Isolation,characterization, and antifungal susceptibility of melanin-deficient mutants of Scedosporium prolificans

Scedosporium prolificans mutants lacking the ability to synthesize melanin were selected after ultraviolet light (UV) irradiation. UV exposure of S. prolificans conidia resulted in a high frequency of melanin-deficient (mel-) mutants. Stable and non-stable morphological variants were found in the population: reversion of the mutant phenotype was always to the wild-type phenotype. Based on their morphological differences, these variants were classified into five different groups that were phenotypically characterized. The mel- mutants plus the wild-type strain were examined for in vitro susceptibility to antifungal agents with different and/or the same mechanism of action. There was no apparent difference in minimum inhibitory concentrations when comparing the wild-type and the mel- mutants. Therefore, melanin does not appear to confer protection against the more important antifungal agents in S. prolificans.     

Phenotypic variability in <Emphasis Type="Italic">Azospirillum brasilense</Emphasis> strains Sp7 and Sp245: Association with dormancy and characteristics of the variants

The state of metabolic dormancy in diazotrophic bacteria Azospirillum brasilense Sp7 (non-endophytic strain) and Sp245 (endophytic strain) was found to be associated with phenotypic variability. The latter manifested itself in the extension of the spectrum of A. brasilense phenotypic variants resulting from plating of cyst-like resting cells (CRC) on solid media and was more pronounced in strain Sp7. The major colony’s morphological variants of strain Sp7 were (1) the dominant S type; (2) the highly pigmented Pg type; (3) the R type; (4) the Sm type, forming small colonies; and (5) the Sg type, forming segmented colonies. In addition to their colony morphology, the variants differed in the phenotype stability during transfers on the standard solid medium and in their motility in semisolid agar. The occurrence frequency of the phenotypic variants depended on the conditions and duration of incubation (storage) of the CRC of strain Sp7, as well as on heat treatment (at 55 and 60°C for 10 min) of the cells prior to inoculation. The maximum frequency of S → Pg transitions (up to 74%) was observed during the germination of CRC stored in a spent culture medium at −20°C for 4 months; the maximum frequency (up to 100%) of S → Sm transitions was observed after inoculation of the CRC subjected to heat treatment. The Pg variants were the most stable, whereas other types reverted rapidly to the S or Pg variant. The S variant grown in semisolid agar exhibited the mixed type of motility (Swa⁺Gri⁺, swarming and migration in the form of microcolonies); the Pg and Sg variants showed the Swa⁺Gri⁻ (swarming) phenotype and the Sm variant was nonmotile (Swa⁻Gri⁻ phenotype). The spectrum of phenotypic variants of the endophytic strain Sp245 was narrower than that of strain Sp7 and was represented by S, Sm, and M (mucoid) variants that differed in the patterns of cell motility: the dominant S type displayed the swarming pattern (Swa⁺Gri⁻), the mucoid M type showed the mixed type (Swa⁺Gri⁺) of motility, and the Sm variant was nonmotile. The differences between the nonendophytic strain Sp7 and the endophytic strain Sp245 in their capacity for phenotypic dissociation and cell motility in semisolid media may reflect their ability to adapt to changing ambient conditions and specificity of plant-microbial interactions.     

Extracellular production of L-ascorbic acid by Chlorella protothecoides,Prototheca species,and mutants of P. moriformis during aerobic culturing at low pH

Nine strains of Chlorella protothecoides and 43 strains representing the five species of Prototheca were screened in flask culture for their ability to synthesize L-ascorbic acid (AA). Ascorbic acid was detected in all strains, ranging from 4.8 to 0.38 mg AA g⁻¹ of dry cells. Organisms selected for further study grew well and maintained their AA productivity above a pH of 3.5. They can produce AA using a variety of carbon and nitrogen sources. Aerobic fermentation of selected strains resulted in extracellular accumulation of AA up to 76 mg l⁻¹. By classical mutagenesis and selection methods, we created mutants of Prototheca moriformis ATCC 75669 that produced greater quantities of AA than the wild-type strain (78.4 vs 21.9 mg AA g⁻¹ of cells). A process based on extracellular production could greatly reduce the cost of AA manufacture by eliminating the need for extraction of the AA from the cells. Journal of Industrial Microbiology & Biotechnology (2002) 29, 93–98 doi:10.1038/sj.jim.7000275 Received 04 December 2001/ Accepted in revised form 09 May 2002     

