The effect of amitrole (3-amino-1H-1,2,4-triazole) on cytokinin activity and sexual reproduction in the yeast Schizosaccharomyces octosporus

Cytokinin activity in extracts from actively growing cultures ofSchizosaccharomyces octosporus was greatly reduced by exposure to amitrole (5 × 10^–3M). Amitrole treatment, at the same concentration, stimulated cell enlargment and ascus production in this organism. These data suggest that a relationship may exist between low levels of endogenous cytokinins, cell expansion in preference to cell division, and ascus formation.     

Chitin in the cell wall of yeasts

Summary According to literature a glucan is the main cell wall constituent of baker's yeast and probably of all yeasts. Chitin is reported in some filamentousEndomycetaceae, but is said to be absent in all other yeasts tested.A modified chitosan sulphate crystallization test for detecting chitin in yeasts and the relevant characteristics of these crystals were described. It was applied to 29 yeast species in addition to baker's and brewer's yeast. ExceptSchizosaccharomyces octosporus all were found to contain chitin as a cell wall constituent. However, the amount was very small, varied in different species and seemed to increase in older cultures.Chitin has also been demonstrated as glucosamine on paper chromatograms of concentrated hydrolysates of the cell wall residue, obtained after treating baker's yeast with boiling dilute alkali and acid.     

Resistance to Cadmium Ions and Formation of a Cadmium-Binding Complex in Various Wild-Type Yeasts

The resistance to cadmium ions (Cd-resistance) and possibleformation of cadmium-binding complexes were examined in eightdifferent wild-type yeasts. Saccharomyces exiguus, Pichia farinosa,Torulaspora delbrueckii and Schizosaccharomyces octosporus exhibitedpartial Cd-resistance, as compared to the Cd-resistant strain301N and the Cu-resistant but Cd-sensitive strain X2180-1B ofSaccharomyces cerevisiae. Saccharomyces carlsbergensis, Pichiamogii, Zygosaccharomyces rouxii and Kluyveromyces lactis wereall Cd-sensitive. The partially Cd-sensitive species, with theexception of S. exiguus, accumulated Cd²⁺ ions in the cytoplasmicfraction to varying extents. This fraction from S. octosporusincluded a Cd-binding complex that contained (     

The sixth transmembrane region of a pheromone G-protein coupled receptor,Map3, is implicated in discrimination of closely related pheromones in Schizosaccharomyces pombe

Most sexually reproducing organisms have the ability to recognize individuals of the same species. In ascomycete fungi including yeasts, mating between cells of opposite mating type depends on the molecular recognition of two peptidyl mating pheromones by their corresponding G-protein coupled receptors (GPCRs). Although such pheromone/receptor systems are likely to function in both mate choice and prezygotic isolation, very few studies have focused on the stringency of pheromone receptors. The fission yeast Schizosaccharomyces pombe has two mating types, Plus (P) and Minus (M). Here, we investigated the stringency of the two GPCRs, Mam2 and Map3, for their respective pheromones, P-factor and M-factor, in fission yeast. First, we switched GPCRs between S. pombe and the closely related species Schizosaccharomyces octosporus, which showed that SoMam2 (Mam2 of S. octosporus) is partially functional in S. pombe, whereas SoMap3 (Map3 of S. octosporus) is not interchangeable. Next, we swapped individual domains of Mam2 and Map3 with the respective domains in SoMam2 and SoMap3, which revealed differences between the receptors both in the intracellular regions that regulate the downstream signaling of pheromones and in the activation by the pheromone. In particular, we demonstrated that two amino acid residues of Map3, F214 and F215, are key residues important for discrimination of closely related M-factors. Thus, the differences in these two GPCRs might reflect the significantly distinct stringency/flexibility of their respective pheromone/receptor systems; nevertheless, species-specific pheromone recognition remains incomplete.     

Genome-wide identification and characterization of replication origins by deep sequencing

Background

DNA replication initiates at distinct origins in eukaryotic genomes, but the genomic features that define these sites are not well understood.

