhizobium leguminosarum.

Summary RP4-trp hybrid plasmid containing Escherichia coli whole tryptophan operon was conjugatively transferred from E. coli to Rhizobium leguminosarum strains carrying mutations in different trp genes, converting their Trp^– phenotype to Trp⁺. That the phenotype change of the R. leguminosarum cells was due to the presence of the E. coli tryptophan operon was verified by the isolation of RP4-trp hybrid plasmid from the R. leguminosarum conjugant cells, and by re-transfer of RP4-trp plasmid by conjugation back to E. coli trp and Pseudomonas putida trp strains. Enzymatic activities of anthranilate synthetase and subunit of tryptophan synthetase in crude extracts of R. leguminosarum cells containing RP4-trp plasmid were much higher than that of the wild-type cells and were not repressed by the presence of tryptophan in the culture medium.     

Further studies on recombination in diploid clones from Bacillus subtilis protoplast fusion

Summary Diploid prototrophs were obtained from protoplast fusion of Bacillus subtilis strains. They are unstable but upon further cultivation they stabilize retaining diploidy but are genetically inactive. It has been suggested that recombination between the parental chomosomes is involved in the production of stable prototrophs and recombinants. In this work the occurrence of this recombination was searched for by determining genetic linkages in transformation experiments. In prototrophs two alleles: hisH2 and trpE8 carried originally on each parental chromosome, were shown to be 48% co-transformable in a stable clone whereas they were only cotransformed in 10% of the unstable colonies. For Trp^- recombinants (the most frequent type of a Leu^- Met^- Thr^- x Ade^- Ura^- Trp^- fusion pair) lysed protoplasts were used as donor DNA for the transformations. High values of co-transfer for Ura⁺ Met⁺ were obtained. These results confirm the occurrence of recombination in stable diploid clones, prototrophs or recombinants.     

Stable transformation and regulated expression of an inducible reporter construct inCandida albicans using restriction enzyme-mediated integration

To allow the regulated expression of cloned genes inCandida albicans, a plasmid was constructed using the inducible promoter of theC. albicans MAL2 gene. To demonstrate that theMAL2 promoter could regulate cloned genes placed under its control, a fusion construct was made with the coding sequence of theC. albicans URA3 gene. This plasmid was introduced into a Ura^– strain ofC. albicans using the process of restriction enzyme-mediated integration (REMI). This procedure involves the transformation of theBamHI-linearized plasmid in the presence ofBamHI enzyme. The majority of transformants generated contained insertions of the plasmid at chromosomalBamHI sites. All transformants examined were inducible forURA3 expression, which was determined by growth analysis and by measuring the level ofURA3 gene product activity. The Ura⁺ phenotype of the transformants was stable during growth under nonselective conditions. This system offers the advantages of stable transformation, easy recovery of integrated DNA, and inducible expression of genes inC. albicans.Deceased, December 15, 1995     

Plasmid-mediated control of nodulation in Rhizobium trifolii

The nodulation ability was effectively eliminated from different Rhizobium trifolii strains incubated at elevated temperature (urkowski and Lorkiewicz, 1978). Non-nodulating (Nod^-) mutants were stable and no reversion of Nod^- to Nod⁺ phenotype was observed. Strains R. trifolii 24 and T12 which showed a high percentage of elimination of nodulation ability were examined in detail. Two plasmids were detected in strain 24 using neutral and alkaline sucrose gradient centrifugation of plasmid preparations. Molecular weights of the plasmids pWZ1 and pWZ2 were 460 Mdal and 190 Mdal, respectively. Rhizobium lysates labeled with ³H-thymidine and ultracentrifuged in caesium chloride — ethidium bromide gradients demonstrated a 40% reduction of the plasmid DNA content in R. trifolii 24 Nod^- mutants in comparison with the nodulating wild type strain 24. It was found further that non-nodulation of mutants 24 Nod^- was due to the absence of plasmid pWZ2. Sucrose gradient data also demonstrated that strain T12 contained two plasmids with molecular weights corresponding to those of pWZ1 and pWZ2, respectively. In Nod^- mutant clones derived from strain T12, pWZ2 plasmid was missing.Non Standard Abbreviations CCC covalently closed circular - OC open cirucular - Sarkosyl sodium N-lauroylsarcosinate     

Development of an integrative DNA transformation system for the yeast Hansenula anomala

