Yeast mutants resistant to ethidium bromide

Summary Yeast mutants resistant to ethidium bromide have been isolated among sensitive grande cells (⁺) for their ability to grow on glycerol in the presence of the dye. Mutant cells are also resistant to acriflavin and do not yield petites (^-) when grown on galactose with the mutagen. Genetic analysis reveals that resistance to ethidium bromide is controlled by a cytoplasmic factor, carried by, or linked to, the determinant (mitochondrial DNA). The expression of resistance to ethidium bromide seems to be related to the presence in the cell of a product of mitochondrial protein synthesis. It is concluded that some mitochondrial DNA sequence is involved in the resistance to ethidium bromide of yeast mitochondria.     

Fermentation study for the production of hepatitis B virus pre-S2 antigen by the methylotrophic yeastHansenula polymorpha

Summary Various physico-chemical parameters have been studied in order to improve the production of hepatitis B virus pre-S2 antigen (middle surface antigen) by the methylotrophic yeastHansenula polymorpha. Antigen production was done in two steps: first, production of cells on glycerol (Phase 1), followed by induction of antigen expression with methanol (Phase 2). Dense cultures ofH. polymorpha, equivalent to 35–40 g/l (dry weight), were readily obtained in small fermenters using minimal medium containing glycerol as carbon source. Antigen expression in this minimal medium, after induction with methanol, was however low and never exceeded 1.6 mg/l of culture. Antigen production was greatly enhanced by adding complex organic nitrogen sources along with methanol at induction time; yeast extract was the best of all the sources tested. In shake flasks, antigen production was proportional to yeast extract concentration up to 7% (w/v) yeast extract. it became clear that the nutritional conditions for good antigen expression were different from those for good biomass production. The effects of yeast extract were reproduced in small fermenters: antigen levels reached 8–9 mg/l in medium containing 6% (w/v) yeast extract during induction with methanol. The mechanisms of yeast extract's effects are still unknown but are probably nutritional. The recombinantH. polymorpha strain produced both periplasmic and intracellular antigen. The periplasmic antigen was shown to be present as 20–22-nm particles and was therefore immunogenic. Immunoblotting indicated that part of the pre-S2 antigen was present as a 24-kDa degradation product. These studies have led to a 140-fold increase in volumetric productivity of antigen and to a 4.6-fold increase in specific production.Part of these results have been presented at the Deuxième Congrès de la Société Française de Microbiologie, Strasbourg, France, September 1989.     

Aspects of physiology of Histoplasma capsulatum (A review)

Yeast and mycelial forms of several strains of Histoplasma capsulatum have been analysed with respect to their ability to grow on a defined medium with or without the amino acid supplement. It appeared that whereas mycelial cells of all strains tested were prototrophic, the yeast cells of most strains stringently required L-cysteine for growth. This was due to the absence from these cells of an active form of an enzyme, sulfite reductase, normally needed for cysteine biosynthesis. We have found that the yeast cells of two strains (Downs and G 184 B) can grow without cysteine supplement if L-serine is added to the medium. These cells have an active sulfite reductase but the enzyme disappears when cysteine is added. Thus, the regulation of sulfite reductase is different in mycelium and yeast — the enzyme is constitutive or repressible, respectively.Examination of RNA synthetic components of H. capsulatum revealed that the major proportion of RNA polymerase of the yeast form is sensitive to inhibition by -amanitin. The sensitivity to the toxin disappears completely upon conversion to mycelial phase. The yeast cells possess an unusual enzyme capable of synthesizing oligonucleotides without the aid of a DNA template. The enzyme stimulates DNA synthesis in the reaction catalyzed by DNA polymerase from H. capsulatum or Escherichia coli. The above data are discussed in terms of regulatory mechanisms involved in the process of morphological conversion. It is proposed that efforts be directed toward the identification and isolation of specific gene products so that qualitative and quantitative analysis of the conversion could be carried out.presented, in part, at the 1st International Histoplasmosis Conference, held on April 10–12, 1978 in Atlanta, Georgia, U.S.A.     

