Morphological and molecular characterisation and differentiation of <Emphasis Type="Italic">Sargassum baccularia</Emphasis> and <Emphasis Type="Italic">S. polycystum</Emphasis> (Phaeophyta)

Two Sargassum species (S. baccularia and S. polycystum) collected from Teluk Kemang and Cape Rachado, Port Dickson, Negeri Sembilan, Malaysia, which are alike in morphology except for the rhizoidal system and vesicles, were characterised using random amplified polymorphism DNA (RAPD). The genomic DNA of both species was isolated from the leaves using a modified CTAB method. Four random primers, that is, OPA2, OPA3, OPA4 and OPA13, successfully amplified the DNA. The polymorphisms generated by these four primers were analysed using the Dice Coefficient of Similarity and cluster analysis was carried out using GelCompar II Version 2.0 (Applied Maths, Kortrijk, Belgium) based on UPGMA. DNA analysis showed that three primers were able to differentiate the two species. Morphological analysis using Principal Components Analysis (PCA) and discriminant function analysis supported the molecular data. Both species are characterised by heavily muricate main branches, oblong-lanceolate leaves with dentate margins and discoid holdfasts and spherical vesicles; both are dioecious. The only difference is that S. polycystum has secondary holdfasts transformed into stolons. This last characteristic is therefore a very important criterion and may contribute to the difference shown by DNA analysis.     

Utilization of a polyphasic approach in the taxonomic reassessment of antibiotic- and enzyme-producing <Emphasis Type="Italic">Bacillus</Emphasis> spp. isolated from the Philippines

Summary The taxonomy of 58 locally isolated antibiotic- and enzyme-producing Bacillus isolates deposited at the Philippine National Collection of Microorganisms (PNCM)-BIOTECH was reassessed in this study using a polyphasic approach since they had been only partially identified prior to deposition in the culture collection. The isolates had 41.1–69% G + C, and possessed the characteristic diaminopimelic acid (DAP) and fatty acid methyl ester (FAMEs) properties of Bacillus species. Molecular analysis using specific PCR primers differentiated the isolates into two major groups, the Bacillus cereus group and the Bacillus subtilis group. To further differentiate these isolates, they were subjected to 39 phenotypic tests. Using the dichotomous key constructed for Bacillus, 45 isolates maintained their original identities, five were named at the species level, and 12 were re-identified and renamed. These results showed that the classical phenotypic tests allowed the reclassification of the isolates, while modern techniques of chemotaxonomy and the molecular approach led only to genus and cluster classification and confirmation.     

Detection of Hyperthermophilic Archaea of the Genus Desulfurococcus by Hybridization with Oligonucleotide Probes

Based on the analysis of nucleotide sequences of 16S rRNA, oligonucleotide probes were designed for the detection and identification of representatives of the genus Desulfurococcus (kingdom Crenarchaeota of the domain Archaea). The detection procedure included obtaining PCR products on DNA isolated from pure cultures, enrichments, or natural samples with a designed Crenarchaeota-specific primer pair: Cren 7F (5"-TTCCGGTTGATCCYGCCGGACC-3") and Cren 518R (5"-GCTGGTWTTACCGCGGCGGCTGA-3"). The PCR products were hybridized with Dig-11-dUTP–labeled oligonucleotide probes targeting the genus Desulfurococcus (Dco 198, 5"-CGTTAACYCCYGCCACACC-3") and its species D. mobilis (Dco_mob 198, 5"-CGTTAACCCCTGCCACACC-3") and D. amylolyticus (Dco_amy 198, 5"-CGTTAACCCCCGCCACACC-3"). With the use of these primers and probes, four new strains isolated from hydrotherms of Kamchatka and Kunashir Island were identified as members of the speciesDesulfurococcus amylolyticus. Desulfurococcus representatives were detected in several natural samples, including a sample taken from a marine hydrotherm at Kunashir Island; this demonstrates that representatives of this genus occur not only in terrestrial but also in marine environments.     