A host-vector system for the yeast Hansenula anomala was developed. The system was based on an auxotrophic mutant host of H. anomala which was defective in orotidine-5′-phosphate decarboxylase (ODCase) activity. The H. anomala ODCase-negative mutant strains (ura3 strains) were isolated based on 5-fluoroorotic acid (5-FOA) resistance. A plasmid vector containing the H. anomala URA3 gene was used for transformation. Using this plasmid, all of the H. anomala ura3 strains tested could be transformed to Ura⁺ phenotypes. In all of Ura⁺ transformants, the introduced plasmid was integrated into the chromosomal URA3 locus by homologous recombination. The Ura⁺ phenotype of the transformants was stably maintained after nonselective growth.     

Ars region in TL-DNA on octopine type Ti plasmids

Summary In the TL-DNA region of the octopine type Ti plasmids, an ars region was assigned as the DNA segment conferring the replicational ability to YIp5 in Saccharomyces cerevisiae. T-DNA:YIp5 hybrid plasmids containing a particular T-DNA region could transform yeast cells at a frequency of 10³–10⁴ transformants per g plasmid DNA and they were rescued in Escherichia coli, although the transformed phenotype was mitotically unstable. The instability was inferred to be caused by segregation of the plasmids due to their low efficiency of replication. The ars region was mapped on the noncoding region between the coding regions corresponding to no. 5 and no. 7 mRNA, and its minimal length determined in this experiment was about 150 bp.Abbreviations Ti plasmid tumor inducing plasmid - T-DNA transferred DNA or tumor DNA - TL-DNA left T-DNA - ars autonomously replicating sequences     

Cotransformation of lactococcin-producing, 2.0-mega dalton and erythromycin-resistant pGB 301 plasmids toLactococcus lactis subsp.lactis protoplast

Protoplasts of plasmid-freeLactococcus lactis subsp.lactis LM 0230 and PC₄ strains were cotransformed successfully with the plasmid pools ofL. lactis subsp.lactis 484, a lactosefermenting (Lac⁺), lactococcin-producing (Lap⁺), lactococcin-resistant (Lap^r), sucrosefermenting (Suc⁺) wild strain, its derivatives, and pGB 301 erythromycin resistance plasmid (Ery^r) at the frequencies of 10⁴ transformants/g of DNA. PC₄ protoplasts were transformed at slightly lower frequencies that LM 0230 protoplasts when the same plasmid combinations were used for transformation. Agarose gel electrophoresis of plasmids from three groups of transformants, namely, Lac^–Lap^–Ery^r, Lac⁺Suc⁺Lap⁺Lap^rEry^r, and Lac^–Suc⁺Lap⁺ Lap^rLap^r, confirmed that 2.0 and 65.0 megadalton (MDa) plasmids carried genes for Suc⁺Lap⁺Lap^r and Lac⁺ phenotypes respectively. The protoplasts could be transformed with low-molecular-weight 2.0 MDa Lap plasmid at a relatively higher frequency than those with high-molecular-weight 65.0 MDa Lac plasmid. All the transformants resembled parent culture 484 in terms of lactic acid production (0.810–0.840%), milk curdling time (6 h), and lactococcin activity (7–12 mm, zone of inhibition) againstListeria monocytogenes, Salmonella typhi, andStaphylococcus aureus. The plasmids and their respective phenotypes in PC₄ transformants were genetically more stable than those of LM 0230 protoplasts. The marker plasmid pGB 301 disappeared more frequently from the transformants when present in association with the lowmolecular-weight, high-copy-number 2.0 MDa plasmid, thereby suggesting the incompatibility of these two plasmids.     

Cotransformation of Aspergillus nidulans: a tool for replacing fungal genes

Summary When a non-selected DNA sequence was added during the transformation of amdS320 deletion strains of Aspergillus nidulans with a vector containing the wild-type amdS gene the AmdS⁺ transformants were cotransformed at a high frequency. Cotransformation of an amdS320, trpC801 double mutant strain showed that both the molar ratio of the two vectors and the concentration of the cotransforming vector affected the cotransformation frequency. The maximum frequency obtained was defined by the gene chosen as selection marker for transformation. Cotransformation was used to induce a gene replacement in A. nidulans. An amdS320 strain was transformed to AmdS⁺ and cotransformed with a DNA fragment containing a fusion between a non-functional A. nidulans trpC gene and the Escherichia coli lacZ gene. Ten AmdS⁺, LacZ⁺ transformants with a Trp^– mutant phenotype were selected. All of these strains could be transformed with a functional copy of the A. nidulans trpC gene, but only two strains yielded TrpC⁺ transformants which, with a low frequency, had a LacZ^– phenotype. These latter transformants had also lost the AmdS⁺ phenotype. Southern blotting analysis of DNA from these transformants confirmed the inactivation of the wild-type trpC gene, but revealed that amdS vector sequences were also involved in the gene replacement events.     