Biogenesis of mitochondria 51

Summary An examination of the effect of the aminoglycoside antibiotics paromomycin and neomycin on mitochondrial ribosome function in yeast has been made. Both antibiotics are potent inhibitors of protein synthesis in isolated mitochondria. With isolated mitochondrial ribosomes programmed with polyuridylic acid (poly U), the drugs are shown to inhibit polyphenylalanine synthesis at moderately high concentrations (above 100 g/ml). At lower concentrations (about 10 g/ml), paromomycin and neomycin cause a 2–3 fold stimulation in the extent of misreading of the UUU codons in poly U, over and above the significant level of misreading catalyzed by the ribosomes in the absence of drugs.Comparative studies have been made between a paromomycin sensitive strain D585-11C and a mutant strain 4810P carrying the parl-r mutation in mtDNA, which leads tohigh resistance to both paromomycin and neomycin in vivo. A high level of resistance to these antibiotics is observed in strain 4810P at the level of mitochondrial protein synthesis in vitro. Whilst the degree of resistance of isolated mitochondrial ribosomes from strain 4810P judged by the inhibition of polyphenylalanine synthesis by paromomycin and neomycin is not extensive, studies on misreading of the poly U message promoted by these drugs demonstrate convincingly the altered properties of mitochondrial ribosomes from the mutant strain 4810P. These ribosomes show resistance to the stimulation of misreading of the codon UUU brought about by paromomycin and neomycin in wild-type mitochondrial ribosomes. Although strain 4810P was originally isolated as being resistant to paromomycin, in all the in vitro amino acid incorporation systems tested here, the 4810P mitochondrial ribosomes show a higher degree of resistance to neomycin than to paromomycin.It is concluded that the parl-r mutation in strain 4810P affects a component of the mitochondrial ribosome, possibly by altering the 15S rRNA or a protein of the small ribosomal subunit. The further elucidation of the functions in the ribosomes that are modified by the parl-r mutation was hampered by the inability of current preparations of yeast mitochondrial ribosomes to translate efficiently natural messenger RNAs from the several sources tested.     

Correlation ofLegionella pneumophila virulence with the presence of a plasmid

Legionella pneumophila is the causative agent of Legionellosis in man and considered an opportunistic intracellular Gram-negative bacterium that preferentially infects macrophages. The presence of a plasmid in these organisms was determined in cultures of the bacteria grown in vitro. A correlation was observed between the growth of virulent strains of theLegionella in murine macrophages and growth on standard buffered charcoal yeast extract agar supplemented with 0.1% -ketoglutarate (BCYE) agar medium rich in cysteine and widely used for growth of the bacteria in vitro. In contrast, the avirulent isolates of these strains grew well on supplemented Mueller-Hinton (SMH) agar utilized for differentiating virulent from avirulentLegionella. However, one virulent strain ofLegionella (the Iowa strain) was found to grow moderately well on the SMH agar. In addition, test strains ofLegionella that infect in vitro human monocytes were found to grow moderately well on the BCYE- agar, but did not grow on the SMH agar. Examination of these strains for plasmid DNA expression showed that extra chromosomal DNA-containing molecules were present in theL. pneumophila strains characterized as virulent for in vitro growth in macrophages. However, the avirulent strains that replicated in the human monocytes readily but only poorly in the permissive murine macrophages did not show evidence of similar plasmid DNA expression.     