Registration of S alleles in Brassica campestris L by the restriction fragment sizes of SLGs

Polymorphism of SLG (the S-locus glycoprotein gene) in Brassica campestris was analyzed by PCR-RFLP using SLG-specific primers. Nucleotide sequences of PCR products from 15 S genotypes were determined in order to characterise the exact DNA fragment sizes detected in the PCR-RFLP analysis. Forty-seven lines homozygous for 27 S-alleles were used as plant material. One combination of primers, PS5 + PS 15, which had a nucleotide sequence specific to a class-I SLG, gave amplification of a single DNA fragment of approximately 1.3kb from the genomic DNA of 15 S genotypes. All the DNA fragments showed different electrophroetic profiles from each other after digestion with MboI or MspI. Different lines having the same S genotype had an identical electrophoretic profile even between the lines collected in Turkey and in Japan. Another class-I SLG-specific primer, PS 18, gave amplification of a 1.3-kb DNA fragment from three other S genotypes in combination with PS 15, and the PCR product also showed polymorphism after cleavage with the restriction endonucleases. Genetic analysis, Southern-hybridization analysis, and determination of the nucleotide sequences of the PCR products suggested that the DNA fragments amplified with these combinations of primers are class-I SLGs. Expected DNA fragment sizes in the present PCR-RFLP condition were calculated from the determined nucleotide sequence of SLG PCR products. A single DNA fragment was also amplified from six S genotypes by PCR with a combination of primers, PS3 + PS21, having a nucleotide sequence specific to a class-II SLG. The amplified DNA showed polymorphisnm after cleavage with restriction endonucleases. The cleaved fragments were detected by Southern-hybridization analysis using a probe of S ⁵ SLG cDNA, a class-IISLG. Partial sequencing revealed a marked similarity of these amplified DNA fragments to a class-II SLG, demonstrating the presence of class-I and class-II S alleles also in B. campestris. The high SLG polymorphism detected by the present investigation suggests the usefulness of the PCR-RFLP method for the identification of S alleles in breeding lines and for listing S alleles in B. campestris.     

Development and Application of Random DIG-Labelled Probes Based on Total Genomic Lactobacillus DNA

Summary Nine Lactobacillus-specific and non-isotopically (digoxygenin) labelled probes were developed on the basis of Lactobacillus total chromosomal DNA. Their specificity and applicability for Lactobacillus discrimination was proven by DNA–DNA hybridization to reference strains from the American Type Culture Collection (ATCC). The DNA probes were divided into three groups depending on the ability to hybridize to DNA from the same and/or from a group of related Lactobacillus strains. They were assayed in the species-specific detection of vaginal strains from the genus Lactobacillus. Six DNA probes were successfully applied for characterization of 21 newly isolated vaginal Lactobacilli. The species affliation of some isolates was determined. The developed DNA probes were evaluated for usage as a qualitative hybridization test for detection of Lactobacillus species in mixed cultures, obtained directly from vaginal samples without strain isolation.     

Characterization of a mercury-reducing Bacillus cereus strain isolated from the Pulicat Lake sediments, south east coast of India

Pulicat Lake sediments are often severely polluted with the toxic heavy metal mercury. Several mercury-resistant strains of Bacillus species were isolated from the sediments and all the isolates exhibited broad spectrum resistance (resistance to both organic and inorganic mercuric compounds). Plasmid curing assay showed that all the isolated Bacillus strains carry chromosomally borne mercury resistance. Polymerase chain reaction and southern hybridization analyses using merA and merB3 gene primers/probes showed that five of the isolated Bacillus strains carry sequences similar to known merA and merB3 genes. Results of multiple sequence alignment revealed 99% similarity with merA and merB3 of TnMERI1 (class II transposons). Other mercury resistant Bacillus species lacking homology to these genes were not able to volatilize mercuric chloride, indicating the presence of other modes of resistance to mercuric compounds.     