Results

We have taken a combined experimental and bioinformatic approach to identify and characterize origins of replication in three distantly related fission yeasts: Schizosaccharomyces pombe, Schizosaccharomyces octosporus and Schizosaccharomyces japonicus. Using single-molecule deep sequencing to construct amplification-free high-resolution replication profiles, we located origins and identified sequence motifs that predict origin function. We then mapped nucleosome occupancy by deep sequencing of mononucleosomal DNA from the corresponding species, finding that origins tend to occupy nucleosome-depleted regions.

Conclusions

The sequences that specify origins are evolutionarily plastic, with low complexity nucleosome-excluding sequences functioning in S. pombe and S. octosporus, and binding sites for trans-acting nucleosome-excluding proteins functioning in S. japonicus. Furthermore, chromosome-scale variation in replication timing is conserved independently of origin location and via a mechanism distinct from known heterochromatic effects on origin function. These results are consistent with a model in which origins are simply the nucleosome-depleted regions of the genome with the highest affinity for the origin recognition complex. This approach provides a general strategy for understanding the mechanisms that define DNA replication origins in eukaryotes.     

A comparison of three fission yeast mitochondrial genomes

The fission yeasts are members of the fungal order Schizosaccharomycetales, a candidate deep-diverging group within Ascomycota. Although a great deal of molecular information is available from Schizosaccharomyces pombe, a model eukaryote, very little is available from other members of this group. In order to better characterize mitochondrial genome evolution in this fungal lineage, the mitochondrial DNA (mtDNA) of two additional fission yeasts, Schizosaccharomyces octosporus and Schizosaccharomyces japonicus var. japonicus, was sequenced. Whereas the mtDNA of S.pombe is only 19 431 bp, the mtDNA of S.octosporus is 44 227 bp, and that of S.japonicus var. japonicus is over 80 kb. The size variation of these mtDNAs is due largely to non-coding regions. The gene content in the latter two mtDNAs is almost identical to that of the completely sequenced S.pombe mtDNA, which encodes 25 tRNA species, the large and small mitochondrial ribosomal RNAs (rnl and rns), the RNA component of mitochondrial RNaseP (rnpB), mitochondrial small subunit ribosomal protein 3 (rps3), cytochrome oxidase subunits 1, 2 and 3 (cox1, cox2 and cox3) and ATP-synthase subunits 6, 8 and 9 (atp6, atp8 and atp9). However, trnI2(cau) (C modified to lysidine) is absent in the S.octosporus mtDNA, as are corresponding ATA codons in its protein-coding genes, and rps3 and rnpB are not found in the mtDNA of S.japonicus var. japonicus. The mtDNA of S.octosporus contains five double hairpin elements, the first report of these elements in an ascomycete. This study provides further evidence in favor of the mobility of these elements, and supports their role in mitochondrial genome rearrangement. The results of our phylogenetic analysis support the monophyly of the Schizosaccharomycetales, but question their grouping within the Archiascomycota.     

Identification of the yeast genusSchizosaccharomyces by a murine monoclonal antibody

A precise analysis for the identification of the yeast genusSchizosaccharomyces by immunoenzymatic methods is presented. By use of the murine monoclonal antibody JHF13–17, two proteins were recognized in cell extracts ofS. pombe, S. malidevorans, andS. japonicus in Western blot analyses and were termed SSP-A and SSP-B (Schizosaccharomyces-specific proteins). The migration pattern of the proteins was identical in 18 strains of these species that were tested. An analogous protein doublet was also visualized in cell extracts of ten strains ofS. octosporus, and, owing to the migration pattern, these proteins were termed SSP-B and SSP-C. A polyclonal antiserum raised against the SSP-A and SSP-B fromS. pombe cross-reacted with SSP-A and SSP-B fromS. malidevorans andS. japonicus and SSP-B and SSP-C fromS. octosporus.     