Assignment of biological functions to specific plasmids in a local isolate ofRhizobium cicer

The genetic basis of symbiosis, mucoid structure and melanin biosynthesis in a local isolate ofRhizobium cicer was investigated. The strain was a very effective symbiont and produced substantial amounts of exopolysaccharides and melanin. It harbored three high-molar-mass plasmids of 55, 80 and 130 kb, respectively. Thirty-one melanin production-negative (Mep⁻) derivatives were obtained through plasmid curing. The plasmid patterns of cured derivatives indicated that the loss of 55 and/or 80 kb plasmids was sufficient for obtaining Mep⁻ phenotype. The specific involvement of 55-kb plasmid in melanin production was confirmed upon re-introduction of this plasmid into one of the Mep⁻ derivatives. Further investigation also indicated that the 130-kb plasmid might be necessary for both mucoidal appearance and symbiotic functions.     

Prodigiosin from <Emphasis Type="BoldItalic">Vibrio</Emphasis> sp. DSM 14379; A New UV-Protective Pigment

Pigments such as melanin, scytonemin and carotenoids protect microbial cells against the harmful effects of ultraviolet (UV) radiation. The role in UV protection has never been assigned to the prodigiosin pigment. In this work, we demonstrate that prodigiosin provides a significant level of protection against UV stress in Vibrio sp. DSM 14379. In the absence of pigment production, Vibrio sp. was significantly more susceptible to UV stress, and there was no difference in UV survival between the wild-type strain and non-pigmented mutant. The pigment’s protective role was more important at higher doses of UV irradiation and correlated with pigment concentration in the cell. Pigmented cells survived high UV exposure (324 J/m²) around 1,000-fold more successfully compared to the non-pigmented mutant cells. Resistance to UV stress was conferred to the non-pigmented mutant by addition of exogenous pigment extract to the growth medium. A level of UV protection equivalent to that exhibited by the wild-type strain was attained by the non-pigmented mutant once the prodigiosin concentration had reached comparable levels to those found in the wild-type strain. In co-culture experiments, prodigiosin acted as a UV screen, protecting both the wild-type and non-pigmented mutants. Our results suggest a new ecophysiological role for prodigiosin.     

The mutator property of uvr502 mutation affecting UV sensitivity of Escherichia coli

Summary The frequency of direct and reverse mutations at several chromosomal loci increased in UV sensitiveuvr502 strains ofE. coli. Both UV sensitivity and mutator (Mut⁻) phenotype are due to the singleuvr502 mutation. Inuvr ⁺/uvr502 merodiploid the Mut⁻ phenotype is recessive.     

Melanization of a meristematic mutant of Fonsecaea monophora increases tolerance to stress factors while no effects on antifungal susceptibility

Melanin is a complex polymer, which is widely distributed in nature, and is known as an important virulence factor in opportunistic and pathogenic fungi. In this study, three melanin mutants of Fonsecaea monophora from a case of chromoblastomycosis were generated from a parent strain that lacked hyphal morphology but was meristematic instead. Two albino mutants, one of which (CBS 125187) produced secreted melanin and another (CBS 125149) lacked melanin, grew faster than a mutant with cell-wall-associated and secreted melanin (CBS 125188) and than the meristematic parent strain (CBS 122845) (P < 0.05). The albino strains were also more sensitive to low pH, high UV radiation, and oxidative stress (P < 0.05). However, susceptibility testing against eight antifungal agents showed no statistical difference (P > 0.05). The discovery of three melanin mutants of a single meristematic mutant provided an alternative way to study the role of cell-wall-associated and secreted melanins in the pathogenesis of black fungi.     

