Use of the Tn903 neomycin-resistance gene for promoter analysis in the fission yeast Schizosaccharomyces pombe

Summary The bacterial neo gene from transposon Tn903 (Tn601) was used for dominant transformation of the fission yeast Schizosaccharomyces pombe. It was found that high transformation efficiency was dependent on a high level of promoter activity, mediated by the strong promoter of the Schizosaccharomyces pombe alcohol dehydrogenase gene (adh1), as shown by comparing the efficiency of transformation to G418-resistance, the resistance levels of transformed cells, and the in vitro aminoglycoside phosphotransferase activity. On the other hand, the heterologous promoter of the Saccharomyces cerevisiae alcohol dehydrogenase I gene (adc1) is shown to be a weak promoter in Schizosaccharomyces pombe, though its activity is significantly enhanced in cells grown on glycerol as a carbon source. This system for selection and detection of promoter-active sequences may provide a useful basis for the analysis of promoter elements in fission yeast.     

Protoplast fusion in a petite-negative yeast,Kluyveromyces lactis

Summary The technique of protoplast fusion has been applied to the problem of unstable diploidy in the yeast Kluyveromyces lactis. By protoplast fusion between heterothallic strains of like mating-type, sporulation-deficient hybrids can be obtained. Biochemical, cytological, and genetical characterisation of these hybrids suggests that the majority of fusion products are diploid. Sporulating hybrids can be constructed by protoplast fusion between homothallic strains. Tetrad analysis of these hybrids demonstrates conclusively the diploid nature of fusion products.     

Homoplasmic yeast cells contain no selectable “hidden” mitochondrial alleles

Summary Zygotes of Saccharomyces cerevisiae that are heteroplasmic for mitochondrial alleles produce diploid progeny that are homoplasmic for one allele or the other, judged by the criterion that upon further subcloning they produce daughter cells of only one phenotype or the other. Here we show that when such cells are subjected to strong selection for the missing allele, it cannot be detected, so that it is probably not present in even a single copy.     

Identification of the heterothallic mutation in HO-endonuclease of S. cerevisiae using HO/ho chimeric genes

HO-endonuclease initiates a mating-type switch in the yeast S. cerevisiae by making a doublestrand cleavage in the DNA of the mating-type gene, MAT. Heterothallic strains of yeast have a stable mating type and contain a recessive ho allele. Here we report the sequence of the ho allele; ho has four point mutations all of which encode for substitute amino acids. The fourth mutation is a leucine to histidine substitution within a presumptive zinc finger. Chimeric HO/ho genes were constructed in vivo by converting different parts of the sequence of the genomic ho allele to the HO sequence by gene conversion. HO activity was assessed by three bioassays: a mating-type switch, extinction of expression of an a-specific reporter gene, and the appearance of Can^r Ade^- papillae resulting from excision of an engineered Ty element containing the HO-endonuclease target site and a SUP4 ^o gene. We found that the replacement of the fourth point mutation in ho to the HO sequence restored HO activity to the chimeric endonuclease.     

The Escherichia coli recA gene increases UV-induced mitotic gene conversion in Saccharomyces cerevisiae

The effect of the Escherichia coli RecA protein on mitotic recombination in the diploid D7 strain of Saccharomyces cerevisiae damaged by UV radiation was investigated. The D7 strain was transformed by two modified versions of the pNF2 plasmid: one, containing the ADH-1 promoter, and the other containing the recA gene tandemly arranged behind the ADH-1 promoter region. Immunological analysis proved the presence of the 38-kDa RecA protein in D7/pNF2ADHrecA transformants. We observed a positive effect of recA gene expression on mitotic gene conversion, mainly at higher doses of UV radiation. The results indicate that a RecA-like activity could participate in steps preceeding mitotic conversion events in yeast.     

Evidence for autonomous replication and stabilization of recombinant plasmids in the transformants of yeast Hansenula polymorpha

Summary For the transformation of the yeast Hansenula polymorpha we have constructed a set of hybrid plasmids carrying the LEU2 gene of Saccharomyces cerevisiae as a selective marker and fragments of mitochondrial DNA of Candida utilis and H. polymorpha or chromosomal DNA fragments of H. polymorpha as replicator sequences. The replication properties of chimeric plasmids in the yeast H. polymorpha were investigated. We showed that for plasmids propagated autonomously in this yeast the plasmid monomers could be detected in the transformants only during the immediate time after the transformation event. Further growth under selective conditions led to the selection of polymeric forms of plasmid DNA as it was clearly shown for transformants carrying cosmid pL2 with mtDNA fragment of C. utilis. Such transformants carrying polymerized plasmids showed a remarkably increased stability of the transformed phenotype. Cosmid pL2 was able to shuttle between Escherichia coli, S. cerevisiae and H. polymorpha, whereas plasmids with DNA fragments from H. polymorpha did not transform S. cerevisiae effectively.     

