Mycotoxin production and evolutionary relationships among species of Aspergillus section Clavati

Aspergillus clavatus is a commonly encountered fungus in the environment, producing a number of mycotoxins including patulin, kojic acid, cytochalasins and tremorgenic mycotoxins. A. clavatus belongs to Aspergillus section Clavati together with six other species, all of which possess clavate-shaped vesicles. Patulin production was analysed by thin layer chromatography and high performance liquid chromatography, while a primer pair developed for the detection of an iso-epoxydon dehydrogenase gene involved in the biosynthesis of patulin in penicillia was used to detect the ability of patulin production in the isolates examined. A good correlation was observed between patulin producing properties, and the presence of an iso-epoxydon dehydrogenase gene fragment among the isolates tested. A. longivesica was found for the first time to produce patulin. Ribotoxin production was also examined using a PCR-based approach. Ribotoxins were detected for the first time in an A. pallidus and a Hemicarpenteles acanthosporus isolate. A phylogenetic analysis of intergenic transcribed spacer sequence data indicated that most isolates belong to two main clades that have also been identified earlier based on 26 S rDNA sequence data. A. pallidus isolates clustered together with A. clavatus strains. Although A. clavatus isolates produced highly homogeneous random amplified polymorphic DNA profiles, phylogenetic analysis of these data let us cluster A. clavatus isolates into distinct clades. Correlations were not observed between either patulin or ribotoxin production, and the taxonomic position of the isolates tested, indicating that patulin and ribotoxin producing abilities were lost several times during evolution of Aspergillus section Clavati. Although patulin was earlier found to inhibit mycovirus replication, one of the mycovirus carrying isolates also produced patulin, and both carried the iso-epoxydon dehydrogenase gene. This revised version was published online in June 2006 with corrections to the Cover Date.     

STARCH GEL ELECTROPHORESIS OF ENZYMES FROM NINE SPECIES OF POLYPORUS

Taxonomic relationships among 22 isolates of nine species of the wood-rotting fungus, Polyporus, were examined by starch gel electrophoresis, coupled with histochemical staining procedures. Crude extracts of 21-day cultures grown on malt extract agar were subjected to electrophoresis for 3 hr at a constant current of 25 ma. Esterase, peroxidase, catechol oxidase, galactose dehydrogenase, acid phosphatase, and alkaline phosphatase banding patterns were analyzed. With each enzyme, the bands for each isolate were compared with those for other isolates of the same species and for isolates of other species. A closer relationship was found in the banding patterns for different isolates of a single species than among isolates of different species. This technique may prove valuable for the evaluation of taxonomic differences among these wood-rotting fungi.     

CYTOLOGICAL AND PHYLOGENETIC DIVERSITY IN FRESHWATER ESOPTRODINIUM/BERNARDINIUM SPECIES (DINOPHYCEAE)1

The genera Esoptrodinium Javornický and Bernardinium Chodat comprise freshwater, athecate dinoflagellates with an incomplete cingulum but differing reports regarding cingulum orientation and the presence of chloroplasts and an eyespot. To examine this reported diversity, six isolates were collected from different freshwater ponds and brought into clonal culture. The isolates were examined using LM to determine major cytological differences, and rDNA sequences were compared to determine relatedness and overall phylogenetic position within the dinoflagellates. All isolates were athecate with a left‐oriented cingulum that did not fully encircle the cell, corresponding to the current taxonomic concept of Esoptrodinium. However, consistent cytological differences were observed among clonal isolates. Most isolates exhibited unambiguous pale green chloroplasts and a distinct bright‐red eyespot located at the base of the longitudinal flagellum. However, one isolate had cryptic chloroplasts that were difficult to observe using LM, and another had an eyespot that was so reduced as to be almost undetectable. Another isolate lacked visible chloroplasts but did possess the characteristic eyespot. Nuclear rDNA phylogenies strongly supported a monophyletic Esoptrodinium clade containing all isolates from this study together with a previous sequence from Portugal, within the Tovelliaceae. Esoptrodinium subclades were largely correlated with cytological differences, and the data suggested that independent chloroplast and eyespot reduction and/or loss may have occurred within this taxon. Overall, the isolates encompassed the majority of cytological diversity reported in previous observations of Bernardinium/Esoptrodinium in field samples. Systematic issues with the current taxonomic distinction between Bernardinium and Esoptrodinium are discussed.     