Insights into the ecology of Schizosaccharomyces species in natural and artificial habitats

The fission yeast genus Schizosaccharomyces contains important model organisms for biological research. In particular, S. pombe is a widely used model eukaryote. So far little is known about the natural and artificial habitats of species in this genus. Finding out where S. pombe and other fission yeast species occur and how they live in their habitats can promote better understanding of their biology. Here we investigate in which substrates S. pombe, S. octosporus, S. osmophilus and S. japonicus are present. To this end about 2100 samples consisting of soil, tree sap fluxes, fresh fruit, dried fruit, honey, cacao beans, molasses and other substrates were analyzed. Effective isolation methods that allow efficient isolation of the above mentioned species were developed. Based on the frequency of isolating different fission yeast species in various substrates and on extensive literature survey, conclusions are drawn on their ecology. The results suggest that the primary habitat of S. pombe and S. octosporus is honeybee honey. Both species were also frequently detected on certain dried fruit like raisins, mango or pineapple to which they could be brought by the honey bees during ripening or during drying. While S. pombe was regularly isolated from grape mash and from fermented raw cacao beans S. octosporus was never isolated from fresh fruit. The main habitat of S. osmophilus seems to be solitary bee beebread. It was rarely isolated from raisins. S. japonicus was mainly found in forest substrates although it occurs on fruit and in fruit fermentations, too.

     

Phylogenesis of fission yeasts. Contradictions surrounding the origin of a century old genus

The phylogenesis of fungi is controversial due to their simple morphology and poor fossilization. Traditional classification supported by morphological studies and physiological traits placed the fission yeasts in one group with ascomycetous yeasts. The rRNA sequence comparisions, however, revealed an enormous evolutionary gap betweenSaccharomyces andSchizosaccharomyces. As shown in this review, the protein sequences also show a large gap which is almost as large as that separatingSchizosaccharomyces from higher animals. Since the two yeasts share features (both cytological and molecular) in common which are also characteristic of ascomycetous fungi, their separation must have taken place later than the sequence differences may suggest. Possible reasons for the paradox are discussed. The sequence data also suggest a slower evolutionary rate in theSchizosaccharomyces lineage than in theSaccharomyces branch. In the fission yeast lineage two ramifications can be supposed. FirstS. japonicus (Hasegawaea japonica) branched off, thenS. octosporus (Octosporomyces octosporus) separated fromS. pombe.     

Malachite green treatment of industrial Penicillium chrysogenum protoplasts results in increased penicillin-V formation

We attempted protoplast fusion in order to generate gene transfer between an industrial strain of Penicillium chrysogenum and a fission yeast, Schizosaccharomyces pombe. The Penicillium strain was treated with malachite green. The S. pombe strain was auxotrophic for lysine. The regenerated colonies showed Penicillium morphology. The number of Penicillium colonies was significantly higher when the inactivated Penicillium protoplasts were fused to S. pombe protoplasts than in the self-fusion control experiments. We randomly isolated colonies from the regeneration plates and measured beta-lactam formation in cultures from shaken flasks. Antibiotic production was increased in colonies originated from the malachite green-treated protoplasts. Received 2 June 1998/ Accepted in revised form 30 November 1998     

Xerotolerance in fission yeasts and the role of glycerol as compatible solute

The effect on growth of reducing the water activity (a _w) of a medium with various solutes has been investigated for 27 strains of fission yeasts (Schizosaccharomyces). The minimum-tolerated a _w (MTA) was dependent on both the nature of the solute and the species. When the strains of each species were grouped together, the lowest mean MTA values were found with glucose, fructose or glycerol as stressing solutes, being in the range 0.89–0.90 for S. pombe, S. malidevorans, S. octosporus and S. slooffiae, but in the range 0.92–0.94 for S. japonicus. With the non-metabolizable sugars sorbose and xylose and the salts NH₄Cl, KCl, and NaCl, the mean MTA values were in the range 0.96–0.985, except for (1) the single strain of S. slooffiae, which was more tolerant of NH₄Cl and KCl with values of 0.95 and 0.94, respectively, and (2) the strains of S. pombe, S. malidevorans and S. japonicus, which were less tolerant of NaCl with mean values of about 0.99. One strain of each species was examined for intracellular solutes when actively growing in the presence of near-limiting concentrations of stressing solute. With glucose, fructose or glycerol, all five strains contained substantial amounts of glycerol but no other polyol; with the other solutes no glycerol or other polyol was found, except for small amounts of glycerol in strains of S. octosporus and S. slooffiae stressed with NH₄Cl, KCl, or NaCl.Abbreviations MTA Minimum-tolerated water activity - a _w water activity - YEPG yeast extract, phosphate, glucose medium     

