Molecular approaches of a mitochondrial mutation inCandida utilis

Analysis of the cytochrome spectra of a mitochondrial mutant ofCandida utilis showed complete absence of apocytochromeb; this suggests a certain degree of damage, probably a small deletion in themit genes of mitochondrial DNA. Oxygen uptake measurements with and without cyanide of the respiratory-competentCandida utilis parent strain and its derivative mitochondrial mutant P_1,2 indicated the absence of the cyanide-sensitive or normal respiratory chain and a lowered rate of cyanide-insensitive or alternate respiration. Mitochondrial profiles and distribution of parental and mutant cells account for an altered mitochondrial DNA which affects mitochondria in the latter cell shape and function. The mutant cells ofCandida utilis were considered asmit ^– mutants from the observations reported here.     

Repair of DNA double-strand breaks requires two homologous DNA duplexes

DNA repair and cell survival in haploid and its diploid derivative strains ofSaccharomyces cerevisiae were studied after 100 krad X-ray irradiation. The cells were in theG ₁ stage of the cell cycle, where haploid cells had only one copy of genetic material per genome and diploid had two copies. It was found that diploid could repair double-strand breaks in its DNA after 48 hr of liquid holding which was accompanied by a four-fold rise in survival. In contrast a haploid strain failed to repair its DNA and showed no increase in survival after liquid holding. It is concluded that (1) repair of DNA double-strand breaks requires the availability of two homologous DNA duplexes, (2) restoration of cell viability during liquid holding is connected with repair of DNA double-strand breaks and (3) this repair is a slow process possibly associated with slow finding and conjugation of homologous chromosomes.     

Investigations of mannan and glucan in the cell wall ofCandida boidinii cultivated on methanol

The polysaccharide components (mannan and glucan) in the cell wall ofCandida boidinii M 363 grown on methanol and glucose as control were investigated using electron microscopy, cytochemical and biochemical methods. An ultrastructural rearrangement of the polymers in the cell wall of yeasts cultivated on methanol in comparison to those cultivated on glucose was established. The morphological changes correlate to the quantitative changes in the polysaccharide constituents of the cell wall. The forming and the role of thiosemihydrocarbazide (TSHC) — negative zones in theCandida boidinii cell wall cultivated on methanol media are discussed.     

Nitrate and nitrite reductase negative mutants of N2-fixingAzospirillum spp.

Chlorate resistant spontaneous mutants ofAzospirillum spp. (syn.Spirillum lipoferum) were selected in oxygen limited, deep agar tubes with chlorate. Among 20 mutants fromA. brasilense and 13 fromA. lipoferum all retained their functional nitrogenase and 11 from each species were nitrate reductase negative (nr^–). Most of the mutants were also nitrite reductase negative (nir^–), only 3 remaining nir⁺. Two mutants from nr⁺ nir⁺ parent strains lost only nir and became like the nr⁺ nir^– parent strain ofA. brasilense. No parent strain or nr⁺ mutant showed any nitrogenase activity with 10 mM NO ₃ ^– . In all nr^– mutants, nitrogenase was unaffected by 10 mM NO ₃ ^– . Nitrite inhibited nitrogenase activity of all parent strains and mutants including those which were nir^–. It seems therefore, that inhibition of nitrogenase by nitrate is dependent on nitrate reduction. Under aerobic conditions, where nitrogenase activity is inhibited by oxygen, nitrate could be used as sole nitrogen source for growth of the parent strains and one mutant (nr^– nir^–) and nitritite of the parent strains and 10 mutants (all types). This indicates the loss of both assimilatory and dissimilatory nitrate reduction but only dissimilatory nitrite reduction in the mutants selected with chlorate.     