Construction and characterization of a haploid strain of Saccharomyces cerevisiae that completely lacks all genomic CYH2 sequences

Summary A diploid strain of the yeast Saccharomyces cerevisiae has been constructed that has one copy of the ribosomal protein gene CYH2 completely deleted and replaced with the TRP1 gene using the method of Rothstein (1983). There are only small differences in growth rate and no detectable difference in steady state level of CYH2 mRNA between the diploid that is heterozygous for the CYH2 deletion and the parent diploid with two normal copies of this gene. This suggests that the diploid must partially compensate for the loss of one CYH2 gene. Tetrad dissection shows that haploid spores lacking the CYH2 gene cannot germinate. The lethality of this deletion can be rescued by a CYH2 cDNA on a low copy vector. Haploids which lack the genomic copy of the CYH2 gene, but contain a plasmid copy of the CYH2 cDNA are able to grow normally. These CYH2 deleted yeast haploids should be useful to analyze mutationally altered CYH2 genes and genes homologous to CYH2 from other organisms without interference from a genomic copy.     

A DNA sequence in Saccharomyces exiguus is homologous with the HO gene of Saccharomyces cerevisiae

Summary The DNA of Saccharomyces exiguus was analyzed by Southern hybridization using cloned MATa, MAT, and HO genes of Saccharomyces cerevisiae as probes. It was shown that S. exiguus has a DNA sequence homologous with the HO gene of S. cerevisiae and that this DNA sequence is on a chromosome of about 940 kb of DNA in S. exiguus. However, there is no DNA sequence in S. exiguus that is homologous with the MAT genes of S. cerevisiae.     

Induction of heterothallic strains and their genetic and physiological characterization in a homothallic strain of the yeast Saccharomyces exiguus

Summary We isolated heterothallic strains from a homothallic strain of S. exiguus by mutagenization with UV or ethylmethanesulfonate (EMS). A gene, not linked to the mating-type locus, was found to control homothallism in the yeast, as in S. cerevisiae. Pheromone of S. exiguus (^se pheromone) induced formation of large pear-shaped cells (shmooing) in a strains of S. exiguus, S. cerevisiae, and S. kluyveri, and sexual agglutinability of an inducible a strain of S. cerevisiae. ^se Pheromone is a peptidyl substance a little different from pheromone of S. cerevisiae. a Pheromone of S. exiguus acts only on a cells of S. exiguus. Contrary to the above results, neither sexual agglutination nor zygote formation occurred among these three Saccharomyces yeasts.     

Cosmids carrying Aspergillus terreus DNA can integrate into Saccharomyces cerevisiae chromosome XII via recombination between yeast and foreign DNAs

Summary A genome clonotheque consisting of 25- to 40-kb Sau3A1 fragments of Aspergillus terreus DNA was constructed in the episomal cosmid vector pES33 containing the yeastARG4 gene. From the 475 transformants of cir° yeast strain ESH-0, 23 stable Arg ⁺ transformants were independently selected. Genetic and Southern analysis of these stable transformants showed that 39% arose as a result of recombination between cloned A. terreus DNA sequences and yeast chromosome XII. The recombination events most likely occurred in the regions of homology within the rDNA clusters of A. terreus and Saccharomyces cerevisiae.     

A mutated swi4 gene causes duplications in the mating-type region of Schizosaccharomyces pombe

Summary Efficient mating-type (MT) switching in homothallic strains of Schizosaccharomyces pombe is significantly reduced if they have a mutation in any of the eleven known swi genes. The swi4 mutation causes heterothallic as well as homothallic segregants, both of which have duplications in the MT region. In contrast to homothallic strains, h ⁺ swi4 strains yield only a few duplications. The duplications originate in the process of MT switching, presumably by mistakes in the resolution of DNA intermediates. They always consist of one cassette and one of the intervening sequences, L and K respectively. Strains with up to seven cassettes in the MT region were found. The possible modes of their origins are discussed.     

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     

Cloning and functional characterization of a fatty acid synthase component FAS2 gene from Saccharomyces kluyveri

A gene coding the α subunit of fatty acid synthase (FAS2) was isolated from the budding yeast Saccharomyces kluyveri. Nucleotide sequence analysis indicated that this gene, termed Sk-FAS2, coded a protein having an amino acid sequence 83% identical to the FAS2 protein of S. cerevisiae (Sc-FAS2). The Sk-FAS2 gene was able to functionally complement an S. cerevisiae fas2 disruptant. This Sk-FAS2-expressing strain was found to produce larger amounts of C18 than C16, in contrast to the Sc-FAS2-expressing fas2 strain. In addition, fusion genes of Sk-FAS2 and Sc-FAS2 were transformed into a fas2-disrupted strain of S. cerevisiae, and fatty acid analysis of these transformants suggested that the region containing the acyl carrier protein and β-ketoacyl reductase domains of yeast FAS2 protein play an important role in determining carbon chain length of fatty acids.GenBank Submission: The nucleotide sequences reported in this paper have been submitted to GenBank Nucleotide Sequence Database under the accession number AB115969.     