Genetic and physical studies of restriction-deficient mutants of the Inc FIV plasmids R124 and R124/3

Summary R124 and R124/3 are R plasmids that carry the genes for two different restriction and modification systems. The phenotype of strains carrying either of these plasmids along with the F'lac ⁺ plasmid, is restriction-deficient (Res^-). The Res^- phenotype is not due to selection of preexisting mutants but rather to a complex mutational event caused by the F plasmid. Restriction-deficient mutants carry extensive deletions and other DNA rearrangements. Tn7 insertion is used to locate the restriction gene. Many of the Res^- mutants are genetically unstable and revert at exceptionally high frequencies. Reversion is accompanied by DNA rearrangements which result in a net gain of 9 kb of DNA. F derivates of F⁺ which do not cause restriction-deficiency but do cause deletion were used to distinguish between the DNA rearrangements associated with restriction-deficiency and those associated with deletion. From Res⁺ revertants of strains carrying F'lac ⁺ and R124 or R124/3 we have isolated F plasmids that now carry the genes for the R124 or R124/3 restriction and modification systems. It is suggested that interaction between part of the F plasmid and that segment of the R plasmid which controls the switch in Res-Mod specificity which has been observed (Glover et al. 1983) is responsible for the production of restriction-deficiency.     

Genetic analysis of Aspergillus nidulans AmdS+ transformants

Summary To correlate the genetic background of the Aspergillus nidulans amdS deletion strain MH1277 with the integrational behaviour of transforming vectors, classical genetic methods were used to construct AmdS^- strains in which whole chromosomes had been exchanged with those of a master strain. Progeny strains were transformed to the AmdS⁺ phenotype with vector p3SR2. From Southern analysis it was concluded that transformants from all constructions contained tandemly repeated, multiple copy inserts of vector DNA as found for MH1277-derived AmdS⁺ transformants.AmdS⁺ transformants of MH1277 were analysed genetically to prove that the transformant phenotype is genome linked and that transformation by integration can take place on various chromosomes. In one case the AmdS⁺ property showed linkage to both chromosomes II and IV, due to a chromosomal translocation. Sexual analysis of two transformants with AmdS⁺ insertions on the same chromosome revealed a considerable instability of the AmdS⁺ phenotype in one of the strains upon selfing. Due to this instability no decisive answer could be given for the degree of linkage between the AmdS⁺ insertions in these transformants.     

Expression ofKlebsiella pneumoniae nif genes inProteus mirabilis

Self-transmissible plasmids carryinghis andnif genes fromKlebsiella pneumoniae have been introduced into threehis mutants ofProteus mirabilis: strains 5006-1, WR19 and WR20. Expression ofhis by the transconjugants was unequivocal, if slightly temperature-sensitive, but none was Nif⁺ when tested for acetylene reduction in anaerobic glucose medium using inocula from rich or glucose-minimal aerobic agar cultures. Succinate or pyruvate in place of glucose, low glucose, lower temperature or elevated Na₂MoO₄ did not allownif expression and no nitrogenase MoFe-protein peptide was detected immunologically after exposure to conditions in which diazotrophic enterobacteria, normal or genetically constructed, derepressnif.One strain,P. mirabilis WR19, carrying thehis nif Km^r plasmid pMF250 was examined in detail. Thenif activator genenifA was introduced on the plasmid pCK1. Such derivatives remained Nif^- when tested, after aerobic growth on rich agar media, with normal or low glucose, with succinate or with elevated Mo. However, pre-conditioning by aerobic growth on glucose-minimal agar led to subsequent anaerobic expression ofnif in glucose medium from pMF250 in WR19 carrying pCK1. NH ₄ ⁺ or proline could serve as N-source in the glucose-minimal agar. Maximum activity was about 5% of that ofK. pneumoniae in our assay conditions. Material cross-reacting with anti-serum to the nitrogenase MoFe protein was formed. Nitrogenase activity was not switched off by NH ₄ ⁺ .P. mirabilis WR19 (pCK1) showed NH ₄ ⁺ -constitutive temperature-sensitive kanamycin resistance (anif-related phenotype of this plasmid) in aerobic glucose minimal medium. Expression ofnif inP. mirabilis WR19 (pCK1, pMF250) was NH ₄ ⁺ -repressible despite the constitutivenifA character of pCK1 and introduction of thentrA ⁺ plasmid pMM17 did not alter this phenotype. However, pCK1 did not give rise to NH ₄ ⁺ -constitutive diazotrophy in the wild-typeK. pneumoniae M5al. A construct of WR19 carrying pMF250 and constitutiventrC plasmid (pMD45) remained Nif^- even after pre-growth on glucose-minimal media.We conclude (a) thatP. mirabilis forms a gene product functionally equivalent to that ofntrA inK. pneumoniae, (b) that it forms no functional equivalent of thentrC product in our growth conditions. The need for pre-conditioning on aerobic glucose media remains perplexing.Non-common abbreviation NFDM Nitrogen-free-Davis-Mingioli medium     