Fatty acid composition as a taxonomic characteristic for Microcystis and other coccoid cyanobacteria (blue-green alga) isolates

The taxonomic importance of fatty acid composition at genus and sub-genus level was evaluated by analysing the fatty acid composition of fourteen different Microcystis isolates and seven additional members of the order Chroococcales. Fatty acid composition proved to be consistent within isolates. Isolates were clustered into two major groups, namely A and B. Group B contained all the Microcystis isolates and was further divided into subgroups of varying similarity indicating the existence of different taxa. The Microcystis isolates were characterised by a high content of polyunsaturated fatty acids (27–44%) and a low content of palmitoleate. The test organisms were arranged in a scheme indicating their possible phylogenetic relationship based on fatty acid composition and other phenotypic characteristics. According to our data the toxic strains, represented by different isolates, of Microcystis appear as a distinct group. Furthermore two dubious species namely Microcystis incerta and a Synechocystis sp. could clearly be reasigned to different genera. The results demonstrated that fatty acid composition is an effective taxonomic tool in clarifying taxonomical problems of Microcystis isolates. Department of Microbiology, University of the Orange Free State     

Chemotaxonomy of fungi in the Rhizoctonia solani species complex performing GC/MS metabolite profiling

Hyphal anastomosis testing and molecular methods have been the primary criteria employed to understand the evolutionary and taxonomic relationships of the soil-borne fungal plant pathogen Rhizoctonia solani species complex. In this study, a metabolomics-based approach for characterizing and identifying isolates of R. solani using gas chromatography/mass spectrometry (GC/MS) metabolite profiling and footprinting was developed. Multivariate and hierarchical cluster analyses of GC/MS data provided resolution of isolates belonging to anastomosis groups (AGs) 1–6, 9, and 10 of R. solani. Clustering of R. solani AG-3 isolates, based on host origin, was also observed and attributed to metabolite-biomarkers belonging to amino, carboxylic and fatty acids. The chemotaxonomic approach using metabolomics is a high-throughput methodology that complements existing molecular approaches for the taxonomic investigation of Rhizoctonia isolates and monitoring of fungal metabolism.

     

Clustering of fungal community internal transcribed spacer sequence data obscures taxonomic diversity

Next‐generation DNA sequencing has enabled a rapid expansion in the size of molecular fungal ecology studies employing the nuclear internal transcribed spacer (ITS) region. Many sequence‐processing pipelines and protocols require sequence clustering to generate operational taxonomic units (OTUs) based on sequence similarity as a step to reduce total data quantity and complexity prior to taxonomic assignment. However, the consequences of ITS sequence clustering in regard to sample taxonomic coverage have not been carefully examined. Here we demonstrate that typically used clustering thresholds for fungal ITS sequences result in statistically significant losses in taxonomic coverage. Analyses using environmentally derived fungal sequences indicated an average of 3.1% of species went undetected (P < 0.05) if the sequences were denoised and clustered at a 97% threshold prior to taxonomic assignment. Additionally, an in silico analysis using a reference fungal ITS database suggested that approximately 25% of species went undetected if the sequences were clustered prior to taxonomic assignment. Finally, analysis of sequences derived from pure‐cultured fungal isolates of known identity indicated sequence denoising and clustering were not critical in improving identification accuracy.     

Genetic Diversity of Thanatephorus cucumeris Infecting Tomato in Iran

The necrotrophic fungus Thanatephorus cucumeris (anamorph Rhizoctonia solani) is among the most important soil‐borne pathogens which causes tomato foot and root rot worldwide. We investigated virulence and genetic relationships among and within different taxonomic groups of R. solani from the tomato‐growing regions in the north‐east of Iran. Characterization of R. solani taxonomic groups revealed that, of 56 isolates, four were AG‐2‐1, 16 were AG‐3 PT, 21 were AG‐4 HG‐I and 15 were AG‐4 HG‐II. Because interprimer binding site (iPBS), which is based on amplification of retrotransposons, is known as novel and powerful DNA fingerprinting technology, we selected four iPBS primers, which can detect polymorphisms of tomato foot root and root rot pathogen, for investigating genotypic variability of the isolates. The iPBS analyses separated various taxonomic groups of R. solani and showed great diversity among the isolates, demonstrating that the R. solani isolates obtained from tomato were not a clonal population. Crop rotation strategies and geographic location seem to be important factors affecting genetic structure of the isolates. Pathogenicity tests on tomato cultivar ‘Mobil’ showed significant differences in the virulence of various isolates. The overall results indicated that isolates of AG‐3 and AG‐4 were more virulent than AG‐2‐1. There was no significant correlation between genetic diversity and virulence of the isolates. This is the first report of R. solani AG‐4 HG‐II, causing tomato foot and root rot. Also, our research is the first in assessment of genetic diversity in fungal populations using iPBS molecular markers.     