The pea ( Pisum sativum L.) genes sym33 and sym40 control infection thread formation and root nodule function

Two novel non-allelic mutants that were unable to fix nitrogen (Fix⁻) were obtained after EMS (ethyl methyl sulfonate) mutagenesis of pea (Pisum sativum L.). Both mutants, SGEFix⁻–1 and SGEFix⁻–2, form two types of nodules: SGEFix⁻–1 forms numerous white and some pink nodules, while mutant SGEFix⁻–2 forms white nodules with a dark pit at the distal end and also some pinkish nodules. Both mutations are monogenic and recessive. In both lines the manifestation of the mutant phenotype is associated with the root genotype. White nodules of SGEFix⁻–1 are characterised by hypertrophied infection threads and infection droplets, mass endocytosis of bacteria, abnormal morphological differentiation of bacteroids, and premature degradation of nodule symbiotic structures. The structure of the pink nodules of SGEFix⁻–1 does not differ from that of the parental line, SGE. White nodules of SGEFix⁻–2 are characterised by “locked” infection threads surrounded with abnormally thick plant cell walls. In these nodules there is no endocytosis of bacteria into host-cell cytoplasm. The pinkish nodules of SGEFix⁻–2 are characterised by virtually undifferentiated bacteroids and premature degradation of nodule tissues. Thus, the novel pea symbiotic genes, sym40 and sym33, identified after complementation analysis in SGEFix⁻–1 and SGEFix⁻–2 lines, respectively, control early nodule developmental stages connected with infection thread formation and function. Received: 12 June 1998 / Accepted: 25 June 1998     

Cloning and expression of <Emphasis Type="Italic">mel</Emphasis> gene from <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> in <Emphasis Type="Italic">Escherichia coli</Emphasis>

Previous work from our laboratory has shown that most of Bacillus thuringiensis strains possess the ability to produce melanin in the presence of l-tyrosine at elevated temperatures (42 °C). Furthermore, it was shown that the melanin produced by B. thuringiensis was synthesized by the action of tyrosinase, which catalyzed the conversion of l-tyrosine, via l-DOPA, to melanin. In this study, the tyrosinase-encoding gene (mel) from B. thuringiensis 4D11 was cloned using PCR techniques and expressed in Escherichia coli DH5 . A DNA fragment with 1179 bp which contained the intact mel gene in the recombinant plasmid pGEM1179 imparted the ability to synthesize melanin to the E. coli recipient strain. The nucleotide sequence of this DNA fragment revealed an open reading frame of 744 bp, encoding a protein of 248 amino acids. The novel mel gene from B.thuringiensis expressed in E. coli DH5 conferred UV protection on the recipient strain.     

Genetic complementation of rhizobial nod mutants with Frankia DNA: artifact or reality?

Two divergent reports have been published on the genetic complementation of rhizobial nod mutants using Frankia DNA. In 1991 putative Frankia cosmid library clones were reported to restore normal nodulation properties to Rhizobium leguminosarum biovar viciaenodD::Tn5, but no supporting sequence data were published. In 1992 a second group reported a failure to find any evidence of functional complementation of various rhizobial nod mutants by Frankia DNA (nodA, nodB and nodC). Complementation tests of nine Nod⁻ R. leguminosarum bv. viciae or Sinorhizobium meliloti Tn5 mutants (nodA ⁻ , nodB ⁻ , nodC ⁻ , nodD ⁻ , nodF  ⁻ , nodL ⁻ , nodH ⁻ ) were thus performed using a Frankia gene library in pLAFR3 to clarify this situation. Rhizobial transconjugants obtained by tri-parental matings were screened for restoration of the nodulation phenotype on their host plants, Vicia sativa subsp. nigra or Medicago sativa. Nodulation was observed on plants inoculated with transconjugants of the R. leguminosarum bv. viciaenodC::Tn5 mutant. The Nod⁺ rhizobial transconjugants were isolated and analysed. The Nod⁺ phenotype of these transconjugants was found to be due to Tn5 excision/transposition. No functional complementation was found with any of the mutants used, suggesting that rhizobial complementation of nod mutants with Frankia DNA is unlikely to occur. Received: 17 April 1998 / Accepted: 22 July 1998     