Endophytic Pseudomonasspp. populations of pathogen-infected potato plants analysed by 16S rDNA- and 16S rRNA-based denaturating gradient gel electrophoresis

The diversity of abundant and metabolically active pseudomonads in potato plants was analysed using a culture-independent approach. The effect of two plant varieties, Agria and Bionta, as well as the presence of a plant pathogen Erwinia carotovora ssp. atroseptica on this bacterial group was tested. A combination of Pseudomonas-specific PCR, DGGE analysis, cloning and sequencing of partial 16S rDNA genes was performed using DNA and RNA extracted from potato stem tissue. Sequence analysis revealed a high species diversity, with the most prominent ones being Pseudomonas stutzeri and Pseudomonas gingeri. Some species showed high rRNA contents indicating high metabolic activity. Both, highly abundant and metabolically active Pseudomonaspopulations were more affected by the plant genotype than by the presence of E. carotovora.     

Biodegradation of Crude Oil by Thermophilic Bacteria Isolated from a Volcano Island

One-hundred and fifty different thermophilic bacteria isolated from a volcanic island were screened for detection of an alkane hydroxylase gene using degenerated primers developed to amplify genes related to the Pseudomonas putida and Pseudomonas oleovorans alkane hydroxylases. Ten isolates carrying the alkJ gene were further characterized by 16s rDNA gene sequencing. Nine out of ten isolates were phylogenetically affiliated with Geobacillus species and one isolate with Bacillus species. These isolates were able to grow in liquid cultures with crude oil as the sole carbon source and were found to degrade long chain crude oil alkanes in a range between 46.64% and 87.68%. Results indicated that indigenous thermophilic hydrocarbon degraders of Bacillus and Geobacillus species are of special significance as they could be efficiently used for bioremediation of oil-polluted soil and composting processes.     

Peptide diversity in strains of the cyanobacterium <Emphasis Type="Italic">Microcystis aeruginosa</Emphasis> isolated from Portuguese water supplies

Strains of the cyanobacterium Microcystis aeruginosa were isolated into pure culture from a variety of lakes, rivers, and reservoirs in Portugal. Samples were tested with matrix-assisted laser desorption/ionization–time-of-flight mass spectrometry (MALDI-TOF MS) to investigate the presence of various peptide groups including aeruginosins, microginins, anabaenopeptins, cyanopeptilins, microcystins, and microviridins and other peptide-like compounds. Binary data, based on the presence and absence of different peptide groups, were analyzed by phylogenetic inference. DNA was also extracted from the samples and tested using a range of primers. Those strains that gave positive results for a Microcystis-specific primer pair were further analyzed for the presence of genes linked to the biosynthesis of microginin and microcystin. The results showed that a wide range of microcystin forms were produced by the strains among which MC-LR, -FR, -RR, -WR, and -YR were the most common. The peptide profiles obtained from the MALDI analysis were assessed using cluster analysis which resulted in the formation of distinct groups or chemotypes.     

Rapid identification of bacterial pathogens using a PCR- and microarray-based assay

Background  

During the course of a bacterial infection, the rapid identification of the causative agent(s) is necessary for the determination of effective treatment options. We have developed a method based on a modified broad-range PCR and an oligonucleotide microarray for the simultaneous detection and identification of 12 bacterial pathogens at the species level. The broad-range PCR primer mixture was designed using conserved regions of the bacterial topoisomerase genes gyrB and parE. The primer design allowed the use of a novel DNA amplification method, which produced labeled, single-stranded DNA suitable for microarray hybridization. The probes on the microarray were designed from the alignments of species- or genus-specific variable regions of the gyrB and parE genes flanked by the primers. We included mecA-specific primers and probes in the same assay to indicate the presence of methicillin resistance in the bacterial species. The feasibility of this assay in routine diagnostic testing was evaluated using 146 blood culture positive and 40 blood culture negative samples.     

A PCR-based method for the screening of bacterial strains with antifungal activity in suppressive soybean rhizosphere

Selection and evaluation of microbial strains for their antifungal activity in natural environments is time- and energy-consuming. We have adapted a PCR-based method to avoid these inconveniences. Soils that are naturally suppressive to plant disease were chosen as a source of antibiotic-producing bacteria. The screening was performed by means of PCR amplification using degenerate primers corresponding to peptide synthetase genes. Amplification fragments were obtained using template DNA from the rhizosphere of three different soybean fields. In order to assay their potential utility in pathogen control, several Bacillus strains were analysed for their in vitro antifungal activity by testing growth inhibition of Sclerotinia sclerotiorum. Four Bacillus sp. isolates gave a positive amplification signal, and three of them had an inhibitory effect on S. sclerotiorum growth, whereas two strains that failed to give an amplification signal did not inhibit fungal growth. These results show that PCR-based techniques could be useful to assess the presence of strains with potential use as biocontrol agents.     

