DNA Sequence of Genes for Detoxification of Fusaric Acid, a Wilt-inducing Agent Produced by Fusarium Species

Isolation and nucleotide sequence determination of fusaric acid-detoxification genes are described in this paper. For screening the genes, bacteria collected from soil were positively selected in a selective medium containing fusaric acid. The capability of fusaric acid-resistant isolates to detoxify the toxin was assayed by examining the survival of tomato callus cells in culture filtrates prepared from the bacterial culture, in the presence of fusaric acid. The isolate (HY-1) showing the highest detoxification was selected and identified as Klebsiella oxytoca. Chromosomal DNA of this isolate was digested with Bam HI and shotgun-cloned to fusaric acid-sensitive E. coli. The DNA fragment carrying fusaric acid-detoxification genes was further shortened by enzyme digestion and the open reading frames in the fragment were analyzed by determining total nucleotide sequences of the fragment. Finally, three open reading frames were shown to be essential for expressing the detoxification of fusaric acid. These frames possessed a single promoter sequence at the upstream region of the first open reading frame. Northern blot analysis showed that these genes were polycistronically transcribed to express the fusaric acid detoxification, strongly supporting th results of DNA sequence analysis.     

Aflatoxigenicity in Aspergillus: molecular genetics, phylogenetic relationships and evolutionary implications

Aflatoxins (AFs) are toxic and carcinogenic secondary metabolites produced by isolates of Aspergillus section Flavi as well as a number of Aspergillus isolates that are classified outside of section Flavi. Characterization of the AF and sterigmatocystin (ST) gene clusters and analysis of factors governing regulation of their biosynthesis has resulted in these two mycotoxins being the most extensively studied of fungal secondary metabolites. This wealth of information has allowed the determination of the molecular basis for non-production of AF in natural isolates of A. flavus and domesticated strains of A. oryzae. This review provides an overview of the molecular analysis of the AF and ST gene clusters as well as new information on an AF gene cluster identified in the non-section Flavi isolate, Aspergillus ochraceoroseus. Additionally, molecular phylogenetic analysis using AF biosynthetic gene sequences as well as ribosomal DNA internal transcribed spacer (ITS) sequences between various section Flavi and non-section Flavi species has enabled determination of the probable evolutionary history of the AF and ST gene clusters. A model for the evolution of the AF and ST gene clusters as well as possible biological roles for AF are discussed.     

Detection and Long-Term Existence of Shiga Toxin (Stx)-Producing Escherichia coli in Sheep

The isolation and characterization of Shiga-like toxin (Stx)-producing Escherichia coli (STEC) from sheep are described. The distribution of stx genes in E. coli isolates was detected by PCR. When brain heart infusion (BHI) broth and novobiocin supplemented m-EC broth (N-mEC) were used as enrichment culture for the isolation of STEC, N-mEC, compared to BHI, showed clearly lower efficiency. Finally, 5 STEC isolates from 4 sheep were isolated and characterized by biochemical and genetical analysis. All of them were confirmed by ELISA and Vero cell cytotoxicity assay for the production of Stx. Moreover, some strains carried hemolysin and eaeA genes and harbored large plasmids. Based on their plasmid profiles, antibiotic patterns and PCR-based DNA fingerprinting analysis using random amplified polymorphic DNA (RAPD), all isolates were different from each other. Three of the isolates were identified to belong to serogroups O2, O153 and O165, respectively, and the STEC strains belonging to these serogroups had been isolated from STEC outbreaks in humans. Four months after the first isolation in July 1997, STEC from sheep #1 was isolated again. A new isolate, HI-11, was identified as STEC O2: Hnt. Simultaneously, 2 STEC, which were genetically and phenotypically different from each other, were isolated from the same sheep at intervals of 4 months. These results demonstrate that sheep may be an important animal for studying human STEC infections, and that further epidemiological surveys on STEC are necessary.     

Molecular characterization of Rhizoctonia solani isolates the incitant of soybean root rot

Rhizoctonia solani isolates used in this investigation were identified as anastomosis-4 (AG-40), collected from different localities from Assiut governorate in Egypt. Pathogenicity test of seven isolates of R. solani was evaluated on soybean Giza 111 cultivar under greenhouse conditions. All tested isolates were able to infect soybean plants causing root rot with different degrees of severities, isolate No. 1, 2 and 3 showed significantly highest root rot severity, while isolate No. 5 gave the lowest percentage of root rot rating. The sodium dodecyl sulphate polyacrylamide gel electrophoresis patterns were used to compare three isolates of R. solani. There are no variations among R. solani isolates except a few exceptions according to their protein patterns. DNA markers obtained from all isolates showed genetic similarity among different isolates obtained from different geographical regions barring few exceptions. Correlation between DNA patterns of R. solani isolates and their virulence was detected, but no correlation with anastomosis groups (AG).     