The Biodiversity of Actinomycetes in Lake Baikal

The taxonomic analysis of 107 actinomycete strains isolated from the bottom sediments and water of Lake Baikal showed that most of the water isolates belong to the genus Streptomyces and most of the sediment isolates belong to the genus Micromonospora. In the sediments, the number of actinomycetes increased with depth (down to 200 m). Eight Streptomyces isolates were identified to a species level.     

PHYLOGENYOF THE VLE-14 CHLAMYOMONAS (CHLOROPHYCEAE) GROUP: A STUDY OF 18S rRNA GENE SEQUENCES1

Comparative specificity of sporangial wall autolysins (i.e. vegetative lytic enzymes [VLE]) derived from sporulating cultures has been used to group Chlamydomonas taxa into 15 different VLE types. The VLE-14 group, including isolates of C. geitleri, C. noctigama, C. monoica, C. pinicola, C. terricoia, and C. hindakii, is one of the largest of these VLE groups. Genetic studies have shown that a number of the VLE-14 taxa are interfertile, albeit with little or reduced viability of progeny. A reevaluation of the VLE-14 group suggested that all members should be regarded as distinct isolates of C. noctigama. The present investigation tests the phylogenetic implications of the VLE evidence and examines the validity of the taxonomic reevaluation in a phylogenetic context by analysis of 18S rRNA gene sequence data. Results from analyses of the sequence data are consistent with an interpretation of the VLE evidence as indicative of monophyletic taxa. Phylogenetic analyses of the sequence data are also consistent with the taxonomic reevaluation and reidentification of the group. However, at least some of the VLE-14 isolates studied in this investigation fit criteria for distinct biologic or phylogenetic species. It is concluded that the VLE-14 taxa represent a very closely allied group that includes some isolates that are in the early stages of speciation ly reproductive isolation.     

Phylogenetic and phenotypic analyses of arsenic-reducing bacteria isolated from an old tin mine area in Thailand

An agar plate screening assay was used to determine whether 100 arsenic-resistant bacterial isolates, previously obtained from arsenic-contaminated soils, had the ability to transform arsenite and arsenate. Ninety-five percent of the isolates were capable of reducing arsenate on agar plates. The isolates also grew in the presence of high concentrations of arsenite, but none of the bacterial isolates oxidized arsenite to arsenate under the growth conditions tested. About 14 % (13 of 95) of the tested isolates transformed high levels of arsenate (33–70 μM) when tested using the molybdenum blue method. Partial sequence analysis of 16S rDNA genes indicated that the isolates belonged to two broad taxonomic groups: Firmicutes and Proteobacteria. Ten isolates were assigned to four species in the genus Bacillus, and three isolates belonged to two species in the genera Enterobacter and Ochrobactrum. Taken together these results indicate that phylogenetically diverse bacteria isolated from arsenic-contaminated soils in an old tin mine area in Thailand have the ability to transform arsenate to arsenite.     

Poly-β-Hydroxybutyrate Metabolism Is Affected by Changes in Respiratory Enzymatic Activities Due to Cold Stress in Two Psychrotrophic Strains of Rhizobium

Cold stress resulted in a decrease in the poly-β-hydroxybutyrate (PHB) content of non-cold-acclimated Rhizobium DDSS69 cultures. Analysis of the specific activity of β-ketothiolase and β-hydroxybutyrate dehydrogenase revealed that decrease in PHB levels was a result of the inhibition of synthesis of PHB rather than an increase in its breakdown. Rhizobium ATR1, a cold-acclimated strain, revealed the presence of a stable PHB metabolism that did not show any significant differences either in PHB levels or in the activity of enzymes of the PHB metabolism under cold stress, suggesting that PHB is not involved in cold tolerance. Analysis of specific activities of glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase of the pentose phosphate pathway showed the upward regulation of alternate pathways of carbohydrate metabolism under cold stress to rapidly generate energy to overcome the stress. There is diversity in the switching mechanisms of carbon metabolism among cold-acclimated and non-cold-acclimated Rhizobium isolates. Upward regulation of malate dehydrogenase in both isolates suggests that it is a critical input for cold tolerance. Received: 26 June 2000 / Accepted: 31 July 2000     

The Variability of Pyrenochaeta terrestris Isolates Based on Isozyme Polymorphism, Cultural Characteristics and Virulence on Differential Onion Breeding Lines

Isolates of Pyrenochaeta terrestris from South Africa and the United States of America were evaluated for pathogenicity, isozyme polymorphism and cultural characteristics. Isozyme polymorphism indicated that the isolates of this pathogen, even from the same field, are highly variable. Based on variability in the enzymes: alcohol dehydrogenase, aldolase, malate dehydrogenase and sorbitol dehydrogenase, the isolates could be divided into five electrophoretic types. The virulence of isolates to onion breeding lines resistant, moderately resistant and susceptible to pink root was variable and differentiation depended on the isolate used in the evaluation. The isolates showed extensive variation in both the ability to form setose pycnidia in culture and in the cultural pigmentation.     

