Properties of a Wolinella succinogenes mutant lacking periplasmic sulfide dehydrogenase (Sud)

A Δsud deletion mutant of Wolinella succinogenes that lacked the periplasmic sulfide dehydrogenase (Sud) was constructed using homologous recombination. The mutant grew with sulfide and fumarate, indicating that Sud was not a component of the electron transport chain that catalyzed fumarate respiration with sulfide as an electron donor. Likewise, growth with formate and either polysulfide or sulfur was not affected by the deletion. Removal of Sud from wild-type W. succinogenes by spheroplast formation did not decrease the activity of electron transport to polysulfide. The Δpsr deletion mutant that lacks polysulfide reductase (Psr) grew by fumarate respiration with sulfide as an electron donor, indicating that Psr is not required for this activity. Received: 31 August 1995 / Accepted: 25 October 1995     

A study of sulfite-tolerant yeasts from comminuted lamb products

The sulfite tolerance of meat yeasts was shown to be determined by pH, sulfite concentration, substrate availability, and the composition of the preincubation medium. Acetaldehyde production by Candida norvegica was sulfite-induced and occurred during the exponential growth phase in sulfited (500 micrograms SO2 ml-1) lab lemco glucose broth cultures buffered at pH 5, 6, or 7. Growth at pH 4, however, was inhibited by sulfite. Acetaldehyde production occurred in sulfited medium containing fructose or ethanol but not lactate nor a range of other assimilable substrates. A non-acetaldehyde-producing yeast, Candida vini, grew in sulfited (500 micrograms SO2 ml-1) lab lemco broth containing glucose or lactate buffered at pH 6 or 7 but not at pH 4 or 5.     

Isolation, characterization and optimization of antifungal activity of an actinomycete of soil origin

About 312 actinomycetes were isolated from soil samples on chitin agar. All these isolates were purified and screened for their antifungal activity against pathogenic fungi. Out of these, 22% of the isolates exhibited activity against fungi. One promising isolate with strong antifungal activity against pathogenic fungi was selected for further studies. This isolate was from Pune, and was active against both yeasts and molds. Various fermentation parameters were optimized. Based on morphological and biochemical parameters, the isolate was identified as Streptomyces. The correlation of antifungal activity with growth indicated growth dependent production of antimetabolite. Maximum antifungal metabolite production (600 units/ml) was achieved in the late log phase, which remained constant during stationery phase, and it was extracellular in nature.     

In vitro attachment of phylloplane yeasts to Botrytis cinerea, Rhizoctonia solani, and Sclerotinia homoeocarpa

The ability of yeasts to attach to hyphae or conidia of phytopathogenic fungi has been speculated to contribute to biocontrol activity on plant surfaces. Attachment of phylloplane yeasts to Botrytis cinerea, Rhizoctonia solani, and Sclerotinia homoeocarpa was determined using in vitro attachment assays. Yeasts were incubated for 2 d on potato dextrose agar (PDA) prior to experimentation. A total of 292 yeasts cultured on PDA were screened for their ability to attach to conidia of B. cinerea; 260 isolates (89.1%) attached to conidia forming large aggregates of cells, and 22 isolates (7.5%) weakly attached to conidia with 1 or 2 yeast cells attached to a few conidia. Ten yeasts (3.4%), including 8 isolates of Cryptococcus laurentii, 1 isolate of Cryptococcus flavescens, and an unidentified species of Cryptococcus, failed to attach to conidia. All non-attaching yeasts produced copious extracellular polysaccharide (EPS) on PDA. Seventeen yeast isolates did not attach to hyphal fragments of B. cinerea, R. solani, and S. homoeocarpa after a 1 h incubation, but attachment was observed after 24 h. Culture medium, but not culture age, significantly affected the attachment of yeast cells to conidia of B. cinerea. The 10 yeast isolates that did not attach to conidia when grown on agar did attach to conidia (20%-57% of conidia with attached yeast cells) when cultured in liquid medium. Attachment of the biocontrol yeast Rhodotorula glutinis PM4 to conidia of B. cinerea was significantly greater at 1 x 10(7) yeast cells x mL(-1) than at lower concentrations of yeast cells. The ability of yeast cells to attach to fungal conidia or hyphae appears to be a common phenotype among phylloplane yeasts.     