Fern-associated arbuscular mycorrhizal fungi are represented by multiple Glomus spp.: do environmental factors influence partner identity?

Symbioses involving arbuscular mycorrhizal fungi (AMF) are among the most important ecological associations for many plant species. The diversity of AMF associated with ferns, however, remains poorly studied. Using recently designed Glomus-specific primers, we surveyed the AMF community associated with ferns from deciduous, broad-leaved second-growth forest habitats at the eastern edge of the piedmont region of central Virginia, USA. Results indicate that this molecular approach may be a useful tool for detecting AMF in ferns compared to traditional techniques based on morphology. Over 30 potential fungal ribotypes were identified from eight fern species using denaturing gradient gel electrophoresis. Fungal ribotypes were found to differ widely in terms of (1) the number of fern partners with which they interact and (2) their relative frequency within each fern. Sequence analysis of fungal isolates from three species of fern indicated that the primers were generally highly specific for Glomus species but some non-target DNA was also amplified. Cloned polymerase chain reaction (PCR) products from Polystichum acrostichoides and Osmunda regalis revealed several phylogenetically distinct Glomus species. A single Glomus species was identified in the cloned PCR products from Botrychium virginianum. These findings challenge the hypothesis that the extent or degree of fern–fungal symbiosis is somehow tied to root complexity. Environmental factors appear to influence the suite of AMF that form partnerships with ferns. Some species of fern from similar habitats associated with dissimilar fungal partners (e.g., P. acrostichoides and Athyrium filix-femina var. asplenioides), whereas others harbored uniform fungal communities (e.g., Asplenium platyneuron). The significance of these data in terms of ecological and evolutionary dynamics of the AMF–fern symbiosis is discussed. Brittany West, Jessica Brandt, and Kay Holstien contributed equally to this work.     

High mitochondrial diversity in geographically widespread butterflies of Madagascar: A test of the DNA barcoding approach

The standardized use of mitochondrial cytochrome c oxidase subunit I (COI) gene sequences as DNA barcodes has been widely promoted as a high-throughput method for species identification and discovery. Species delimitation has been based on the following criteria: (1) monophyletic association and less frequently (2) a minimum 10× greater divergence between than within species. Divergence estimates, however, can be inflated if sister species pairs are not included and the geographic extent of variation within any given taxon is not sampled comprehensively. This paper addresses both potential biases in DNA divergence estimation by sampling range-wide variation in several morphologically distinct, endemic butterfly species in the genus Heteropsis, some of which are sister taxa. We also explored the extent to which mitochondrial DNA from the barcode region can be used to assess the effects of historical rainforest fragmentation by comparing genetic variation across Heteropsis populations with an unrelated forest-associated taxon Saribia tepahi. Unexpectedly, generalized primers led to the inadvertent amplification of the endosymbiont Wolbachia, undermining the use of universal primers and necessitating the design of genus-specific COI primers alongside a Wolbachia-specific PCR assay. Regardless of the high intra-specific genetic variation observed, most species satisfy DNA barcoding criteria and can be differentiated in the nuclear phylogeny. Nevertheless, two morphologically distinguishable candidate species fail to satisfy the barcoding 10× genetic distance criterion, underlining the difficulties of applying a standard distance threshold to species delimitation. Phylogeographic analysis of COI data suggests that forest fragmentation may have played an important role in the recent evolutionary diversification of these butterflies. Further work on other Malagasy taxa using both mitochondrial and nuclear data will provide better insight into the role of historical habitat fragmentation in species diversification and may potentially contribute to the identification of priority areas for conservation.     

