Targeted gene replacement at the URA3 locus of the basidiomycetous yeast Pseudozyma antarctica and its transformation using lithium acetate treatment.

The basidiomycetous yeast Pseudozyma antarctica is a remarkable producer of industrially valuable enzymes and extracellular glycolipids. In this study, we developed a method for targeted gene replacement in P. antarctica. In addition, transformation conditions were optimized using lithium acetate, single-stranded carrier DNA and polyethylene glycol (lithium acetate treatment), generally used for ascomycetous yeast transformation. In the rice-derived P. antarctica strain GB-4(0), PaURA3, a homologue of the Saccharomyces cerevisiae orotidine-5'-phosphate decarboxylase gene (URA3), was selected as the target locus. A disruption cassette was constructed by linking the nouseothricine resistance gene (natMX4) to homologous DNA fragments of PaURA3, then electroporated into the strain GB-4(0). We obtained strain PGB015 as one of the PaURA3 disruptants (Paura3Δ::natMX4). Then the PCR-amplified PaURA3 fragment was introduced into PGB015, and growth of transformant colonies but not background colonies was observed on selective media lacking uracil. The complementation of uracil-auxotrophy in PGB015 by introduction of PaURA3 was also performed using lithium acetate treatment, which resulted in a transformation efficiency of 985 CFU/6.8 µg DNA and a gene-targeting ratio of two among 30 transformants. Copyright © 2017 John Wiley & Sons, Ltd.

Defence sugarcane glycoproteins disorganize microtubules and prevent nuclear polarization and germination of Sporisorium scitamineum teliospores.

Microtubules (MTs) are involved in the germination of Sporisorium scitamineum teliospores. Resistant varieties of sugar cane plants produce defence glycoproteins that prevent the infection of the plants by the filamentous fungi Sporisorium scitamineum. Here, we show that a fraction of these glycoproteins prevents the correct arrangement of MTs and causes nuclear fragmentation defects. As a result, nuclei cannot correctly migrate through the growing hyphae, causing germinative failure. Arginase activity contained in defence glycoproteins is already described for preventing fungal germination. Now, its enzymatically active form is presented as a link between the defensive capacity of glycoproteins and the MT disorganization in fungal cells. Active arginase is produced in healthy and resistant plants; conversely, it is not detected in the juice from susceptible varieties, which explains why MT depolarization, nuclear disorganization as well as germination of teliospores are not significantly affected by glycoproteins from non-resistant plants. Our results also suggest that susceptible plants try to increase their levels of arginase after detecting the presence of the pathogen. However, this signal comes "too late" and such defensive mechanism fails.

Control of enzymatic degradation of biodegradable polymers by treatment with biosurfactants, mannosylerythritol lipids, derived from Pseudozyma spp. yeast strains.

Cutinase-like esterase from the yeasts Pseudozyma antarctica (PaE) shows strong degradation activity in an agricultural biodegradable plastic (BP) model of mulch films composed of poly(butylene succinate-co-adipate) (PBSA). P. antarctica is known to abundantly produce a glycolipid biosurfactant, mannosylerythritol lipid (MEL). Here, the effects of MEL on PaE-catalyzed degradation of BPs were investigated. Based on PBSA dispersion solution, the degradation of PBSA particles by PaE was inhibited in the presence of MEL. MEL behavior on BP substrates was monitored by surface plasmon resonance (SPR) using a sensor chip coated with polymer films. The positive SPR signal shift indicated that MEL readily adsorbed and spread onto the surface of a BP film. The amount of BP degradation by PaE was monitored based on the negative SPR signal shift and was decreased 1.7-fold by MEL pretreatment. Furthermore, the shape of PBSA mulch films in PaE-containing solution was maintained with MEL pretreatment, whereas untreated films were almost completely degraded and dissolved. These results suggest that MEL covering the surface of BP film inhibits adsorption of PaE and PaE-catalyzed degradation of BPs. We applied the above results to control the microbial degradation of BP mulch films. MEL pretreatment significantly inhibited BP mulch film degradation by both PaE solution and BP-degradable microorganism. Moreover, the degradation of these films was recovered after removal of the coated MEL by ethanol treatment. These results demonstrate that the biodegradation of BP films can be readily and reversibly controlled by a physical approach using MEL.

First Case of Fungemia Due to Pseudozyma aphidis in a Pediatric Patient with Osteosarcoma in Latin America.

We report the first case of blood infection due to Pseudozyma aphidis in Latin America. We contribute evidence showing this organism to be a potential human pathogen, and we provide new data about its identification, drug susceptibility, and treatment outcome.

Isolation of oleaginous yeast (Rhodosporidium toruloides) mutants tolerant of sugarcane bagasse hydrolysate.