Debaryomyces mycophilus sp. nov., a siderophore-dependent yeast isolated from woodlice

Four strains of an ascogenous yeast were isolated from the guts of the woodlice species Armadillidium vulgare (Latreille). This yeast differed from all known yeasts by its inability to grow in culture without the presence of a metabolite produced by some common soil fungi such as Cladosporium cladosporioides, Aspergillus alliaceus, and Penicillium spp. Phylogenetic analysis based on 18S rDNA and 26S rDNA (domain D1/D2) sequences indicated that the yeast represents a new taxon in the genus Debaryomyces. The new species Debaryomyces mycophilus is thus proposed. It was, furthermore, shown that the fungal metabolite necessary for growth of D. mycophilus did not provide the yeast with carbon, nitrogen or vitamins. The active compound was partially purified and it was shown that it is a siderophore used by the yeast as a source of iron. The addition of ferrichrome or high concentrations of FeCl(3) to growth media replaced the obligate dependence on a fungal metabolite. Symbiosis among fungi, based on the availability and utilization of iron, is an aspect of mycology that has not previously been recognized. The addition of chelated iron to isolation media could lead to the discovery of many unknown yeasts and fungi.     

低温大曲酵母菌分离和计数培养方法优化

低温大曲是清香型白酒酿造的核心因素之一,为酿造过程提供了物系、酶系和菌系。酵母菌是白酒发酵过程中最重要的功能微生物类群,研究大曲中的酵母菌种类和含量具有重要意义,对大曲质量评价也具有重要参考价值。但用常规酵母菌分离技术和培养基从大曲中分离酵母菌时易受优势丝状真菌（霉菌）的干扰,霉菌常常很快长满培养皿,将酵母菌覆盖,难以对酵母菌进行定量计数、观察和分离纯化。本研究根据酒醅发酵过程中随乙酸和乳酸含量的升高,霉菌含量急剧降低而酵母菌含量逐渐升高的现象,用常规培养基YPD为基础培养基,测试了添加不同量的乙酸、乳酸和丙酸（后者为常用食品防腐和防霉剂）,以及不同比例的乙酸乳酸组合物,对低温大曲中霉菌的抑制效果和对酵母菌生长的影响进行探究,发现在灭菌后的YPD中添加3.3mL/L乙酸、2.0mL/L丙酸或在乙酸乳酸1:3的情况下添加2.0mL/L乙酸,30℃培养3-5d之内可有效抑制低温大曲中的霉菌,实现对酵母菌的有效分离、计数和纯化培养,而单加乳酸对霉菌,特别是黄曲霉的抑制效果差。随后测试了以前我们从清香型白酒大曲和酒醅发酵过程中分离的13属18种酵母菌在这些培养基上的生长情况,发现这些酵母菌中的绝大多数,尤其是大曲和酒醅中的优势酵母菌种,均可以在这些加酸培养基上良好生长。综合考虑培养基的成本、配制的简便性及分离效果等因素,本研究推荐将灭菌后添加3.3mL/L乙酸的YPD固体培养基作为低温大曲酵母菌分离和定量计数的优化培养基。     

Unequal distribution of adhesins within populations of Candida albicans

Abstract The rate of adhesion of Candida albicans to acrylic surfaces in vitro was determined after growth of the yeast in defined media containing different sugars as the carbon source. Yeasts grown on 500 mM galactose adhered at a maximal, linear rate throughout the 60-min incubation period. Non-linear adhesion rates were observed with organisms grown on other carbon sources (500 mM sucrose, 50 mM glucose or 50 mM galactose) and from these cultures, populations of yeasts were isolated which showed increased adhesion and increased resistance to spheroplast formation. These results indicate that there is an unequal distribution of adhesins among cells in such cultures.     

Antimicrobial properties of diacetyl.