Essential and distinct roles of the F-box and helicase domains of Fbh1 in DNA damage repair

Background  

DNA double-strand breaks (DSBs) are induced by exogenous insults such as ionizing radiation and chemical exposure, and they can also arise as a consequence of stalled or collapsed DNA replication forks. Failure to repair DSBs can lead to genomic instability or cell death and cancer in higher eukaryotes. The Schizosaccharomyces pombe fbh1 gene encodes an F-box DNA helicase previously described to play a role in the Rhp51 (an orthologue of S. cerevisiae RAD51)-dependent recombinational repair of DSBs. Fbh1 fused to GFP localizes to discrete nuclear foci following DNA damage.     

Delayed fermentation of sucrose by certain haploid species ofSaccharomyces

Summary Several haploid species ofSaccharomyces andSchiz. octosporus were shown to ferment sucrose in Durham tubes after a delay of 3 to 4 weeks. Detailed studies were done with a strain ofS. rouxii. The delayed fermentation of sucrose was not caused by mutationselection or by inducible enzyme formation, since young glucose grown cells after drying, freezing, aging or autolysis contained an active sucrase. Cells pretreated by drying or freezing fermented sucrose nearly as fast as glucose. After autolysis, the sucrase ofS. rouxii is only present in the cell debris and not in the autolysate. The use of a heavy inoculum in the van Iterson-Kluyver fermentometer resulted in a slow, but non-delayed fermentation. Variation in the pH or sucrose concentration had little effect on the delayed fermentation. It is suggested that after sufficient aging of the cells, the cell wall permeability undergoes a rather abrupt change, allowing the sucrose to come in contact with the sucrase of the cells.     

Yeast strains for concentrated substrates

Summary The screening of twenty yeast strains for ethanol productivity at high osmotic pressure at temperatures ranging from 32°C to 45°C is described. Shake flask fermentations of 30°, 40°, and 50° Bx cane molasses were performed. The effect of temperature on productivity at a non-inhibitory ethanol level is weakly pronounced. Most strains fermented poorly at 50° Bx molasses but two Schizosaccharomyces pombe and one commercial baker's yeast, Saccharomyces cerevisiae performed well at all concentrations of molasses. In an extended study with Schizosaccharomyces pombe (CBS 352) and Saccharomyces cerevisiae (SJAB, fresh yeast), simulating a continuous run it was shown that Schizosaccharomyces pombe was less sensitive to high DS than Saccharomyces cerevisiae. At 25% DS the productivity of Schizosaccharomyces pombe is almost twice that of Saccharomyces cerevisiae.     

Purification of the Chlorella HUP1 hexose—proton symporter to homogeneity and its reconstitution in vitro

A prokaryotic biotin acceptor domain was fused to the carboxy terminal end of the Chlorella hexose—proton sym- porter. The plant symporter is biotinylated in vivo when expressed in Schizosaccharomyces pombe. The extended biotinylated transport protein is fully active, catalyzes accumulation of d -glucose analogs and restores growth of a glucose-uptake-deficient yeast strain. Crude membranes were solubilized with octyl-β-d -glucoside in the presence of Escherichia colil -α-phosphatidylethanolamine. Biotinylated symporter was purified to homogeneity by biotinavidin affinity chromatography. The symporter protein was reconstituted together with cytochrome-c oxidase prepared from beef heart mitochondria into proteo-liposomes. Cytochrome-c oxidase is a redox-driven H⁺-pump generating a proton motive force (inside negative and alkaline) while transferring electrons from cytochrome-c to oxygen; this energy is used by the symporter to accumulate d -glucose at least 30-fold. In the absence of the driving force the transport protein facilitates diffusion of d -glucose until the concentration equilibrium is reached. It was shown that maximal transport activity depends highly on the amount of co-reconstituted cytochrome-c oxidase and that the symporter possesses 10% of its in vivo turnover number under optimized in vitro transport conditions.     