Protoplast formation and regeneration of dehydrodivanillin-degrading strains of Fusobacterium varium and Enterococcus faecium

Two strains of rumen anaerobes isolated from dehydrodivanillin-degrading cultures were identified as Fusobacterium varium and Enterococcus faecium. These organisms degraded dehydrodivanillin synergistically to 5-carboxymethylvanillin and vanillic acid. Specific conditions for protoplast formation and cell wall regeneration for both bacteria were determined, under strictly anaerobic conditions, to be as follows. The cell wall of each bacterium in yeast extract medium was loosened by adding penicillin G during early log-phase growth. The cell wall of F. varium was lysed by lysozyme (1 mg/ml) in glycerol (0.2 M)-phosphate buffer (0.05 M; pH 7.0). The addition of NaCl (0.08 M) with lysozyme was necessary for lysis of E. faecium in this solution. Almost all cells were converted to protoplasts after 2 h of incubation at 37 degrees C. Regeneration of both protoplasts was 20 to 30% on an agar-containing yeast extract medium.     

Protoplast formation and regeneration of dehydrodivanillin-degrading strains of Fusobacterium varium and Enterococcus faecium.

Two strains of rumen anaerobes isolated from dehydrodivanillin-degrading cultures were identified as Fusobacterium varium and Enterococcus faecium. These organisms degraded dehydrodivanillin synergistically to 5-carboxymethylvanillin and vanillic acid. Specific conditions for protoplast formation and cell wall regeneration for both bacteria were determined, under strictly anaerobic conditions, to be as follows. The cell wall of each bacterium in yeast extract medium was loosened by adding penicillin G during early log-phase growth. The cell wall of F. varium was lysed by lysozyme (1 mg/ml) in glycerol (0.2 M)-phosphate buffer (0.05 M; pH 7.0). The addition of NaCl (0.08 M) with lysozyme was necessary for lysis of E. faecium in this solution. Almost all cells were converted to protoplasts after 2 h of incubation at 37 degrees C. Regeneration of both protoplasts was 20 to 30% on an agar-containing yeast extract medium.     

Cysteine-independent and cysteine-requiring yeast-strains of Histoplasma capsulatum

Recently we described a strain of Histoplasma capsulatum, designated H-35, which is able to grow as yeast on a minimal medium consisting of inorganic salts, glucose and a trace of biotin. Using this strain as a prototrophic wild type we sought auxotrophic mutants. Mutagenized yeast-cells were starved for inorganic sulfate in sulfur-free minimal medium. Sulfate was then added, and growing prototrophic cells were killed by addition of amphotericin B. After 24 hours non-growing auxotrophs were rescued by removal of amphotericin and addition of yeast extract. This mutant enrichment cycle was repeated two additional times, after which the cells were plated on blood agar and 800 yeast-colonies were picked. Seventeen of these yeast-strains required cysteine for growth, as compared with strain H-35, which grew as yeast on minimal medium.     

Improvement of Bacillus thuringiensis bioinsecticide production by sporeless and sporulating strains using response surface methodology

Statistical experimental designs, involving a Plackett-Burman design followed by a rotatable central composite design were used to optimize the culture medium constituents for Bacillus thuringiensis bioinsecticide production. This was carried out by using firstly an asporogenic strain and extrapolated to some sporeless and sporulating strains. Initial screening of production parameters was performed and the variables with statistically significant effects on delta-endotoxin production were identified: glucose, glycerol, yeast extract and MnSO(4). These variables were selected for further optimization by response surface methodology. The obtained results revealed that the optimum culture medium for delta-endotoxin production consists of 22.5 g/l of glucose, 4.8g/l of glycerol, 5.8 g/l of yeast extract and 0.008 g/l of MnSO(4). Under these conditions, delta-endotoxin production was 2,130 and 2,260 mg/l into 250 and 1,000 ml flask respectively, which represent more than 38% improvement in toxin production over the basal medium (1,636 mg/l). Such medium composition was shown to be suitable for overproducing delta-endotoxins by sporeless and sporulating strains.     