Diacetyl preparations from three commercial sources were found to be essentially similar when tested primarily against a set of 40 cultures, including 10 of lactic acid bacteria, 4 of yeasts, 12 of gram-positive non-lactic acid bacteria, and 14 of gram-negative bacteria. The compound was effective at pH less than or equal to 7.0 and progressively ineffective at pH greater than 7.0. The lactic acid bacteria were essentially unaffected by concentrations between 100 and 350 micrograms/ml over the pH range of 5.0 to 7.0. Of the 12 gram-positive non-lactic acid bacteria, 11 were inhibited by 300 micrograms/ml at pH less than or equal to 7.0. The three yeasts and the 13 gram-negative bacteria that grew at pH 5.5 were inhibited by 200 micrograms/ml. Diacetyl was ineffective against four clostridia under anaerobic conditions. It was lethal for gram-negative bacteria and generally inhibitory for gram-positive bacteria. Nongrowing cells were not affected. The effectiveness of diacetyl was considerably less in brain heart infusion broth, Trypticase soy agar, and cooked-meat medium than in nutrient broth or plate count agar. The antimicrobial activity was antagonized by glucose, acetate, and Tween 80 but not by gluconic acid. As an antimicrobial agent, diacetyl was clearly more effective against gram-negative bacteria, yeasts, and molds than against gram-positive bacteria.     

Changes in the stimulation of mitochondrial respiration by adrenaline depending upon the dose

Effects of low and high 25 and 100 micrograms per 100 g of body weight doses of adrenaline on respiration and oxidative phosphorylation in rat liver mitochondria are compared. The high dose of adrenaline is shown to decrease activation of respiration and phosphorylation typical of the low doses. This decrease is caused by inhibition of succinate dehydrogenase and is accompanied by uncoupling of respiration and phosphorylation in mitochondria.     

Factors which affect the frequency of sporulation and tetrad formation in Saccharomyces cerevisiae baker's yeasts.

To clarify the role that respiration, the mitochondrial genome, and interactions of mitochondria and nucleus play on sporulation and to improve the sporogenic ability of several baker's yeasts, an investigation of the effects of different media and culture conditions on baker's yeast sporulation was undertaken. When standard protocols were followed, the sporulation frequency varied between 20 and 60% and the frequency of four-spore asci varied between 1 and 6%. Different presporulation and sporulation media, the use of solid versus liquid media, and incubation at 22 versus 30 degrees C were checked, and the cells were collected from presporulation media in either exponential or stationary phase. Best results, yielding sporulation and four-spore ascus formation frequencies up to 97 and 60%, respectively, were obtained by collection of the cells in exponential phase from liquid presporulation medium with 10% glucose and transfer of them to sporulation medium with 0.5% potassium acetate at 22 degrees C. Under these conditions, the most important factor was the growth phase (exponential versus stationary) at which cells from presporulation medium were collected. Changes in sporulation frequencies were also measured after transfer of mitochondria from different sources to baker's yeasts. When mitochondria from laboratory, baker's, and wine yeasts were transferred to baker's and laboratory petite strains, sporulation and four-spore ascus formation frequencies dropped dramatically either to no sporulation at all or to less than 50% in both parameters. This transfer also resulted in an increase in the frequency of petite mutant formation but yielded similar growth and respiration rates in glycerol.(ABSTRACT TRUNCATED AT 250 WORDS)     

Barley pathogenesis-related proteins with fungal cell wall lytic activity inhibit the growth of yeasts.

Proteins from intercellular fluid extracts of chemically stressed barley (Hordeum vulgare L.) leaves were separated by native polyacrylamide gel electrophoresis at alkaline or acid pH. Polyacrylamide gels contained Saccharomyces cerevisiae (bakers' yeast) or Schizosaccharomyces pombe (fission yeast) crude cell walls for assaying yeast wall lysis. In parallel, gels were overlaid with a suspension of yeasts for assaying growth inhibition by pathogenesis-related proteins. The same assays were also performed with proteins separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis under nonreducing conditions. In alkaline native polyacrylamide gels, only one band corresponding to yeast cell wall lytic activity was found to be inhibitory to bakers' yeast growth, whereas in acidic native polyacrylamide gels one band inhibited the growth of both yeasts. Under denaturing nonreducing conditions, one band of 19 kD inhibited the growth of both fungi. The 19-kD band corresponded to a basic protein after two-dimensional gel analysis. The 19-kD protein with yeast cell wall lytic activity and inhibitory to both yeasts was found to be different from previously reported barley chitosanases that were lytic to fungal spores. It could be different from other previously reported lytic antifungal activities related to pathogenesis-related proteins.     