Identification of a Staphylococcus warneri Species That Converts Oleic Acid to 10-Ketostearic Acid

10-Ketostearic acid was unexpectedly observed during bioconversion of oleic acid to 15-, 16-, and 17-octadecenoic acids by Bacillus pumilus. The unexpected conversion was caused by contaminants which were isolated, characterized, and identified. The three isolates were Gram-positive cocci that grew anaerobically and were sensitive to furazolidone and lysostaphin. These characteristics suggested that the isolates belonged to the genus Staphylococcus. Physiological and biochemical characterization, fatty acid profiling, and DNA reassociation determinations indicated that the isolates were strains of the species Staphylococcus warneri. The organisms were deposited in ARS Culture Collection as NRRL B-14932, NRRL B-14933, and NRRL B-14934.     

EVOLUTION AND MITOCHONDRIAL DNA IN NEUROSPORA CRASSA

We studied mitochondrial DNA variability in 19 natural Neurospora crassa isolates and one wild-type isolate to examine evolution of these fungi and their mitochondrial DNA (mtDNA). We combined restriction endonuclease analysis of natural isolate mtDNA with DNA-DNA hybridization to cloned EcoR I fragments of a wild-type genome to discriminate between length mutations and site changes due to nucleotide substitution. Most variability was due to length mutations (insertions and deletions); genome size could vary 25% between pairs of isolates. Length-mutation distribution was not random, nor simply explained by the presence of coding versus noncoding regions. Restriction-site changes were few; the estimated amount of nucleotide substitution per nucleotide between the most divergent pair of isolates was 0.78%. Evolutionary relationships among isolates based on both types of mutations were compatible, and suggest that geographically distinct populations of mitochondrial DNA exist in the biological species, N. crassa. In contrast, no such correlation was shown by the previously determined distribution of nuclear heterokaryon incompatibility genes in the same isolates (Mylyk, 1975, 1976).     

Isolation and Identification of Ruminal Methanogens from Grazing Cattle

To obtain information on the diversity of ruminal methanogens in grazing animals, three ruminal methanogens from grazing cattle were characterized and identified. Two of the isolates were rod-shaped, with one staining Gram-positive and being non-motile (BRM9), and the other (BRM16) staining Gram-negative and being motile. These isolates grew only on H₂/CO₂ and formate, and optimally at 38°C and pH 6.5–7.0. The third isolate (CM1) was non-motile, pseudosarcina-shaped, and grew on H₂/CO₂, acetate, and methyl-containing compounds, with optimal growth at 40°C and pH 6.5. DNA was prepared from the three isolates, and their 16S rRNA genes were sequenced. Phenotypic data and comparisons of nearly complete 16S rDNA sequences showed that BRM9, BRM16, and CM1 are strains of Methanobacterium formicicum, Methanomicrobium mobile, and Methanosarcina barkeri respectively. To the best of our knowledge, this is the first information on ruminal methanogens in cattle maintained under grazing management. Received: 26 October 1999 / Accepted: 22 November 1999     

Plant Growth Promoting Characterization of Indigenous Azotobacteria Isolated from Soils in Iran

It has been well known that the bacteria of the genus Azotobacter, in addition to the beneficial N₂-fixing activity, are able to improve plant growth by a number of direct and indirect mechanisms. To identify this potential in indigenous azotobacteria, the efficiency of 17 isolates of Azotobacter from the rhizosphere of wheat and barley plants cultivated in salt- and/or drought-affected soils in Iran were evaluated for their ability to dissolve inorganic and organic phosphates, siderophore secretion, indole acetic acid (IAA) production; and protease, chitinase, and ACC deaminase (ACCD) activities. First, they were biochemically characterized and one isolate (strain) was identified by 16S rDNA sequencing. Eight isolates were designated as Azotobacter vinelandii and the remaining isolates were identified as A. chroococcum. All isolates hydrolyzed the organic and inorganic phosphate compounds and effectively produced IAA. Fifteen isolates produced siderophore, but only one isolate showed protease activity which is being reported for the first time in relation to Azotobacter. None of the 17 isolates was capable of producing ACCD or chitinase. However, polymerase chain reaction amplification of the ACCD coding genes, by the use of the gene-specific primers, indicated that not all contain the ACCD gene. The standard screening methods with slight modifications, especially in the case of ACCD assay, were applied. The results showed that the use of specific screening methods, modified according to bacterial nutritional requirements, are the efficient methods for precise evaluation of the plant growth promoting rhizobacteria activity.     