The induction of pigmentation change in a non-acid-fast strain ofMycobacterium phlei by ultraviolet radiation

Five scotochromogenic mutants and 11 achromogenic mutants were induced by UV irradiation of the non-acid-fast photochromogenic PN strain ofMycobacterium phlei. Spontaneous scotochromogenic and achromogenic mutants were not obtained. Colonies of the scotochromogenic mutants are orange, except for one mutant which is ochre. Three mutants are resistant to STM. Out of 11 achromogenic mutants 3 were induced by UV treatment of the original photochromogenic strain, 8 were prepared from the scotochromogenic mutant. No significant differences in the sensitivity to UV rays were found among the scotochromogenic mutant, achromogenic mutant and the photochromogenic PN strain ofMycobacterium phlei under the given experimental conditions. Scotochromogenic mutants and most achromogenic mutants are stable and suitable for further genetic investigation. Pigmentation changes can be used as genetic marker in mutation studies.     

Characteristics of stress response in a mushroom-pathogenic bacterium,Pseudomonas tolaasii, during the interaction withPleurotus ostreatus and carbon/nitrogen starvation in vitro

A brown blotch bacterium,Pseudomonas tolaasii strain PT814, expresses a high degree of cross-protection against generalized stress imposed by physical/chemical treatment, H₂O₂, UV, high temperature, ethanol and NaCl during the interaction withPleurotus ostreatus. Stress resistance was also noted in the bacterium in vitro under limited carbon and nitrogen sources. In addition, changes in cell morphology from a “metabolically active” rod to an “energy-saving” spherical shape were detected during starvation and the interaction. All the changes under stress were reversible. A homologue ofrpoS (σ ^S), a regulator that controls such physiological status during starvation in other bacteria, was identified inP. tolaasii strain PT814. Data suggest that the bacterium is able to withstand a complex stress environment for its survival through changes in its metabolic pattern.     

The effect of ultrasound and its combination with radiation on the genetic material ofSaccharomyces cerevisiae

Ultrasonication at 20 kHz, intensity 35 W/cm² and amplitude 15–25 μm of a diploid strain ofSaccharomyces cerevisiae was found to act as a weak mutagen with maximum efficiency at the 20 % survival of the cells. Under these conditions, the frequency of reversion of the suppressible allele ilv1-92 increased ten times, the frequency of mitotic gene conversion four times. Doses leading to survivals lower than 20 % led to a slight increase in the frequency of cytoplasmic respiration-deficient mutants. Submutagenic doses applied immediately after γradiation or UV light did not substantially increase the effect of these physical agents on the genetic material of the yeast strain investigated. Application of ultrasound prior to UV radiation did not considerably influence the effect of the radiation either.     

Genetic analysis of methylotrophic yeastCandida boidinii PLD1

This paper reports the initial experiments for genetic analysis of the haploid methylotrophic yeastCandida boidinii PLD1. The collection of multiply marked auxotrophic mutants was obtained after treatment with UV-light or X-rays. Protoplasts from several mutants were fused by the PEG-CA²⁺ technique and five prototrophic hybrids were isolated. The genetic structure of the hybrids was studied by means of spontaneous and induced mitotic segregation. Our data suggest that hybrids are diploids, heterozygous by parental auxotrophic markers. We obtained genetic linkage between mutationslys2-8-met-3 from one hand andade-17-arg-24 from the other. The genetic maps constructed showed similar characteristics concerning both the order of the markers and their map distances.     

The white-phase-specific gene<Emphasis Type="Italic"> WH11</Emphasis> is not required for white-opaque switching in<Emphasis Type="Italic"> Candida albicans</Emphasis>

Phenotypic switching between white and opaque cells is important for adaptation to different host environments and for mating in the opportunistic fungal pathogen Candida albicans. Genes that are specifically activated in one of the two cell types are likely to be important for their phenotypic characteristics. The WH11 gene is a white-phase-specific gene that has been suggested to be involved in the maintenance of the white-phase phenotype. To elucidate the role of WH11 in white-opaque switching, we constructed mutants of the C. albicans strain WO-1 in which the WH11 gene was deleted. The wh11 mutants were still able to form both white and opaque cells whose cellular and colony phenotypes were indistinguishable from those of the wild type. Deletion of WH11 also did not affect the activation and deactivation of the white-phase-specific WH11 promoter and the opaque-phase-specific OP4 and SAP1 promoters in the appropriate cell type. Finally, switching from the white to the opaque phase and vice versa occurred with the same frequency in wild-type and wh11 mutants. Therefore, the WH11 gene is not required for phenotypic switching, and its protein product seems to have other roles in white cells, which are dispensable after the switch to the opaque phase.Communicated by E. Cerdá-Olmedo     