McRAPD as a new approach to rapid and accurate identification of pathogenic yeasts

Despite advances in antifungal prophylaxis and therapy, morbidity and mortality incurred by yeasts remain a significant burden. As pathogenic yeast species vary in their susceptibilities to antifungal agents, clinical microbiology laboratories face an important challenge to identify them rapidly and accurately. Although a vast array of phenotyping and genotyping methods has been developed, these are either unable to cover the whole spectrum of potential yeast pathogens or can do this only in a rather costly or laborious way. Random amplified polymorphic DNA (RAPD) fingerprinting was repeatedly demonstrated to be a convenient tool for species identification in pathogenic yeasts. However, its wider acceptance has been limited mainly due to special expertise and software needed for analysis and comparison of the resulting banding patterns. Based on a pilot study, we demonstrate here that a simple and rapid melting curve analysis of RAPD products can provide data for identification of five of the most medically important Candida species. We have termed this new approach melting curve of random amplified polymorphic DNA (McRAPD) to emphasize its rapidity and potential for automation, highly desirable features for a routine laboratory test.     

Development of an efficient spheroplast transformation procedure for S. thermophilus: the use of transfection to define a regeneration medium

The conditions for the efficient polyethylene glycol (PEG)-induced spheroplast transformation of three strains of Streptococcus thermophilus have been established. This required the careful optimization of various experimental parameters, the most important being the choice of the lytic enzyme (lysozyme versus mutanolysin), the extent of cell wall digestion and the conditions for the PEG shock which were found to be strain-specific. The transfection assay we had previously developed for S. thermophilus represented a key step and powerful tool in our transformation studies. It allowed individual and stepwise adjustment of the above mentioned factors, but was also compulsory for the establishment of an effective regeneration medium for the strains we examined. Among various potential osmotic protectors tested, raffinose in combination with CaCl2 and MgCl2 was most efficient and routinely supported regeneration with up to 10% efficiency, after PEG treatment. With the spheroplast transformation procedure described in this paper, shuttle vectors and recombinant plasmids could be introduced into three industrial yogurt starters, with maximal efficiencies of 7.5 x 10(4) transformants/micrograms of liposome encapsulated, covalently closed circular DNA. A striking, yet unexplained, reduction in transformation rates was observed when erythromycin rather than chloramphenicol was used as the selecting agent.     

Antifungal activity of alkanols: inhibition of growth of spoilage yeasts

Primary aliphatic alkanols from C₆ to C₁₃ were tested for their antifungal activity against Saccharomyces cerevisiae using a broth dilution method. Undecanol (C₁₁) was found to be the most potent fungicide against this yeast with the minimum fungicidal concentration (MFC) of 25 μg/ml (0.14 mM), followed by decanol (C₁₀) with the minimum inhibitory concentration (MIC) of 50 μg/ml (0.31 mM). The time-kill curve study showed that undecanol was fungicidal against S. cerevisiae at any growth stages. This fungicidal activity was not influenced by pH values. Dodecanol (C₁₂) was the most effective fungistatic but did not show any fungicidal activity up to 1600 μg/mL. Fungistatic dodecanol quickly reduced cell viability, but the cell viability recovered shortly after and then finally became no longer different from the control indicating that the effect of dodecanol on S. cerevisiae was classified as a sublethal damage. However, fungistatic dodecanol combined with sublethal amount of anethole showed a fungicidal activity against this yeast. Anethole completely restricted the recovery of cell viability. Therefore expression of the synergistic effect was probably due to the blockade of the recovering process from dodecanol induced-stress. The alkanols tested inhibited glucose-induced acidification by inhibiting the plasma membrane H⁺-ATPase. Octanol (C₈) increased plasma membrane fluidity in the spheroplast cells of S. cerevisiae. The same series of aliphatic primary alkanols was also tested against a food spoilage fungus Zygosaccharomyces bailii and compared with their effects against S. cerevisiae. Decanol was found to be the most potent fungicide against Z. bailii with an MFC of 50 μg/ml (0.31 mM), whereas undecanol was found to be the most potent fungistatic with an MIC of 25 μg/ml (0.14 mM). The time-kill curve study showed that decanol was fungicidal against Z. bailii at any growth stage. This antifungal activity was slightly enhanced in combination with anethole. The primary antifungal action of medium-chain (C₉–C₁₂) alkanols comes from their ability as nonionic surfactants to disrupt the native membrane-associated function of the integral proteins. Hence, the antifungal activity of alkanols is mediated by biophysical process, and the maximum activity can be obtained when balance between hydrophilic and hydrophobic portions becomes the most appropriate.     