Expression of klebsiella his and nif genes in serratia marcescens,Erwinia herbicola and Proteus mirabilis

Plasmid pRD1, an R plasmid of the P incompatibility group which carries his and nif genes from Klebsiella pneumoniae in addition to drug resistance markers derived from RP4, was transferred to His^- mutants of Serratia marcescens, Erwinia herbicola and Proteus mirabilis. His⁺ transconjugants were obtained at low but different frequencies according to recipient genus. Transconjugants all acquired the drug resistance, and were Nif⁺ in S. marcescens and E. herbicola, having acetylene-reducing activities of the same order of magnitude as the parent K. pneumoniae and fixing ¹⁵N₂. No evidence for nif expression in P. mirabilis transconjugants was obtained though the nif genes were present.     

Molecular breeding of the basidiomycete Coprinus cinereus strains with high lignin-decolorization and -degradation activities using novel heterologous protein expression vectors

Two chromosome-integrating vectors, pLC1 and pLC2, were used. The former is the pUC19-based vector carrying the Lentinus edodes ras gene promoter and priA gene terminator, and the latter is the pBR322-based vector carrying the promoter and terminator of the priA gene. The manganese (II) peroxidase (MnP) cDNA (mnpc) derived from Pleurotus ostreatus was fused between the promoter and terminator of pLC1 and pLC2, yielding the recombinant plasmids pLC1-mnp and pLC2-mnp. These plasmids were introduced into protoplasts of the Coprinus cinereus trp1 strain with the C. cinereus TRP1-containing plasmid pCc1001 by co-transformation. Two Trp⁺ transformants for each plasmid, showing clearly higher lignin-decolorization activities, were obtained through introduction of pLC1-mnp and pLC2-mnp. Southern-blot analysis revealed that the four transformants all possess the mnpc sequence on their chromosomes. One Trp⁺ MnP⁺ transformant (named TF2-7), which was derived from the introduction of pLC2-mnp and carried the highest number of copies (approx. 10) of mnpc, showed remarkably high lignin-decolorization and -degradation activities; at the time of cultivation when only 35%–40% of the lignin was decolored and degraded by the control Trp⁺ transformant obtained by the introduction of pCc1001 alone, almost all of the lignin was decolored and degraded by TF2-7. Received: 20 October 1997 / Accepted: 31 October 1997     

Transformation of yeast and Podospora: innocuity of senescence-specific DNAs

Summary Two senscence-specific DNAs (sen-DNAs and ) were tested for their ability to drive autonomous replication in yeast and Podospora. The but not the sequence has autoreplicative (ARS) properties in yeast; the ARS sequences of are not included in the region common to all the sen-DNAs. Neither the nor the sequences can confer autoreplicative properties in Podospora. These sequences inserted into a hybrid vector carrying the suppressor tRNA, su4-1, do not change the mode of transformation of a suppressible leu-1-1 strain of Podospora: the transformation is by integration whether or not the plasmid carries a sen-DNA sequence. The su4-1 gene integrates at its homologous site in a minority of cases. It is possible to reisolate free plasmids at a low frequency from some transformants. The presence of a sen-DNA on the transforming vector has no effect upon the longevity of the transformants.     