The effect of yeast extract on the fermentation of glucose to 2,3-butanediol by Bacillus polymyxa

The fermentation of glucose to 2,3-butanediol by Bacillus polymyxa was improved by increasing the amount of yeast extract in the culture medium. A level of 1.5% (w/v) resulted in optimal 2,3-butanediol production. A comparable fermentation could be achieved with 0.5% yeast extract if the phosphate level of the medium was increased from 0.0026 to 0.078 M and the medium was supplemented with 40 M iron and 1.7 M manganese.NRCC #23497     

A covert contaminant of cultured plant cells: elimination of a Hyphomicrobium sp. from cultures of Datura innoxia (Mill.)

We have discovered a bacterial contaminant in some cell cultures of Datura innoxia (Mill.). The bacterium was tentatively identified as a species of Hyphomicrobium on the basis of its morphology and life cycle, and was isolated and grown in pure culture on a defined medium. The contaminant was not macroscopically observable in plant cell cultures. It caused neither a reduction of plant cell growth nor a noticeable increase in culture turbidity. Furthermore, it was not readily detectable by many standard assays for culture contamination: it would not grow alone in plant culture medium or yeast extract potato dextrose medium, and grew only very slowly on nutrient agar or beef-peptone medium. Repeated treatments with a combination of streptomycin (100 g/ml) and carbenicillin (100 g/ml) eliminated the contaminant from D. innoxia cell cultures without harming the plant cells.     

Pentamidine inhibits mitochondrial intron splicing and translation in Saccharomyces cerevisiae

Pentamidine inhibits in vitro splicing of nuclear group I introns from rRNA genes of some pathogenic fungi and is known to inhibit mitochondrial function in yeast. Here we report that pentamidine inhibits the self-splicing of three group I and two group II introns of yeast mitochondria. Comparison of yeast strains with different configurations of mitochondrial introns (12, 5, 4, or 0 introns) revealed that strains with the most introns were the most sensitive to growth inhibition by pentamidine on glycerol medium. Analysis of blots of RNA from yeast strains grown in raffinose medium in the presence or absence of pentamidine revealed that the splicing of seven group I and two group II introns that have intron reading frames was inhibited by the drug to varying extents. Three introns without reading frames were unaffected by the drug in vivo, and two of these were inhibited in vitro, implying that the drug affects splicing by acting directly on RNA in vitro, but on another target in vivo. Because the most sensitive introns in vivo are the ones whose splicing depends on a maturase encoded by the intron reading frames, we tested pentamidine for effects on mitochondrial translation. We found that the drug inhibits mitochondrial but not cytoplasmic translation in cells at concentrations that inhibit mitochondrial intron splicing. Therefore, pentamidine is a potent and specific inhibitor of mitochondrial translation, and this effect explains most or all of its effects on respiratory growth and on in vivo splicing of mitochondrial introns.     

Effect of the Medium Composition and Cultivation Conditions on Sporulation in Chemolithotrophic Bacteria

The possibility of regulating endospore formation by changing cultivation conditions was for the first time shown in acidophilic chemolithotrophic bacteria Sulfobacillus thermosulfidooxidans type strain 1269 and the thermotolerant strain K1 formerly described as S. thermosulfidooxidans subsp. thermotolerans. Suppression of sporulation occurred when these strains were cultured in Manning's liquid medium with yeast extract. This medium was optimized by gradually reducing the concentrations of ferrous iron salts (the source of energy), phosphorous, nitrogen, and yeast extract and simultaneously increasing the concentrations of calcium, magnesium, and manganese (the elements important for sporogenesis) to attain higher yields of endospores by strains 1269 and K1. As a result, a new medium A was proposed, in which, under aeration, the life cycle of the strains studied culminated in sporulation at a level of 45 and 60%, respectively, of the total cell number. In a series of additional tests, the growth temperature and medium pH were adjusted to obtain the maximum yield of endospores. The optimal ranges found were 40–50°C and pH 1.8–2.2 for strain 1269 and 35–40°C and pH 2.5–2.7 for strain K1. An even higher yield of endospores, amounting to 55 and 75% for strains 1269 and K1, respectively, was obtained when the above growth conditions were combined (growth on medium A at optimal temperatures and pH under static conditions). Our results suggest a new approach to optimizing sporulation by acidophilic chemolithotrophs, which consists in limiting the energy and nutrient sources and using temperature and pH values within the tolerance bounds of these cultures but outside their growth optimum ranges.     