Taxonomical examination and characterization of a methanol-utilizing yeast

The morphological, cultural, and physiological characteristics are described of a yeast, LI70, which uses methanol as its source of energy and carbon; these characteristics have made it possible to identify the strain as Candida boidinii Ramirez. The identification was confirmed by a DNA-DNA genetic homology of 99.43% with the type strain of C. boidinii. Strain LI70 is not pathogenic.     

A vital function for mitochondrial DNA in the petite-negative yeastKluyveromyces lactis

Petite-negative yeasts do not form viable respiratory-deficient mutants on treatment with DNA-targeting drugs that readily eliminate the mitochondial DNA (mtDNA) from petite-positive yeasts. However, in the petite-negative yeastKluyveromyces lactis, specific mutations in the nuclear genesMGI2 andMGI5 encoding the- and-subunits of the mitochondrial F₁-ATPase, allow mtDNA to be lost. In this study we show that wild-typeK. lactis does not survive in the absence of its mitochondrial genome and that the function ofmgi mutations is to suppress lethality caused by loss of mtDNA. Firstly, we find that loss of a multicopy plasmid bearing amgi allele readily occurs from a wild-type strain with functional mtDNA but is not tolerated in the absence of mtDNA. Secondly, we cloned theK. lactis homologue of theSaccharomyces cerevisiae mitochondrial genome maintenance geneMGM101, and disrupted one of the two copies in a diploid. Following sporulation, we find that segregants containing the disrupted gene form minicolonies containing 6-8000 inviable cells. By contrast, disruption ofMGM101 is not lethal in a haploidmgi strain with a specific mutation in a subunit of the mitochondrial F₁-ATPase. These observations suggest that mtDNA inK. lactis encodes a vital function which may reside in one of the three mitochondrially encoded subunits of F₀.     

Nuclear DNA content in differentiated tissues of sunflower (Helianthus annuus L.)

Summary Scanning cytophotometry following Feulgen-staining was used to determine nuclear DNA content in many differentiated tissues of nine cultivars, hybrids or selfed lines ofHelianthus annuus. Apart from such ephemeral tissues as endosperm and anther tapetum, it was found that tissue differentiation in sunflower occurs in the diploid condition, cells being arrested in the DNA presynthetic phase (G₁). In certain cases, however, the nuclear DNA content of differentiated G₁ cells does not exactly match the 2C DNA content found in meristematic cells, but may be either higher or lower. In endosperm and anther tapetum cells, nuclear DNA content may be as high as 24 C and 32 C, respectively. Cytological and autoradiographic analyses after³H-thymidine incorporation reveal that polyploidy in the tapetal cells is due to chromosome endoreduplication. No detectable difference between male-fertile and male-sterile plants exists as far as occurrence and level of cell polyploidy are concerned. The results are discussed in the context of previous investigations on the nuclear condition of differentiatedHelianthus annuus tissue.     

W-mutagenesis in competent cells of Bacillus subtilis

Summary The relative yield (N _m/N) of fluorescent mutants Ind^- after the transformation of Bacillus subtilis cells by means of UV-irradiated DNA is much higher in an uvr ^- recipient than in an uvr ⁺ strain, when compared at equal fluence, but practically identical at equal survival. Ind^- mutations are induced by UV-irradiation of separated single strands of transforming DNA. The H-strand is much more sensitive to the mutagenic action of UV light. Preliminary irradiation of competent recipient cells by moderate UV fluences increases the survival of UV-or -irradiated transforming DNA (W-reactivation) and the frequency of Ind^- mutations (W-mutagenesis). During transfection of B. subtilis cells by UV-irradiated prophage DNA isolated from lysogenic cells B. subtilis (Ø105 c ⁺) c-mutants of the phage are obtained in high yield only in conditions of W-mutagenesis, i.e. in UV-irradiated recipient cells. These data show that there is no substantial spontaneous induction of error-prone SOS-repair system in the competent cells of B. subtilis.     