Differential expression of thermophilic phosphatases in the wild type and auxotrophic mutant strains of <Emphasis Type="Italic">Thermoactinomyces vulgaris</Emphasis>

In the wild type strain (stock no. 1227) of Thermoactinomyces vulgaris, as reported earlier [Sinha and Singh (1980) Biochem. J. 190, 457–460], all phosphatase isoenzymes (three alkaline — AlpI, AlpII and AlpIII, and one acidic — Acp) are present. However, the auxotrophic mutants, the strains 1286 (thi ⁻), 1279 (nic ⁻, ura ⁻) and 1278 (thi ⁻, ura ⁻) exhibited two alkaline phosphatase isoenzymes (AlpII and AlpIII), but AlpI was lacking. In the strain 1261 (nic ⁻, thi ⁻), only AlpIII was expressed, and AlpI and AlpII isoenzymes were missing. The results suggest that the strains, which require either thiamine (1286 and 1278) or nicotinamide (1279) for their growth, were AlpI ⁻ mutants; and the strain (1261), which requires both thiamine and nicotinamide for its growth, was AlpI ⁻/AlpII ⁻ double mutant. There was no direct correlation between uracil auxotrophy and the expression of phosphatases. The uniform expression of AlpIII and Acp in all the strains, irrespective of their nutrient requirements, suggest that these constitutive phosphatases are species-specific. The specific activities of the thermophilic acid and alkaline phosphatases were maximum in the wild type strain (1227) of T. vulgaris. The next in phosphatase activity was the strain 1279 (an AlpI ⁻ mutant), followed by their decrease, in order, in the strains 1286 and 1278 (which were also AlpI ⁻ mutants); while least activity of these enzymes was observed in the obligate thermophile strain 1261 (AlpI ⁻/AlpII ⁻ double mutant).     

Isolation and characterization of nitrite-reductase-deficient mutants of Chlorella sorokiniana (strain 211-8k)

 A method is presented to isolate mutants of Chlorella sorokiniana with defects in NO₃ ⁻ metabolism. Three nitrite-reductase (NIR; E.C.1.7.7.1)-deficient mutants were obtained from 500 pinpoint-colony-forming clones. The final screening was performed using NO₃ ⁻, NO₂ ⁻ or NH⁺ ₄ as N-source. The mutants isolated absorb NO₃ ⁻ with rates close to those measured for the wild type and they excrete NO₂ ⁻ into the medium. The ratio between NO₃ ⁻ uptake and NO₂ ⁻ excretion was 1:1. The sensitivity of NO₃ ⁻ uptake to NH⁺ ₄ was reduced in the mutant strains as it was in the N-starved wild type of Chlorella. Nitrate reductase (NR; EC 1.6.6.1) expression and NR activity were slightly reduced compared to the wild type due to feedback regulation in the mutant strains. No NIR protein was found in the three mutants. However, NIR activity was obtained (50% of the wild-type) for one mutant strain. The NIR-deficient mutants and the already available NR-deficient mutants will be promising tools for investigations of the nitrate assimilation pathway on the molecular level and for studies searching for signaling of C and N metabolism by inorganic N-compounds. Received: 8 October 1999 / Accepted: 25 January 2000     

Protein engineering of toluene-o-xylene monooxygenase from Pseudomonas stutzeri OX1 for enhanced chlorinated ethene degradation and o-xylene oxidation