Development of resistance in slow-growing rhizobia to 1-naphthyl-N-methyl carbamate (sevin)

Summary Different strains of rhizobia (isolated fromLotus corniculatus andVigna unguiculata) andRhizobium meliloti adapt to sevin (50 g/ml). The number of transfers (20–31) and days of incubation (80–130) during which different strains of rhizobia develop resistance varied. The results of reversion of resistance to sevin, experiments showed that the resistance developed was stable. Rate of growth was faster in resistant strains but their final cell numbers were less than those of sensitive strains. Dehydrogenase activity increased with the development of resistance to sevin, except in strain D-467. With the development of resistance to sevin, total lipids and phospholipids decreased, glycolipids increased and neutral lipids varied. Presence of glycerol, sodium oleate and sodium acetate (known to stimulate lipid production) and flavin mononucleotide and wheat germ lipases (known to decrease lipid production) in the culture medium did not change the growth pattern and lipids of the sevin resistant and sensitive strains of rhizobia.     

Mitochondrial mutations restricting spontaneous translational frameshift suppression in the yeast Saccharomyces cerevisiae.

Summary The +1 frameshift mutation, M5631, which is located in the gene (oxi1) for cytochrome c oxidase II (COXII) of the yeast mitochondrial genome, is suppressed spontaneously to a remarkably high extent (20%–30%). The full-length wild-type COXII produced as a result of suppression allows the mutant strain to grow with a leaky phenotype on non-fermentable medium. In order to elucidate the factors and interactions involved in this translational suppression, the strain with the frameshift mutation was mutated by MnCl₂ treatment and a large number of mutants showing restriction of the suppression were isolated. Of 20 mutants exhibiting a strong, restricted, respiration-deficient (RD) phenotype, 6 were identified as having mutations in the mitochondrial genome. Furthermore, genetic analyses mapped one mutation to the vicinity of the gene for tRNA^Pro and two others to a region of the tRNA cluster where two-thirds of all mitochondrial tRNA genes are encoded. The degree of restriction of the spontaneous frameshift suppression was characterized at the translational level by in vivo ³⁵S-labeling of the mitochondrial translational products and immunoblotting. These results showed that in some of these mutant strains the frameshift suppression product is synthesized to the same extent as in the leaky parent strain. It is suggested that more than one +1 frame-shifted product is made as a result of suppression in these strains: one is as functional as the wild-type COXII, the other(s) is (are) non-functional and prevent leaky growth on non-fermentable medium. A possible mechanism for this heterogenous frameshift suppression is discussed.     