The role of the HCR system in the repair of lethal lesions ofBacillus subtilis phages and their transfecting DNA damaged by radiation and alkylating agents

The role of the HCR system in the repair of prelethal lesions induced by UV-light, γ-rays and alkylating agents was studied in theBacillus subtilis SPP1 phage, its thermosensitive mutants (N3, N73 endts ₁) and corresponding infectious DNA. The survival of phages and their transfecting DNA after treatment with UV light is substantially higher inhcr ⁺ cells than inhcr cells, the differences being more striking in intact phages than in their transfecting DNA’s. Repair inhibitors reduce the survival inhcr ⁺ cells: caffeine lowers the survival of UV-irradiated phage SPP1 in exponentially growinghcr ⁺ cells but has no effect on its survival in competenthcr ⁺ cells; acriflavin and ethidium bromide decrease the survival of UV-irradiated SPP1 phage in both exponentially growing and competenthcr ⁺ cells to the level of survival observed inhcr cells; moreover, ethidium bromide lowers the number of infective centres inhcr ⁺ cells of UV-irradiated DNA of the SPP1 phage. Repair inhibitors do not lower the survival of UV-irradiated phages or their DNA inhcr cells. The repair mechanism under study repairs effectively also lesions induced by polyfunctional alkylating agents in transfecting DNA’s ofB. subtilis phages but is not functional with lesions induced by these agents in free phages and lesions caused in phages and their DNA by ethyl methanesulphonate or γ-rays.     

Cadmium-copper antagonism in the activation of periplasmic nitrous oxide reductase of copper-deficient cells fromPseudomonas stutzeri

Summary Copper-deficient cells ofPseudomonas stutzeri strain ZoBell synthesize catalytically inactive nitrous oxide (N₂O) reductase which is activated by added Cu(II) in the absence of de novo protein synthesis. The apparentK _m for the activation process is 0.13 M. Activation is temperature-dependent and is inhibited by Cd(II)(K _i 1.27 M) and less strongly by Zn(II), Ni(II), and Co(II). The same metal ions at 20 M have little or no effect on N₂O reduction of intact cells. Apo-N₂O reductase of transposon Tn5-inducednos ^– mutants with defective Cu-chromophore biosynthesis is not reactivated by Cu(II). N₂O reductase of Cu-sufficient and Cu-deficient wild type, and ofnos ^– mutants is localized in the periplasm, the latter providing the likely site of metal incorporation into the apoenzyme.     

Transformable mutants of a biopesticide strainStreptomyces griseoviridis K61

Summary The aim of this work was to isolate transformable mutants ofStreptomyces griseoviridis K61 without affecting the secondary metabolism of this strain.S. griseoviridis K61 produces an antifungal aromatic heptaene polyene antibiotic, and is used as a biological control agent. In protoplast transformation experiments using plasmid pIJ702 DNA, the few spontaneous transformants were phenotypically bald and their secondary metabolism was pleiotropically affected. By mutagenizing K61 withN-methyl-N-nitro-N-nitrosoguanidine (MNNG) a highly transformable variant K61-42 was obtained. Protoplasts ofS. griseoviridis K61-42 could be transformed by several model plasmids producing 10⁴–10⁵ transformants/g plasmid DNA. The polyene synthesis of K61-42 was normal, making this strain a useful tool in genetic studies on the mechanism of biopesticide action.     