Rhodosporidium toruloides is a lipid-producing yeast, the growth of which is severely suppressed when hydrolysates of lignocellulosic biomass are used as carbon source. This is probably due to the toxic substances, such as organic acids, furans, and phenolic compounds produced during the preparation of the hydrolysates. In order to solve this problem, R. toruloides cultures were subjected to atmospheric room-temperature plasma mutagenesis, resulting in the isolation of mutants showing tolerance to sugarcane bagasse hydrolysate (SBH). Three mutant strains, M11, M13, and M18, were found to grow with producing lipids with SBH as carbon source. M11 in particular appeared to accumulate higher levels (up to 60% of dry cell weight) of intracellular lipids. Further, all three mutant strains showed tolerance of vanillin, furfural, and acetic acid, with different spectra, suggesting that different genetic determinants are involved in SBH tolerance.

Synthesis and biological evaluation of novel trichodermin derivatives as antifungal agents.

To discover more potential antifungal agents, 17 novel trichodermin derivatives were designed and synthesized by modification of 3 and 4a. The structures of all the synthesized compounds were confirmed by (1)H NMR, ESI-MS and HRMS. Their antifungal activities against Ustilaginoidea oryzae and Pyricularia oryzae were evaluated. Most of the target compounds showed potent inhibitory activity, in which 4g showed superior inhibitory effects than 4a and commercial fungicide prochloraz. Furthermore, 4h demonstrated comparable inhibitory activity to 4a. Moreover, 4i and 4l exhibited excellent inhibitory activity for Pyricularia oryzae. Additionally, compound 9 was found to be more active against all tested fungal strains than 3, with EC50 values of 0.47 and 3.71 mg L(-1), respectively.

First neonatal case of fungaemia due to Pseudozyma aphidis and a global literature review.

The Ustilaginomycetous basidiomycete yeast, Pseudozyma aphidis has recently been implicated in potentially fatal disorders ranging from subcutaneous mycoses to disseminated infections. Till date a solitary case of P. aphidis fungaemia in a paediatric patient has been reported. We present a case of fungaemia due to P. aphidis in a rhesus factor-isoimmunised, low-birth-weight neonate. The isolate was identified by sequencing the D1/D2 domain of the LSU region. Antifungal susceptibility of the isolate revealed susceptibility to amphotericin B, voriconazole, itraconazole, isavuconazole and posaconazole. It had high minimum inhibitory concentrations of fluconazole and was resistant to flucytosine and echinocandins. Consequently, the patient was successfully treated with intravenous amphotericin B. Although the source of infection could not be traced, as the neonate developed fungaemia on the first day of life, it could possibly be from the maternal urogenital tract or intrahospital transmission. A review of previously published cases revealed that risk factors for invasive Pseudozyma spp. infections were similar to those previously reported for non-albicans Candida spp. Pseudozyma species are underreported due to the difficulty of identifying this rare yeast pathogen by commercial identification systems. Considering that Pseudozyma spp. cause invasive fungal infections globally and are resistant to flucytosine, fluconazole and echinocandins, this pathogen assumes a greater clinical significance.

Pseudozyma aphidis induces ethylene-independent resistance in plants.

Species of the epiphytic fungus Pseudozyma are not pathogenic to plants and can be used as biocontrol agents against plant pathogens. Deciphering how they induce plant defense might contribute to their use for plant protection and expand our understanding of molecular plant-pathogen interactions. Here we show that Pseudozyma aphidis isolate L12, which is known to induce jasmonic acid- and salicylic acid-independent systemic resistance, can also activate local and systemic resistance in an ethylene-independent manner. We also show that P. aphidis localizes exclusively to the surface of the plant leaf and does not penetrate the mesophyll cells of treated leaves. We thus propose that P. aphidis acts via several mechanisms, and is an excellent candidate biocontrol agent.

Jasmonate signal induced expression of cystatin genes for providing resistance against Karnal bunt in wheat.

Two wheat varieties HD-29 (resistant, R) and WH-542 (susceptible, S) were pretreated with jasmonic acid (JA) or jasmonate and then artificially inoculated with sporidial suspension of Tilletia indica to study its influence in reducing Karnal bunt (KB) infection by regulating cystatin gene expression. JA was found to improve the plant defense against KB as its exogenous application resulted in decrease in coefficient of infection (CI) in both susceptible and resistant varieties following pathogen inoculation. Transcript profiling of wheat cystatin genes at different days after inoculation (DAI) showed that JA pretreatment positively induced cystatin gene expression in both varieties with greater induction of expression in resistant variety than the susceptible one (P< 0.05). Different temporal expression of three wheat cystatin genes, WC2, WC3 and WCMD was observed with their increased expression at 1DAI in the boot emergence stage which is most susceptible to KB and then slowly declined gradually at 3, 7 and 15 DAI in both the varieties. Except WC2, higher expression of other two cystatins viz. WC3 and WCMD at 1DAI showed higher response (P< 0.05) to KB pathogenesis at the disease-prone boot emergence stage as also evident by decrease of CI in both varieties. The results of determination of specific activity of cystatin by inhibitor assay were found to be consistent with those of transcript profiling. These findings suggest that jasmonic acid (JA) may act as a potential activator of induced resistance against Karnal bunt of wheat by upregulating cystatin gene expression.