Toluene-o-xylene monooxygenase (ToMO) from Pseudomonas stutzeri OX1 has been shown to degrade all chlorinated ethenes individually and as mixtures. Here, DNA shuffling of the alpha hydroxylase fragment of ToMO (TouA) and saturation mutagenesis of the TouA active site residues I100, Q141, T201, F205, and E214 were used to enhance the degradation of chlorinated aliphatics. The ToMO mutants were identified using a chloride ion screen and then were further examined by gas chromatography. Escherichia coli TG1/pBS(Kan)ToMO expressing TouA saturation mutagenesis variant I100Q was identified that has 2.8-fold better trichloroethylene (TCE) degradation activity (apparent V _max of 1.77 nmol min⁻¹ mg⁻¹ protein⁻¹ vs 0.63 nmol min⁻¹ mg⁻¹ protein⁻¹). Another variant, E214G/D312N/M399V, has 2.5-fold better cis-1,2-dichloroethylene (cis-DCE) degradation activity (apparent V _max of 8.4 nmol min⁻¹ mg⁻¹ protein⁻¹ vs 3.3 nmol min⁻¹ mg⁻¹ protein⁻¹). Additionally, the hydroxylation regiospecificity of o-xylene and naphthalene were altered significantly for ToMO variants A107T/E214A, T201G, and T201S. Variant T201S produced 2.0-fold more 2,3-dimethylphenol (2,3-DMP) from o-xylene than the wild-type ToMO, whereas variant A107T/E214A had 6.0-fold altered regiospecificity for 2,3-DMP formation. Variant A107T/E214A also produced 3.0-fold more 2-naphthol from naphthalene than the wild-type ToMO, whereas the regiospecificity of variant T201S was altered to synthesize 3.0-fold less 2-naphthol, so that it made almost exclusively 1-naphthol (96%). Variant T201G was more regiospecific than variants A107T/E214A and T201S and produced 100% 3,4-DMP from o-xylene and >99% 1-naphthol from naphthalene. Hence, ToMO activity was enhanced for the degradation of TCE and cis-DCE and for the regiospecific hydroxylation of o-xylene and naphthalene through DNA shuffling and saturation mutagenesis.     

Polyanion-mediated mineralization — mineralization in coccolithophore (Pleurochrysis carterae) variants which do not express PS2, the most abundant and acidic mineral-associated polyanion in wild-type cells

Summary Highly acidic macromolecules are postulated intermediates in biomineralization because they sequester large numbers of calcium ions and occur in high concentrations at mineralizing foci in distantly related organisms. The mineral-associated polyanions in the coccolithophorePleurochrysis carterae are acidic polysaccharides which surround calcite elements on mineralized scales called coccoliths. PS2 is the most abundant and acidicPleurochrysis polyanion, containing four carboxyl groups per disaccharide repeat. This study examines the mineralizing function of PS2 by analysis of calcium carbonate deposition in PS2-deficient cells. Mineral-deficientPleurochrysis variants were separated from wild-type cells by density gradient centrifugation and analyzed for PS2 expression. Three independent low-density variants (two spontaneous and one chemically-induced) not expressing PS2 (ps2⁻) were isolated. The mineral content of each ps2⁻ variant was less than 5% of the wild-type level. Most ps2⁻ coccoliths were unmineralized, but when crystals were present, they occurred on the coccolith rim as in wild-type cells. When ps2⁻ rim elements were adequately large and numerous, they displayed the alternating A and B anvil shapes characteristic of wild-type rim elements. Although ps2⁻ cells may have defects which affect the expression of cellular components in addition to PS2, correlation of PS2 nonexpression with mineral deficiency in three independent variants supports the hypothesis that PS2 is a functional intermediate in mineral deposition. PS2 may affect the level ofPleurochrysis mineralization by (a) controlling the amount of calcium ions available for mineralization, (b) accelerating the rate of calcite nucleation, or (c) both. However, PS2 does not influence crystal morphology, since the more mature crystals in ps2⁻ cells exhibit the anvil-shaped morphology of wild-type crystals.     

Amino Acids that Confer Transport of Raffinose and Maltose Sugars in the Raffinose Permease (RafB) of Escherichia coli as Implicated by Spontaneous Mutations at Val-35, Ser-138, Ser-139, Gly-389 and Ile-391