Development and optimization of a defined medium for aerobic growth ofBacillus stearothermophilus LLD-15

Methionine, biotin, nicotinic acid and thiamine were found to be absolute requirements for growth ofBacillus stearothermophilus strain LLD-15, an L-lactate dehydrogenase mutant, at 70°C. A defined medium for aerobic growth did not support anaerobic growth. Physiological and subsequent taxonomic studies showed that strain LLD-15 is not a derivative ofB. stearothermophilus NCA 1503 as originally thought, but bears some similarity toB. caldotenax.     

Polyphasic characterization of a suite of bacterial isolates capable of degrading 2,4-D

To develop a better understanding of the ecological aspects of microbial biodegradation, it is important to assess the phenotypic and biochemical diversity of xenobiotic degrading organisms. Forty-six bacterial isolates capable of degrading 2,4-dichlorophenoxyacetic acid (2,4-D) and representing several geographically distinct locations were characterized and placed into taxonomic groups based on the results of several independent analyses. The isolates were characterized based on Gram's reaction, colony morphology, cell morphology, fatty acid methyl ester (FAME) fingerprints, carbon substrate oxidation patterns (BIOLOG), DNA homology to whole-plasmid probes and repetitive extragenic palindromic (REP) fingerprints. Attempts to group organisms taxonomically based on colony morphology and cell morphology were largely unsuccessful. Both FAME and BIOLOG analyses were generally unable to provide reliable genus or species identifications of these environmental isolates by comparison of fingerprints or substrate use patterns to existing data bases. Modification of the standard protocols for these analyses, however, allowed taxonomic grouping of the isolates and the construction of new data bases, comprised solely of 2,4-D-degrading organisms, against which future novel isolates can be compared. Independent cluster analysis of the FAME and BIOLOG data shows that the isolates can be segregated into five taxonomic classes. The collection of 2,4-D-degrading isolates was also separated into five classes based on DNA homology to whole-plasmid probes obtained from individual isolates. REP analysis allowed isolates that likely represent the same (or very similar) organism(s) to be identified and grouped. Each of the analyses used represents a mechanistically different means of classifying organisms, yet the taxonomic groupings obtained by several of the methods (FAME, BIOLOG, DNA homology, and to some degree, REP analysis) were in good agreement. This indicates that the features discriminated by these different methods represent fundamental characteristics that determine phylogenetic groups of bacteria. Correspondence to: W.E. Holben.     

Characterization of Enterobacteria by Starch-Gel Electrophoresis of Glucose-6-Phosphate Dehydrogenase and Phosphogluconate Dehydrogenase

Specific activities and electrophoretic mobilities of glucose-6-phosphate dehydrogenase and phosphogluconate dehydrogenase were determined in 38 isolates of the family Enterobacteriaceae and in 10 isolates of the related Pasteurella. The deficiency of glucose-6-phosphate dehydrogenase in P. pestis was verified. Enzymes obtained from different strains of the same species exhibited an unexpected degree of heterogeneity. For example, 8 and 11 apparent variants of glucose-6-phosphate dehydrogenase and phosphogluconate dehydrogenase, respectively, were found in 14 strains of Escherichia coli. Although similar frequencies of heterogeneity were noted in 7 strains of P. pseudotuberculosis, 5 species of Shigella, and 8 species of Salmonella, differences in mobility were generally small in comparison with those observed between strains of E. coli. Values obtained for the pasteurellae, shigellae, and salmonellae, thus fell within narrow ranges that may prove typical for the genera. However, most of these ranges, as well as many values observed for single species of other genera, were overlapped by the wide range recorded for E. coli. The significance of this observation was discussed with respect to the relative age and taxonomic position of the organisms in question. The method could be used to distinguish between most wild-type strains of the same species and should thus facilitate investigations of genetic transfer and epidemiology.     