Intraspecies Polymorphism of Cryptosporidium parvum Revealed by PCR-Restriction Fragment Length Polymorphism (RFLP) and RFLP-Single-Strand Conformational Polymorphism Analyses

A glycoprotein (Cpgp40/15)-encoding gene of Cryptosporidium parvum was analyzed to reveal intraspecies polymorphism within C. parvum isolates. Forty-one isolates were collected from different geographical origins (Japan, Italy, and Nepal) and hosts (humans, calves, and a goat). These isolates were characterized by means of DNA sequencing, PCR-restriction fragment length polymorphism (PCR-RFLP), and RFLP-single-strand conformational polymorphism (RFLP-SSCP) analyses of the gene for Cpgp40/15. The sequence analysis indicated that there was DNA polymorphism between genotype I and II, as well as within genotype I, isolates. The DNA and amino acid sequence identities between genotypes I and II differed, depending on the isolates, ranging from 73.3 to 82.9% and 62.4 to 80.1%, respectively. Those among genotype I isolates differed, depending on the isolates, ranging from 69.0 to 85.4% and 54.8 to 79.2%, respectively. Because of the high resolution generated by PCR-RFLP and RFLP-SSCP, the isolates of genotype I could be subtyped as genotypes Ia1, Ia2, Ib, and Ie. The isolates of genotype II could be subtyped as genotypes IIa, IIb, and IIc. The isolates from calves, a goat, and one Japanese human were identified as genotype II. Within genotype II, the isolates from Japan were identified as genotype IIa, those from calves in Italy were identified as genotype IIb, and the goat isolate was identified as genotype IIc. All of the genotype I isolates were from humans. The Japanese isolate (code no. HJ3) and all of the Nepalese isolates were identified as genotypes Ia1 and Ia2, respectively. The Italian isolates were identified as genotype Ib, and the Japanese isolate (code no. HJ2) was identified as genotype Ie. Thus, the PCR-RFLP-SSCP analysis of this glycoprotein Cpgp40/15 gene generated a high resolution that has not been achieved by previous methods of genotypic differentiation of C. parvum.     

Phylogenetic analysis of Methanobrevibacter isolated from feces of humans and other animals

Comparative 16S rRNA gene sequence and genomic DNA reassociation analyses were used to assess the phylogenetic relationships of Methanobrevibacter fecal isolates. The 16S rRNA gene sequences of Methanobrevibacter smithii strain PS and the human fecal isolates B181 and ALI were essentially identical, and their genomic DNA reassociated at values greater than 94%. The analysis of 16S rRNA sequences of the horse, pig, cow, rat, and goose fecal isolates confirm that they are members of the genus Methanobrevibacter. They had a high degree of sequence similarity (97–98%) with the 16S rRNA gene of M. smithii, indicating that they share a common line of descent. The 16S rRNA genes of the horse and pig isolates had 99.3% sequence similarity. Sequence analysis of the 16S rRNA gene of the sheep fecal isolate showed that it formed a separate line of descent in the genus Methanobrevibacter. Genomic DNA reassociation studies indicate that the horse, pig, cow, and goose fecal isolates represent at least three new species. The horse and pig isolates were the only animal isolates that had > 70% genomic DNA reassociation and represent strains of a single species. The cow, goose, and sheep isolates had little or no genomic DNA reassociation with M. smithii or with each other. The relationship of the rat isolate to the other animal isolates was not determined. An evaluation of the relationship of 16S rRNA gene sequence similarity and genomic DNA reassociation of Methanobrevibacter and other methanogenic archaea indicated that genomic DNA reassociation studies are necessary to establish that two methanogenic organisms belong to the same species. Received: 17 November 1997 / Accepted: 16 January 1998     

RAPD Characterization of Fusarium oxysporum Isolates Pathogenic on Argyranthemum frutescens L.