Root exudate impact on gene expression of Sporisorium reilianum.

Sporisorium reilianum f.sp zeae, a basidiomycetous fungus belonging to Ustilaginaceae, is the causal agent of the maize head smut disease. This soilborne pathogen infects the host plant at the seedling stage by penetrating roots. The infection is systemic, and disease symptoms become apparent only after the onset of flower development when the fungal sori replace male or female inflorescences. In order to investigate the mechanism of infection, we analysed the transcriptome of the fungus in response to root exudates during the previous phase of infection. A suppression subtractive hybridization (SSH) was used to generate cDNA libraries representing genes differentially expressed in haploid cell forms of the fungus exposed to root exudates Leading to 960 ESTs. By using cDNA macroarray hybridization, we identified 36 ESTs which were differentially expressed in response to exudates application. In this first transcriptomic analysis realized on S. reilianum, we show that maize root exudates may affect gene expression of the fungus involved in cell respiration, cell wall development, metabolism and hypothetical proteins during the previous step of infection and could play an important role in fungi growth promotion and plant pathogenesis.

Effect of proteolytic and glycolytic enzymes on a factor in Sorghum bicolor that induces mycelial growth in the smut fungus, Sporisorium reilianum.

Proteins obtained from seedling shoots and floral meristems of Sorghum bicolor (L.) Moench cv. NK 1210 induced mycelial growth in the smut fungus, Sporisorium reilianum in vitro. Proteins precipitated with trichloroacetic acid and ammonium sulfate were equally effective as inducers, although there were minor variations in the pattern of mycelial growth. Hydrolysis of the protein fraction with the proteolytic enzyme pronase E resulted in considerable reduction in the proteins' ability to induce mycelial growth. Digestion of the protein fraction with driselase, resulted in a slight enhancement of biological activity. The results suggest that amino sugar moieties in glycoproteins may act as inducers of mycelial growth in Sporisorium reilianum.

Morphogenic effect of 2-deoxy-D-arabino-hexose on Rhodosporidium toruloides.

The presence of 2-deoxy-D-arabino-hexose in the growth medium caused marked morphological changes in the cells of Rhodosporidium toruloides. The originally elongated ellipsoidal cells grew spherically in the presence of the deoxy-sugar, displayed differences in cell division and separation, and were larger than the control cells. After exhaustion of glucose from the medium the cells died, although no lysis was observed. The morphological changes were accompanied by significant alterations in the carbohydrate composition of the cell wall. The wall of R. toruloides grown in the presence of the deoxy-sugar contains higher proportions of chitin and glucan, while the relative contents of mannose and galactose polymers decreased drastically in comparison to normal cells.

[Rhodosporidium Banno: yeast phase inactivation by ultraviolet light and N-methyl-N'-nitro-N-nitrosoguanidine]. / Rhodosporidium Banno: Inaktivierende Wirksamkeit von ultraviolettem Licht und N-Methyl-N'-nitro-N-nitrosoguanidin in der Hefephase.

The inactivation of stationary phase cells by ultraviolet light (UV) and N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) was examined in eight wild strains of Rhodotorula, six of which are the sporidial yeast phase of Rhodosporidium, a basidiomycetous fungus. It has been found that (1) the UV-resistance of Rhodosporidium and Rhodotorula yeasts is higher and the MNNG-resistance lower than the resistance of Candida and Hansenula yeasts, (2) the shape of the survival curves is sigmoid in the case of UV and two-phase exponential in the case of MNNG, (3) the mutagen sensitivities but not the inactivation kinetics of the strains are different, (4) the UV- and MNNG-sensitivities for each of the strains are correlated, (5) the relatively high resistance to UV cannot be due to the carotenoid pigments of the cells, (6) mutations to UV-sensitivity can be induced with a high rate, (7) the sigmoidal character of the UV survival curves were reduced or transformed to an exponential shape by the UVS-mutations.

Fungal fimbriae. II. Their role in conjugation in Ustilago violacea.

During conjugation in the anther smut fungus Ustilago violacea cells of opposite mating type first pair tightly and then develop a conjugation tube or bridge between them. The cells of both mating types are covered in long fine hairs or fimbriae, some of which appear to end in knobs. Experiments involving enzyme treatments of the cell surface indicate that these fimbriae do not play an essential role in cell pairing, instead pairing seems to be initiated when one or both mating types produce amorphous masses of alpha-amylase-sensitive material. Electron micrographs, enzyme and inhibitor studies, and experiments using restrictive temperatures suggest, however, that fimbriae may be essential for the later stages of conjugation i.e. development of the conjugation tube. If so, it is suggested that they may permit the exchange of macromolecules between the conjugating cells, initiating localized wall-softening and wall-breakdown.