Evolutionary Capture of Viral and Plasmid DNA by Yeast Nuclear Chromosomes

A 10-kb region of the nuclear genome of the yeast Vanderwaltozyma polyspora contains an unusual cluster of five pseudogenes homologous to five different genes from yeast killer viruses, killer plasmids, the 2μm plasmid, and a Penicillium virus. By further database searches, we show that this phenomenon is not unique to V. polyspora but that about 40% of the sequenced genomes of Saccharomycotina species contain integrated copies of genes from DNA plasmids or RNA viruses. We propose the name NUPAVs (nuclear sequences of plasmid and viral origin) for these objects, by analogy to NUMTs (nuclear copies of mitochondrial DNA) and NUPTs (nuclear copies of plastid DNA, in plants) of organellar origin. Although most of the NUPAVs are pseudogenes, one intact and active gene that was formed in this way is the KHS1 chromosomal killer locus of Saccharomyces cerevisiae. We show that KHS1 is a NUPAV related to M2 killer virus double-stranded RNA. Many NUPAVs are located beside tRNA genes, and some contain sequences from a mixture of different extrachromosomal sources. We propose that NUPAVs are sequences that were captured by the nuclear genome during the repair of double-strand breaks that occurred during evolution and that some of their properties may be explained by repeated breakage at fragile chromosomal sites.It is well known that the nuclear genomes of most eukaryotes contain integrated fragments of organellar DNA called NUMTs (nuclear copies of mitochondrial DNA) and NUPTs (nuclear copies of plastid DNA, in plants) (26, 29, 44, 45, 57). These fragments are usually pseudogenes, although some NUMTs and NUPTs have become incorporated into functional nuclear genes (38). The NUMTs present in the nuclear genomes of Saccharomycotina yeast species were recently analyzed by Sacerdot et al. (48).In addition to their mitochondrial genomes, yeast species contain a variety of other extranuclear DNA and RNA elements, including viruses and plasmids. These extrachromosomal elements are usually considered to be autonomous entities that do not interact with nuclear DNA. When our laboratory sequenced the genome of the yeast Vanderwaltozyma polyspora (synonym: Kluyveromyces polysporus) (49), we were therefore surprised to find the genomic region we describe here, which contains integrated fragments of several plasmid- and virus-like sequences. We propose that this region was formed by the capture of plasmid and viral sequences by the same mechanism that captures mitochondrial DNA to form NUMTs (43, 65). In a literature search, we could find only one previous report of a similar finding: Utatsu et al. (59) reported the sequences of two regions of nuclear DNA from Zygosaccharomyces rouxii that were highly similar to parts of the 2μm-like plasmid pSR1 from that species, but rearranged.Before describing the V. polyspora region, and similar regions found in other species, we will first briefly introduce the extrachromosomal RNA and DNA entities that are known to exist in yeasts. Extrachromosomal nucleic acids are relatively uncommon in yeasts: a broad survey of 1,800 strains from 600 species by Fukuhara (14) found that 196 strains (11%) contained some sort of extrachromosomal entity. Among these, 105 strains had a double-stranded RNA (dsRNA), 28 had a linear dsDNA plasmid, and 53 had a circular DNA plasmid of the 2μm family. These elements typically also have a patchy distribution within a species, being found in some individuals or strains but not in others. For instance, Nakayashiki et al. (37) surveyed 70 “wild” strains of Saccharomyces (mostly S. cerevisiae) for the presence of five extrachromosomal elements (2μm DNA plasmid, L-A and L-BC helper RNA viruses, and W and T RNA entities) and found each element to be present in between 1 and 38 of the strains, with 1 strain even containing all five elements simultaneously.     

Production of arachidonic acid by Mortierella fungi

Summary Various Mortierella fungi were assayed for their productivity of arachidonic acid (ARA). Only strains belonging to the subgenus Mortierella accumulated detectable amounts of ARA together with dihomo--linolenic acid. None of the strains belonging to the subgenus Micromucor tested accumulated these C-20 fatty acids, although they produced a C-18 fatty acid, -linolenic enic acid. A soil isolate, M. alpina 1S-4, was found to grow well in a liquid medium containing glucose and yeast extract as carbon and nitrogen sources, respectively. Addition of several natural oils such as olive and soybean oils to the medium increased the accumulation of ARA. Under optimal culture conditions in a 5-1 bench-scale fermentor, the fungus produced 3.6 g/l of ARA in 7 days. On cultivation for 10 days at 28°C in a 2000-1 fermentor, the same fungus produced 22.5 kg/kl mycelia (dry weight) containing 9.9 kg lipids, in which ARA comprised 31.0% of the total fatty acids. On standing the harvested mycelia for a further 6 days, major mycelial fatty acids (i.e. palmitic acid, oleic acid, linoleic acid, etc.) other than ARA rapidly decomposed and the ARA content of the total fatty acids reached nearly 70%.