The random amplified polymorphic DNA (RAPD) technique was used to analyse total genomic DNA of 10 isolates of a new Fusarium oxysporum pathogenic on Argyranthemum frutescens (Paris daisy), by comparing them with representatives of the formae speciales basilici, chrysanthemi, cyclaminis, dianthi, gladioli, lilii, lycopersici, melonis, pisi, radicis‐lycopersici, tracheiphilum, and a non‐pathogenic isolate of F. oxysporum. A close genetic relatedness was observed among most of the new isolates from A. frutescens. These isolates also shared RAPD markers with the tested representatives of the forma specialis chrysanthemi. A single isolate among those tested from diseased A. frutescens was placed in a different cluster, which included representative isolates of forma specialis tracheiphilum. All the new isolates from A. frutescens, with the exception of the single divergent one, could be identified by their characteristic amplification profile, using selected random primers. A rapid protocol for DNA extraction directly from fungal colonies grown on Fusarium selective medium allowed the complete analysis in less than 4 h.     

Distribution and Expression of Elicitin‐like Protein Genes of the Biocontrol Agent Pythium oligandrum

Pythium oligandrum has the ability to induce plant defence reactions, and four elicitin‐like proteins (POD‐1, POD‐2, POS‐1 and oligandrin) that are produced by this oomycete have been identified as elicitor proteins. The first three are cell wall protein elicitors (CWPs), and the latter is an extracellular protein. Pythium oligandrum isolates have been previously divided into two groups based on the CWPs: the D‐type isolate containing POD‐1 and POD‐2, and the S‐type isolate containing POS‐1. We identified the genes encoding these elicitin‐like proteins and analyzed the distribution of these genes among 10 P. oligandrum isolates. A genomic fosmid library of the D‐type isolate MMR2 was constructed and genomic regions containing the elicitin‐like protein genes were identified. Southern blot analyses with probes derived from pod‐1 and an oligandrin gene indicated that the 10 P. oligandrum isolates could be divided into the same groups as those based on the CWPs. The D‐type isolates carried pod‐1, pod‐2 and two oligandrin genes, termed oli‐d1 and oli‐d2, while the S‐type isolates carried pos‐1 and one oligandrin gene termed oli‐s1. Phylogenetic analysis of POD‐1, POD‐2, POS‐1, Oli‐D1, Oli‐D2 and Oli‐S1 with the previously defined elicitins and elicitin‐like proteins of Phytophthora and Pythium species showed the specific clade. These genes occurred as single copies and were present in the P. oligandrum genomes but not in the other nine Pythium species (Pythium iwayamai, Pythium volutum, Pythium vanterpoolii, Pythium spinosum, Pythium torulosum, Pythium irregulare, Pythium ultimum, Pythium aphanidermutum and Pythium butleri). Furthermore, RT‐PCR analysis demonstrated that all of these genes were expressed during the colonization of tomato roots by P. oligandrum, supporting the idea that they encode potential elicitor proteins. To investigate the genetic relationships between the D‐type and the S‐type isolates, physical maps of the flanking regions around pod‐1, pod‐2, pos‐1 and the oligandrin genes were constructed. The maps suggest that the D‐type isolates may be derived from the S‐type isolates due to gene duplication and deletion events.     

Discovery of <Emphasis Type="Italic">Ophiostoma tsotsi</Emphasis> on <Emphasis Type="Italic">Eucalyptus</Emphasis> wood chips in China

Ophiostoma species such as O. quercus are the most frequent causal agents of sapstain of freshly felled hardwood timber and pulpwood. Many species are regarded as economically important agents of wood degradation. The aim of this study was to identify a collection of Ophiostoma isolates, resembling O. quercus, found on stained Eucalyptus pulpwood chips in China. DNA sequences of the internal transcribed spacer regions, including the 5.8S region, of the ribosomal DNA, and parts of the β-tubulin and elongation factor-1α genes, revealed that the isolates were not O. quercus. Surprisingly, they represented O. tsotsi, a wound-infesting fungus recently described from hardwoods in Africa. In addition, sequence data from an isolate from agarwood in Vietnam, identified in a previous study as belonging to an unknown Pesotum species, were also shown to represent O. tsotsi. A high level of genetic variability was observed among isolates of both O. quercus and O. tsotsi. This was unexpected and suggests that both species have been present in Asia for a significant amount of time.     