Effect of mycolase and amphotericin B on Candida albicans and Candida pseudotropicalis in vitro and in vivo

A mixture of enzymes (mycolase) capable of lysing yeast cell walls was prepared from culture filtrates of Physarum polycephalum. The enzymes present in mycolase included chitinase, beta-1,3-glucanases and exo-glycosidases. The pH optima of these enzymes were in the range 3.5-5.0 and they had low activities at pH 7.0. Mycolase produced spheroplasts from Candida pseudotropicalis and, unlike commercial enzyme preparations such as L1, chitinase, beta, 1,3-glucanase and beta-glucosidase, had some candicidal activity in vitro against C. pseudotropicalis and C. albicans. Mycolase potentiated the antifungal activity of amphotericin B against C. pseudotropicalis grown in shake flask culture but did not potentiate the antifungal activity of the antibiotic against similar cultures of C. albicans; indeed antagonism between mycolase and amphotericin B was sometimes observed with the latter yeast. Mycolase caused an approximately two-fold increase in the total and viable counts of cultures of C. albicans inoculated with stationary phase cells. These increases, which were observed within about 30 min, were attributed to mycolase inducing the premature release of viable buds from 'lag' phase cells. Mycolase also increased the rate at which C. albicans formed germ tubes when the yeast was cultured in a medium containing serum. Mycolase alone or in combination with amphotericin B did not appreciably enhance phagocytosis or intracellular killing of the yeasts by unstimulated mouse peritoneal macrophages. Studies on mice infected systemically with C. albicans showed that mycolase only slightly enhanced amphotericin B therapy.     

Efficient secretion of two fungal cellobiohydrolases by Saccharomyces cerevisiae

Two different cellobiohydrolases, CBHI and CBHII, of the filamentous fungus Trichoderma reesei both hydrolyse highly crystalline cellulose. Cellulolytic strains of the yeast Saccharomyces cerevisiae were constructed by transferring cDNAs coding for these enzymes into yeast on an expression plasmid. These cellulolytic yeasts were able to secrete efficiently the large, heterologous proteins to the culture medium. The recombinant cellulases were observed to be heterogeneous in Mr due, at least partly, to variable N-glycosylation. Recombinant CBHII was able to bind to crystalline cellulose, although slightly less efficiently than the native enzyme. Both of the two recombinant cellulases were able to degrade amorphous cellulose. In a fermenter cultivation, around 100 micrograms/ml of CBHII was secreted into the yeast growth medium.     

Acetylsalicylic acid as antifungal in <Emphasis Type="Italic">Eremothecium</Emphasis> and other yeasts

Interesting distribution patterns of acetylsalicylic acid (ASA, aspirin) sensitive 3-hydroxy (OH) oxylipins were previously reported in some representatives of the yeast genus Eremothecium—an important group of plant pathogens. Using immunofluorescence microscopy and 3-OH oxylipin specific antibodies in this study, we were able to map the presence of these compounds also in other Eremothecium species. In Eremothecium cymbalariae, these oxylipins were found to cover mostly the spiky tips of narrowly triangular ascospores while in Eremothecium gossypii, oxylipins covered the whole spindle-shaped ascospore with terminal appendages. The presence of these oxylipins was confirmed by chemical analysis. When ASA, a 3-OH oxylipin inhibitor, was added to these yeasts in increasing concentrations, the sexual stage was found to be the most sensitive. Our results suggest that 3-OH oxylipins, produced by mitochondria through incomplete β-oxidation, are associated with the development of the sexual stages in both yeasts. Strikingly, preliminary studies on yeast growth suggest that yeasts, characterized by mainly an aerobic respiration rather than a fermentative pathway, are more sensitive to ASA than yeasts characterized by both pathways. These data further support the role of mitochondria in sexual as well as asexual reproduction of yeasts and its role to serve as a target for ASA antifungal action.     