Hormonal regulation of zeatin-riboside accumulation by cultured tobacco cells

Auxin (11 M -naphthaleneacetic acid) and cytokinin (1.4 M kinetin) regulate cytokinin accumulation by cytokinin-requiring (C^-) and cytokinin-autotrophic (C⁺) lines of Havana 425 tobacco (Nicotiana tabacum L.) tissues. No trans-zeatin riboside (ZR) (<0.5 pmol·g^-1 fresh weight) was detected in six C^- and nine C⁺ lines grown for 14 d on auxin + cytokinin and auxin medium, respectively. C⁺ lines, but not C^- lines accumulated ZR (1.9–5.1 pmol·g^-1 fresh weight) when incubated on hormone-free medium but both lines accumulated ZR when incubated on kinetin medium. Therefore, it appears that kinetin treatment can induce ZR accumulation and that this accumulation is blocked by auxin treatment. Similar effects were obtained with some lines of cells autotrophic for both auxin and cytokinin. Tobacco plants carrying the dominant Habituated leaf-1 allele (Hl-1) differ from wild-type plants in that leaf-derived tissues in culture exhibit a C⁺ phenotype. No differences in ZR content were found in C⁺ leaf tissues from Hl-1/Hl-1 plants and C⁺ tissues that arise epigenetically in wild-type plants. This indicates that the H-1 allele does not act to induce overproduction of ZR. The Hl-1 allele is known to have oncogenic functions similar to the isopentenyl transferase (ipt) locus of the Ti plasmid. Although Hl-1/Hl-1 cells transformed with Ti plasmids defective at the ipt locus are tumorigenic and hormone-autotrophic in culture, they contain low levels of ZR typical of non-transformed Hl-1/Hl-1 cells. Therefore, the high levels of ZR characteristics of cells transformed with wild-type Ti plasmids are not necessary for expression of the tumor phenotype.Abbreviations C^- cytokinin-requiring phenotype - C⁺ cytokinin-autotrophic phenotype - Hl-1 habituated leaf-1 locus - IPA isopentenyladenosine - ipt isopentenyltransferase gene - ZR trans-zeatin riboside     

Targeted integrative transformation of Candida tropicalis by electroporation

Summary A method for integrative transformation of the diploid yeast Candida tropicalis by electroporation has been developed. By linearizing the transforming plasmid DNA containing the URA3 gene prior to electroporation of recipient cells, its integration was targeted to a specific locus in the genome, resulting in single or multiple tandem integrations. The optimal electroporation conditions for this yeast were established and include an electric pulse of 2.25 kV/cm for a duration of 50 ms. Using these conditions, Ura⁺ transformants were readily obtained at a high frequency (45 transformants/g DNA) as the result of targeted integration of the URA3 gene containing plasmid DNA at the chromosomal ura3 locus. The number of transformants resulting from this procedure is comparable to that achieved with a recently reported spheroplast transformation procedure for C. tropicalis; in addition, it offers the advantages of being simple, rapid and reproducible.     

A versatile and general splitting technology for generating targeted YAC subclones

Yeast artificial chromosomes (YAC) splitting technology was developed as a means to subclone any desired region of eukaryotic chromosomes from one YAC into new YACs. In the present study, the conventional YAC splitting technology was improved by incorporating PCR-mediated chromosome splitting technique and by adding autonomously replicating sequence (ARS) to the system. To demonstrate the performance of the improved method, a 60-kb region from within a 590-kb YAC (clone CIC9e2 from Arabidopsis thaliana chromosome 5) that could not be subcloned using the original method was split to convert into a replicating YAC. Two template plasmids, pSK-KCA and pSKCLY, were used to generate two splitting fragments by PCR. Two splitting fragments consisted of telomeric (C₄A₂)₆ repeats, 400-bp target region, CEN4, H4ARS and Km^r (selective marker for plant transformants), or CgLEU2. These splitting fragments were introduced into Saccharomyces cerevisiae harboring the 100-kb split YAC generated by splitting of the 590-kb YAC and containing the 60-kb region. Among 12 Leu⁺ transformants, four exhibited the expected karyotype in which two newly split 40- and 60-kb chromosomes were generated. These results demonstrate that the improved method can convert a targeted region of a eukaryotic chromosome within a YAC into a replicating YAC.