In order to identify amino acid residues in the Escherichia coli raffinose-H⁺ permease (RafB) that play a role in sugar selection and transport, we first incubated E. coli HS4006 containing plasmid pRU600 (expresses inducible raffinose permease and α-galactosidase) on maltose MacConkey indicator plates overnight. Initially, all colonies were white, indicating no fermentation of maltose. Upon further incubation, 100 mutants appeared red. pRU600 DNA was prepared from 55 mutants. Five mutants transferred the phenotype for fermentation of maltose (red). Plasmid DNA from five maltose-positive phenotype transformants was prepared and sequenced, revealing three distinct types of mutations. Two mutants exhibited Val-35→Ala (MT1); one mutant had Ile-391→Ser (MT2); and two mutants had Ser-138→Asp, Ser-139→Leu and Gly-389→Ala (MT3). Transport studies of [³H]-maltose showed that cells harboring MT1, MT2 and MT3 had greater uptake (P ≤ 0.05) than cells harboring wild-type RafB. However, [¹⁴C]-raffinose uptake was reduced in all mutant cells (P ≤ 0.05) with MT1, MT2 and MT3 mutants compared to cells harboring wild-type RafB. Kinetic analysis showed enhanced apparent K _m values for maltose and reduced V _max/ K _m ratios for raffinose compared to wild-type values. The apparent K _i value of maltose for RafB indicates a competitive relationship between maltose and raffinose. Maltose “uphill” accumulation was greater for mutants (P ≤ 0.05) than for cells with wild-type RafB. Thus, we implicate residues in RafB that are responsible for raffinose transport and suggest that the substituted residues in RafB dictate structures that enhance transport of maltose.     

Resistance to glyphosate in the cyanobacterium <Emphasis Type="Italic">Microcystis aeruginosa</Emphasis> as result of pre-selective mutations

Adaptation of Microcystis aeruginosa (Cyanobacteria) to resist the herbicide glyphosate was analysed by using an experimental model. Growth of wild-type, glyphosate-sensitive (G^s) cells was inhibited when they were cultured with 120 ppm glyphosate, but after further incubation for several weeks, occasionally the growth of rare cells resistant (G^r) to the herbicide was found. A fluctuation analysis was carried out to distinguish between resistant cells arising from rare spontaneous mutations and resistant cells arising from other mechanisms of adaptation. Resistant cells arose by rare spontaneous mutations prior to the addition of glyphosate, with a rate ranging from 3.1 × 10⁻⁷ to 3.6 × 10⁻⁷ mutants per cell per generation in two strains of M. aeruginosa; the frequency of the G^r allele ranged from 6.14 × 10⁻⁴ to 6.54 × 10⁻⁴. The G^r mutants are slightly elliptical in outline, whereas the G^s cells are spherical. Since G^r mutants have a diminished growth rate, they may be maintained in uncontaminated waters as the result of a balance between new resistants arising from spontaneous mutation and resistants eliminated by natural selection. Thus, rare spontaneous pre-selective mutations may allow the survival of M. aeruginosa in glyphosate-polluted waters via G^r clone selection.     

The mutagenic effect of ethyl methanesulfonate on a non-acid-fast strain ofMycobacterium phlei

Ethyl methanesulfonate was used for the induction of three types of mutants in a non-acidfast strain ofMycobacterium phlei. A total of 20 auxotrophie mutants was isolated. The mutants were isolated mostly when using doses yielding higher survival of the cells of the basic suspension. The auxotrophic mutants isolated required mostly amino acids, two mutants required purines and three mutants required vitamins. By determining the frequency of spontaneous reversions, it was found that 9 auxotrophic mutants could be used for further genetic studies. These included the following phenotypes: isoleucine⁻, leucine⁻, lysine⁻, nicotinic acid⁻, pyridoxine⁻, and xanthine⁻. Seven scotochromogenic mutants were isolated after ethyl methanesulfonate treatment. One was ochre, the remaining six were orange. Six achromogenic mutants were detected. Spontaneous auxotrophic mutants, scotochromogenic and achromogenic mutants were not isolated. The treatment with 0.2m ethyl methanesulfonate resulted in an increase in the frequency of STM-resistant mutants, the maximum phenotypic expression taking place after 72 hours cultivation in a liquid medium without the drug. The frequency of induced STM-resistant mutants varied within the range of 8.6.10⁻⁵–1.0.10⁻⁴ as compared with the frequency of spontaneous mutants 5.8.10⁻⁶–8.8.10⁻⁶.