Elucidation of antimicrobial susceptibility profiles and genotyping of <Emphasis Type="Italic">Salmonella enterica</Emphasis> isolates from clinical cases of salmonellosis in New Mexico in 2008

In this study, we investigated the antimicrobial susceptibility profiles and the distribution of some well known genetic determinants of virulence in clinical isolates of Salmonella enterica from New Mexico. The minimum inhibitory concentrations for various antimicrobials were determined by using the E-test strip method according to CLSI guidelines. Virulence genotyping was performed by polymerase chain reaction (PCR) using primers specific for known virulence genes of S. enterica. Of 15 isolates belonging to 11 different serovars analyzed, one isolate of Salmonella Typhimurium was resistant to multiple drugs namely ampicillin, amoxicillin/clavulanic acid, chloramphenicol and tetracycline, that also harbored class 1 intergron, bla _TEM encoding genes for β-lactamase, chloramphenicol acetyl transferase (cat1), plus floR, tet(C) and tet(G). This strain was phage typed as DT104. PCR analysis revealed the presence of invA, hilA, stn, agfA and spvR virulence genes in all the isolates tested. The plasmid-borne pefA gene was absent in 11 isolates, while 5 isolates lacked sopE. One isolate belonging to serogroup E4 (Salmonella Sombre) was devoid of multiple virulence genes pefA, iroB, shdA and sopE. These results demonstrate that clinical Salmonella serotypes from New Mexico used here are predominantly sensitive to multiple antimicrobial agents, but vary in their virulence genotypes. Information on antimicrobial sensitivity and virulence genotypes will help in understanding the evolution and spread of epidemic strains of S. enterica in the region of study.     

Isolation of poly(3-hydroxybutyrate-<Emphasis Type="Italic">co</Emphasis>-4-hydroxybutyrate) producer from Malaysian environment using γ-butyrolactone as carbon source

Samples from various natural environments in Peninsular Malaysia were screened for microorganisms that are capable of producing poly(3-hydroxybutyrate-co-4-hydroxybutyrate). A total of 663 isolates were isolated and 119 out of these isolates were identified as possible PHA producers based on Nile red staining methods. All these potential producers emitted pink fluorescence when grown on solid mineral salts medium (MSM) containing Nile red and exposed to UV light. The isolates obtained in this study were cultivated in MSM containing γ-butyrolactone as the carbon source. Gas chromatography (GC) analysis confirmed that 95 out of the 119 isolates were PHA producers. Among the 95 positive isolates, 77 isolates produced only P(3HB) homopolymer and 18 isolates produced PHA containing 3-hydroxybutyrate (3HB) and 4-hydroxybutyrate (4HB) monomers. Of these 18 isolates, USMAA1020 was screened as the best P(3HB-co-4HB) producer based on GC analysis. For further confirmation, PHA was extracted from the isolate and analyzed by GC as well as nuclear magnetic resonance (NMR). Results from both analyses confirmed that this isolate was capable of producing PHA containing 3HB and 4HB. Based on, biochemical characterization, 16S rRNA sequencing, DNA base composition, cellular fatty acids analysis and DNA–DNA hybridization, it is clearly indicated that this isolate belongs to the genus Cupriavidus. Poly(3HB-co-4HB) was synthesized by this bacterium in one-stage, two-stage and three-stage cultivation using γ-butyrolactone as the carbon source. The highest 4HB composition of 82 mol% was obtained through three-stage cultivation.     

Genomic Characterization of Burkholderia pseudomallei Isolates Selected for Medical Countermeasures Testing: Comparative Genomics Associated with Differential Virulence

Burkholderia pseudomallei is the causative agent of melioidosis and a potential bioterrorism agent. In the development of medical countermeasures against B. pseudomallei infection, the US Food and Drug Administration (FDA) animal Rule recommends using well-characterized strains in animal challenge studies. In this study, whole genome sequence data were generated for 6 B. pseudomallei isolates previously identified as candidates for animal challenge studies; an additional 5 isolates were sequenced that were associated with human inhalational melioidosis. A core genome single nucleotide polymorphism (SNP) phylogeny inferred from a concatenated SNP alignment from the 11 isolates sequenced in this study and a diverse global collection of isolates demonstrated the diversity of the proposed Animal Rule isolates. To understand the genomic composition of each isolate, a large-scale blast score ratio (LS-BSR) analysis was performed on the entire pan-genome; this demonstrated the variable composition of genes across the panel and also helped to identify genes unique to individual isolates. In addition, a set of ~550 genes associated with pathogenesis in B. pseudomallei were screened against the 11 sequenced genomes with LS-BSR. Differential gene distribution for 54 virulence-associated genes was observed between genomes and three of these genes were correlated with differential virulence observed in animal challenge studies using BALB/c mice. Differentially conserved genes and SNPs associated with disease severity were identified and could be the basis for future studies investigating the pathogenesis of B. pseudomallei. Overall, the genetic characterization of the 11 proposed Animal Rule isolates provides context for future studies involving B. pseudomallei pathogenesis, differential virulence, and efficacy to therapeutics.