Mating type regulates the radiation-associated stimulation of reciprocal translocation events in Saccharomyces cerevisiae

Both ultraviolet (UV) and ionizing radiation were observed to stimulate mitotic, ectopic recombination between his3 recombinational substrates, generating reciprocal translocations in Saccharomyces cervisiae (yeast). The stimulation was greatest in diploid strains competent for sporulation and depends upon both the ploidy of the strain and heterozygosity at the MAT locus. The difference in levels of stimulation between MATa/MAT diploid and MAT haploid strains increases when cells are exposed to higher levels of UV radiation (sevenfold at 150 J/m²), whereas when cells are exposed to higher levels of ionizing radiation (23.4 krad), only a twofold difference is observed. When the MAT gene was introduced by DNA transformation into a MATa/mat::LEU2 ⁺ diploid, the levels of radiation-induced ectopic recombination approach those obtained in a strain that is heterozygous at MAT. Conversely, when the MATA gene was introduced by DNA transformation into a MAT haploid, no enhanced stimulation of ectopic recombination was observed when cells were irradiated with ionizing radiation but a threefold enhancement was observed when cells were irradiated with UV The increase in radiation-stimulated ectopic recombination resulting from heterozygosity at MAT correlated with greater spontaneous ectopic recombination and higher levels of viability after irradiation. We suggest that MAT functions that have been previously shown to control the level of mitotic, allelic recombination (homolog recombination) also control the level of mitotic, radiation-stimulated ectopic recombination between short dispersed repetitive sequences on non-homologous chromosomes.     

Some properties of carbohydrate and C4-dicarboxylic acid utilization negative mutants ofRhizobium leguminosarum biovarphaseoli strain P121

After NTG treatment of the very effective wild type strain P121 ofRhizobium leguminosarum biovarphaseoli, mutants defective in the utilization of sugars or organic acids were obtained. All the mutants nodulated the cultivar Goldie ofPhaseolus vulgaris. The arabinose, fructose, glucose and pyruvate utilization mutants formed nodules similar in shape and size to the nodules formed by the wild type strain. These mutants exhibited an acetylene reduction activity significantly lower than the activity observed with the wild type strain. All the C₄-dicarboxylic acid utilization mutatns, formed ineffective nodules that did not show a significant acetylene reduction activity. The C₄-dicarboxylic acids uptake system is apparently inducible in the free-living bacteria of strain P121. When P121 cells were grown on glucose in the presence of 2.5 mM malate, the rate of glucose-dependent O₂ consumption significantly decreased suggesting the presence of a catabolite repression-like phenomenon. Isolated bacteroids of strain P121, under the experimental conditions used, were able to oxidize succinate, fumarate or malate but did not oxidize pyruvate, glucose, fructose or sucrose.     

Survival of yeasts inoculated in flavoured extra virgin olive oil

The survival of four strains of yeast belonging to the speciesSaccharomyces cerevisiae, Candida wickerhamii, Candida boidinii andWilliopsis californica was studied in extra virgin olive oil flavoured with garlic, lemon, oregano and red chilli pepper. The ingredients used in the doses of 1%, 5% and 10% profoundly modified the habitat of the extra virgin olive oil, reducing drastically, in 90 days of storage, the survival of the yeasts by 20–50%, in the following decreasing order: lemon, garlic, oregano and red chilli pepper. Among the yeasts studied,W. californica strain 1639 was found to be one of the most sensitive, whileS. cerevisiae strain 1525 was one of the most tolerant regarding the ingredients present in the flavoured olive oil. The observations carried out with a scanning electron microscope (SEM) highlighted the presence of frequent lesions on the cellular wall ofC. wickerhamii 1532,C. boidinii 1638 andS. cerevisiae 1525 and only in a few rare cases inW. californica 1639. Nevertheless, since the survival ofW. californica 1639 in the flavoured olive oil was compromised to a greater extent in respect to the other species, it is plausible to deduct that the damage to the cellular wall represents only one of the causes responsible for the death of the yeasts in the flavoured olive oil.