The isolation of heavy-metal resistant culturable bacteria and resistance determinants from a heavy-metal-contaminated site

In this study we performed a phylogenetic analysis of a culturable bacterial community isolated from heavymetal-contaminated soil from southwest Slovakia using 16S rRNA (16S rDNA) and heavy-metal resistance genes. The soil sample contained high concentrations of nickel (2,109 mg/kg), cobalt (355 mg/kg) and zinc (177 mg/kg), smaller concentrations of iron (35.75 mg/kg) and copper (32.2 mg/kg), and a trace amount of cadmium (<0.25 mg/kg). A total of 100 isolates were grown on rich (Nutrient agar No. 2) or minimal (soil-extract agar medium) medium. The isolates were identified by phylogenetic analysis using partial sequences of their 16S rRNA (16S rDNA) genes. Representatives of two broad taxonomic groups, Firmicutes and Proteobacteria, were found on rich medium, whereas four taxonomic groups, Actinobacteria, Bacteroidetes, Firmicutes and Proteobacteria, were represented on minimal medium. Forty-two isolates grown on rich medium were assigned to 20 bacterial species, while 58 bacteria grown on minimal medium belonged to 49 species. Twenty-three isolates carried czcA- and/or nccA-like heavy-metal-resistance determinants. The heavy-metalresistance genes of nine isolates were identified by phylogenetic analysis of their protein sequences.     

Identification of Cryptococcus neoformans in a routine clinical laboratory

Summary Eight taxonomic tests were compared for their ability to distinguishCryptococcus neoformans from the non-pathogenic species ofCryptococcus. Eight isolates ofCryptococcus were obtained from the American Type Culture Collection and 43 isolates were obtained directly from human and natural sources. The tests which appeared to be most valuable to the routine diagnostic laboratory were growth at 37° C, characteristic growth on Guizotia seed agar and virulence for mice.     

Genetic Diversity Among Iranian Isolates of Rhizoctonia solani Kühn Anastomosis Group1 Subgroups Based on Isozyme Analysis and Total Soluble Protein Pattern

Rhizoctonia solani is a destructive fungal pathogen with a wide host range. The R. solani complex species includes several divergent groups delimited by affinities for hyphal anastomosis. In this study, genetic variation among 20 isolates of R. solani anastomosis group 1 (AG1) subgroups (AG1‐IA and AG1‐IB) collected from Mâzandaran province, Iran, and standard isolates of these subgroups, was determined by isozyme analysis and total soluble protein profile. Mycelial protein pattern and isozyme analysis were studied using denaturing and non‐denaturing polyacrylamide gel electrophoresis, respectively. A total of 15 enzyme systems were tested, among which six enzymes including esterase, alkaline phosphatase, superoxide dismutase, octanol dehydrogenase, lactate dehydrogenase and mannitol dehydrogenase generated distinct and reproducible results. The soluble protein patterns were similar among the R. solani isolates examined; however, minor differences in banding pattern were observed between the two subgroups. In isozyme analysis, a total of 64 electrophoretic phenotypes were detected for all six enzymes used. Based on cluster analysis and similarity matrix, the fungal isolates were divided into two genetically distinct groups of I and II consistent with the previously reported AG1‐IA and AG1‐IB subgroups in AG1. Group I represented all isolates belonging to AG1‐IA subgroup, whereas group II represented all isolates belonging to AG1‐IB subgroup. Results from isozyme analysis suggest that the subgrouping concept within AGs is genetically based.     

Diversity of Superoxide-Dismutases Among Clinical and Soil Isolates of Streptomyces Species

Comparison of the nature, activity, and cellular localization of superoxide-dismutases (SOD) from soil and clinical isolates of Streptomyces species was investigated to identify possible factors that could account for the pathological role of the strains isolated from human lesions. Results showed that all of the studied strains possessed a cytoplasmic Ni-SOD. This particular SOD, found in isolates from patients, could be a new taxonomic criterion to identify Streptomyces species with greater precision. A second minor SOD, assimilated to an Fe/Zn-SOD, was detected in some strains, but no relationship was established between the presence of this enzyme and the clinical origin of the strains. Received: 9 April 1999 / Accepted: 9 June 1999     

Diversity of isolates of Acinetobacter from activated sludge systems based on their whole cell protein patterns

Whole cell protein extracts from strains of the currently recognized genomic species of Acinetobacter, together with those from a range of isolates of several genomic species identified using the Biolog system and obtained from a biological nutrient-removal activated sludge plant were analysed by SDS-PAGE. The dendrograms obtained after numerical analysis for the known genomic species generally supported the taxonomic relationships suggested from earlier DNA–DNA hybridisation data. In some cases the activated sludge isolates identified to genomic species level clustered closely with the corresponding genomic species reference strains, although isolates 5 and 8/9 were scattered throughout the dendrogram. Considerable variations were seen in the protein patterns of the 27 different environmental isolates of genomic species 7 that were analysed. Three unidentified Acinetobacter isolates examined formed their own subcluster. Received 06 September 1996/ Accepted in revised form 10 December 1996