Dendritic cells pulsed with fungal RNA induce protective immunity to Candida albicans in hematopoietic transplantation

Immature myeloid dendritic cells (DC) phagocytose yeasts and hyphae of the fungus Candida albicans and induce different Th cell responses to the fungus. Ingestion of yeasts activates DC for production of IL-12 and Th1 priming, while ingestion of hyphae induces IL-4 production and Th2 priming. In vivo, generation of antifungal protective immunity is induced upon injection of DC ex vivo pulsed with Candida yeasts but not hyphae. In the present study we sought to determine the functional activity of DC transfected with yeast or hyphal RNA. It was found that DC, from either spleens or bone marrow, transfected with yeast, but not hyphal, RNA 1) express fungal mannoproteins on their surface; 2) undergo functional maturation, as revealed by the up-regulated expression of MHC class II Ags and costimulatory molecules; 3) produce IL-12 but no IL-4; 4) are capable of inducing Th1-dependent antifungal resistance when delivered s.c. in vivo in nontransplanted mice; and 5) provide protection against the fungus in allogeneic bone marrow-transplanted mice, by accelerating the functional recovery of Candida-specific IFN-gamma-producing CD4(+) donor lymphocytes. These results indicate the efficacy of DC pulsed with Candida yeasts or yeast RNA as fungal vaccines and point to the potential use of RNA-transfected DC as anti-infective vaccines in conditions that negate the use of attenuated microorganisms or in the case of poor availability of protective Ags.     

Comparsion ofin vitro activities of antifungal drugs and propolis against yeasts isolated from patients with superficial mycoses

Thein vitro susceptibilities of propolis and antifungal drugs were determined against some yeasts isolated from patients with superficial mycoses. The agents tested included fluconazole, itraconazole, ketoconazole, terbinafine and propolis. MICs were determined by the broth microdilution technique following National Committee for Clinical Laboratory Standards document M27-P. For allCandida albicans isolates from the patients with superficial mycoses, ketoconazole presented higher (P<0.05) efficiency than that of the other antifungal agents tested. The geometric mean MIC values of antifungal drugs and propolis against the yeasts tested ranged from 0.087 to 12.69 μg/mL and 0.4–0.6 μg/mL, respectively. Propolis also showed an important antifungal activity against the yeasts tested, MIC ranges of the propolis were between 0.01–1.65 μg/mL. Based on these results, propolis requires further investigation as a potential agent for the treatment of superficial mycoses.     

Effects of culture conditions on the in vitro infection of fibroblasts by Candida albicans.

The effects of yeast culture age, carbon source, growth temperature, and germ-tube inducers on adherence to primary fibroblast cultures was studied in conjunction with the determination of adherence-mediated mammalian cell damage by measuring chromium-51 release from fibroblast monolayers. The results indicated that yeast culture age affected adherence only when the yeasts were grown at 37 degrees C, not after growth at 28 degrees C. At 37 degrees C, quantitatively fewer exponential-phase, glucose- or galactose-grown yeasts adhered to fibroblasts than did yeasts that were in lag or stationary phases. The reduced adherence correlated with less chromium-51 release and reduced germ-tube formation. The addition of germ-tube inducers, such as N-acetyl-D-glucosamine or serum, to exponential-phase yeasts caused an increase in germ-tube formation with a concomitant increase in yeast adherence and release of chromium-51 from the monolayers. Exponential-phase galactose-grown yeasts were more responsive to serum-induced germ-tube formation, germ-tube elongation, and fibroblast adherence than were exponential-phase glucose-grown yeasts. In addition, exponential-phase galactose-grown yeasts caused more chromium-51 release from monolayers in the presence of serum than did glucose-grown yeasts. Overall, conditions that enhanced germ-tube formation and elongation resulted in greatest adherence-mediated damage to the monolayers.