Vectors for the expression of tagged proteins in Schizosaccharomyces pombe

A series of vectors is described which enables the episomal expression of proteins fused to different tag sequences in Schizosaccharomyces pombe. Proteins can be expressed with their amino termini fused to GFP/EGFP, three copies of the HA or Pk epitopes or a combined tag which contains two copies of the myc epitope and six histidine residues (MH). Fusion of the carboxyl terminus of a protein to a tag is possible with GFP/EGFP or Pk. Expression of the fusion proteins is controlled by the medium strength mutant version of the regulatable nmt1 promoter.     

Expression of a dominant negative allele of cdc2 prevents activation of the endogenous p34cdc2 kinase

Summary The cdc2 gene of the fission yeast Schizosaccharomyces pombe encodes a 34 kDa phosphoprotein with serine/threonine protein kinase activity that acts as the key component in regulation of the eukaryotic cell cycle. We used a repressible promoter fused to the cdc2 cDNA to isolate conditionally dominant negative mutants of cdc2. One of these mutants, DL5, is described in this paper. Overexpression of the mutant protein in a wild-type cdc2 background is lethal and confers cell cycle arrest with a typical cdc phenotype. Sequencing of the mutant cdc2 gene revealed a single amino acid substitution in a region highly conserved in cdc2-like proteins. The mutant protein exhibits no protein kinase activity, but is able to bind a component(s) required for an active protein kinase complex and thereby prevents binding of this component(s) to the co-existing wild-type cdc2 protein. We also demonstrate that S. pombe p34^cdc2 contains no phosphoserine.     

Enhanced protein secretion from multiprotease-deficient fission yeast by modification of its vacuolar protein sorting pathway

Previously, we achieved approximately 30-fold enhanced secretion of the protease-sensitive model protein human growth hormone (hGH) by multiple gene deletion of seven obstructive proteases in the fission yeast Schizosaccharomyces pombe. However, intracellular retention of secretory hGH was found in the resultant multiprotease-deficient strains. As a solution, genetic modification of the intracellular trafficking pathway that is related to intracellular retention of hGH was attempted on a protease octuple deletant strain. Vacuolar accumulation of the intracellularly retained hGH was identified by secretory expression of hGH fused with EGFP, and three vacuolar protein sorting (vps)-deficient strains, vps10Δ, vps22Δ, and vps34Δ, were determined on account of their hGH secretion efficiency. The mutant vps10Δ was found to be effective for hGH secretion, which suggested a role for vps10 in the vacuolar accumulation of the intracellularly retained hGH. Finally, vps10 deletion was performed on the protease octuple deletant strain, which led to an approximately 2-fold increase in hGH secretion. This indicated the possible application of secretory-pathway modification and multiple protease deletion for improving heterologous protein secretion from the fission yeast S. pombe.     

Schizosaccharomyces malidevorans sp.n., a yeast decomposing L-malic acid

A new yeastSchizosaccharomyces malidevorans sp.n. is described. It resemblesSchizosaccharomyces pombe but differs from it in appearance of the spores and inability to ferment maltose. It decomposesl-malic acid completely in all grape juice and synthetic media tested, but not thed-isomer. During fermentation a copious evolution of hydrogen sulphide occurs.     

Assignment of ten DNA repair genes from Schizosaccharomyces pombe to chromosomal NotI restriction fragments

Summary Ten DNA repair (rad) genes from the fission yeast, Schizosaccharomyces pombe were mapped to the 17 NotI fragments of the three chromosomes. Nine of the genes map to chromosome I, but there is no evidence for significant clustering.