Characterization of inl + transformants of Neurospora crassa obtained with a recombinant cosmid-pool

Summary We constructed a Neurospora crassa gene library in a cosmid vector and used the cosmid-pool DNA to transform an inl, rg Neurospora crassa strain to inositol prototrophy. The inl ⁺ colonies obtained in this experiment proved to be integrative type transformants. Genetic analysis revealed that the integration event occurred at or near the inl locus. In one of the transformants the inl ⁺ trait exhibited mitotic and meiotic instability. In hybridization experiments free plasmids were detected in the F₁ progeny of the transformants. We were able to recover eleven different plasmids from the F₁ progeny of the transformants. None of these plasmids proved to carry a functional copy of the inl ⁺ gene as judged by its transforming ability. Possible explanations for the observed phenomena are discussed.     

Homo- and heterothallic sexual types in Schizosaccharomyces pombe var. malidevorans

Summary Although some differences are remarkable, the sexual system of Schizosaccharomyces pombe var. malidevorans is, in principle, compatible with that of Schizosaccharomyces pombe var. pombe. It has two heterothallic types analogous to Leupold's h ⁺ h^–, and a homothallic type, called spotty, which resembles h ⁹⁰. In addition, pseudoheterothallic types (pseudo-h ^– and pseudo-h ⁺) similar to certain mutants of S.p.v. pombe defective in conjugation were also found, as well as a homothallic type (grey) which has not been described in S. p. v. pombe. Genetic analysis of various hybrids constructed by mating and protoplast fusion revealed the probable genetic determination of the sexual types. Assuming a mating-type region similar to that of S.p.v. pombe, a five-gene-system can be supposed. The mat-locus is the residence of the expressible mating type information (either plus or minus), one gene determines whether the clone is homo- or heterothallic, another one regulates the intensity of mating and sporulation, and two are responsible for accomplishing certain mating-type dependent conjugation functions.     

Identification of a lys2 mutant of Candida maltosa by means of transformation

Summary We have isolated five mutants of Candida maltos, which lack the 2-aminoadipate reductase activity, an enzyme involved in the lysine biosynthesis. By means of complementation analysis using protoplast fusion, the isolated mutants were divided into two complementation groups. Thereof the C. maltosa strain G457 could be transformed by the plasmids pDP12 and pDP13, which contain the L YS2-coding gene of Saccharomyces cerevisiae. On the basis of our presented results obtained by studies on hybridization, stability, and recovery of plasmids from C. maltosa transformants, we suggest that transformation does proceed integratively.Abbreviations AA 2-aminoadipate - PRA phosphoribosylanthranilate     

Multicopy SUP35 gene induces de-novo appearance of psi-like factors in the yeast Saccharomyces cerevisiae

Previously, we have shown that plasmid-mediated multiplication of Saccharomyces cerevisiae wild-type SUP35 gene leads to omnipotent suppression and is incompatible with psi-factor, which is an endogenous extrachromosomal suppressor. Here, we describe a frequent de-novo appearance of psi-like factors in mitotic progeny of yeast transformants containing multicopy SUP35 gene.     

Cloning and identification of a DNA fragment coding for the sup1 gene of Saccharomyces cerevisiae

Summary A plasmid, pYsup1-1, containing a DNA fragment able to suppress the recessive mutant phenotype of the suppressor locus sup1 (allele sup1-ts36) of Saccharomyces cerevisiae was isolated from a bank of yeast chromosomal DNA cloned in cosmid p3030. The complementing gene was localized on a 2.6 kb DNA fragment by further subcloning. Evidence is presented that the cloned DNA segment codes for the sup1 structural gene (chromosome IIR).     

New alleles of mgm1: a gene encoding a protein with a GTP-binding domain realted to dynamin

Three previously described genes that affect baker's yeast (Saccharomyces cerevisiae) mitochondrial DNA (mtDNA) or mitochondrial RNA, tpm2-1, mnal-1, and mgml-1, are shown to be alleles of the same gene. This report demonstrates that tpm2-1 does not affect recombination of mtDNA. Therefore, there is no evidence that this dynamin-like protein is involved in movement of mtDNA within a cell.     

Characterization of the <Emphasis Type="Italic">Arxula adeninivorans AHOG1</Emphasis> gene and the encoded mitogen-activated protein kinase

Arxula adeninivorans is an osmo-resistant yeast species that can tolerate high levels of osmolytes like NaCl, PEG400 and ethylene glycol. As in other yeast species, this tolerance is elicited by components of the high osmolarity glycerol (HOG) response pathway. In the present study, we isolated and characterized as a key component of this pathway the A. adeninivorans AHOG1 gene encoding the mitogen-activated protein (MAP) kinase Ahog1p, an enzyme of 45.9 kDa. The gene includes a coding sequence of 1,203 bp disrupted by a 57-bp intron. The identity of the gene was confirmed by complementation of a hog1 mutation in a Saccharomyces cerevisiae mutant strain and the high degree of homology of the derived amino acid sequence with that of MAP kinases from other yeasts and fungi. Under stress-free conditions, the inactive Ahog1p is present in low levels. When exposed to osmotic stress, Ahog1p is rendered active by phosphorylation. In addition, AHOG1 expression is increased. Assessment of the AHOG1 promoter activity with a lacZ reporter gene confirmed its inducibility by osmolytes, a characteristic not observed in homologous HOG1 genes of other yeast species. This specific property could account for the fast adaptation and high osmo-resistance encountered in this species.