Cytogenetic analysis of metaphase chromosomes from pupal testes of four mosquito species using fluorescence <Emphasis Type="Italic">in situ</Emphasis> hybridization technique (FISH)

The DNA probes, P1887, P2405, P2056 (being specific tags for Aedes aegypti genes coding for ribosomal RNA) and a centric heterochromatin probe, K20-1A5, were chosen to hybridize the metaphase chromosomes from the testes of four mosquito species, Culex pipiens, Aedes aegypti, Aedes albopictus and Aedes triseriatus. In addition, a single plasmid, P2392, which contained the three probes, P1887, P2405 and P2056, was also used as chromosome landmark in aedine species. Only the Aedes aegypti metaphase chromosome 1-specific tag, P1887, was conserved in Aedes albopictus, Aedes triseriatus, and Culex pipiens metaphase chromosomes. Aedes triseriatus exhibited two gene loci, on chromosomes 1 and 3, coding for ribosomal RNA per haploid genome. When the specific probes for chromosomes 2 and 3, 2405 and 2056, were used in the fluorescence in situ hybridization technique against the metaphase chromosomes the fluorescent signals were not seen in Aedes albopictus, Aedes triseriatus or Culex pipiens. Also the centric heterochromatin probe, K20-1A5, exhibited strong fluorescent signals on chromosomes 1, 2 and 3 of Aedes aegypti. These fluorescent signals were not observed in metaphase chromosomes derived from the other aedine species, indicating that the centromere sequence can vary within the species.This paper was presented at the Second Arab Conference on Biotechnology and Genetic Engineering, held in the Kingdom of Bahrain, 15–17 April, 2002 and is published here with the endorsement of the Co-ordinator of the Scientific Committee, Professor Essam H. Ghanem, University of Bahrain. Its publication has been delayed because of the ill health of the senior author. Other papers from this conference were published in the July 2003 issue (vol. 19, no. 5).     

Analysis of genome-specific sequences inPhleum species: Identification and use for study of genomic relationships

Sau3AI shot gun cloning and colony hybridization with total genomic probes were used to isolate genome-specific sequences inPhleum species. The total DNA isolated from diploid speciesP. alpinum andP. bertolonii was partially digested withSau3AI and cloned using pUC19 as a vector to anE. coli strain DH5mcr. A partial genomic DNA library consisting of 3030 colonies for the genome ofP. alpinum and one consisting of 3240 colonies for the genome ofP. bertolonii were constructed. Twelve hundred and thirty colonies from the DNA library ofP. alpinum and 1320 from that ofP. bertolonii were respectively blotted to membrane filters and hybridized to the total genomic probes from these two species. Eight clones specific toP. alpinum and 13 specific toP. bertolonii were isolated through colony hybridization and further dot-blot hybridization. Most of these clones may carry highly or moderately repetitive sequences. Three sequences specific toP. alpinum and 3 specific toP. bertolonii were used as probes to hybridize theEcoRI-digested DNA samples from four species,P. alpinum,P. bertolonii,P. pratense andP. montanum, on Southern blot. The results from these hybridization experiments showed that all 3P. bertolonii-specific probes and 2 of the 3P. alpinum-specific probes hybridized to the DNA ofP. pratense, thus confirming the conclusion of the close relationships between the cultivated timothy and its two wild relatives that was drawn in our previous study using the C-banding technique.     

Stability of RAPD fingerprints in potato: Effect of source tissue and primers

Variations in random amplified polymorphic DNA (RAPD) profiles from leaf, stem, root, and tuber tissues were observed in case of two glasshouse grown potato cultivars using 40 decamer primers suggesting possible danger of cultivar misidentification. Genomic DNA extracted from the above four tissues of four in vitro grown potato cultivars, however, produced more uniform RAPD fingerprints. A significant effect of random primers on fingerprint uniformity was observed in case of both glasshouse and in vitro grown samples. A new concept of stability index for random primers based on homogeneity of RAPD profiles obtained from different tissues of a single plant have been introduced. It is concluded that RAPD analysis of genomic DNA extracted from any tissue of in vitro grown potato plants using 14 selected decamer primers could be used to develop RAPD fingerprints for identification of Indian potato cultivars.     

A DNA hybridization assay to identify toxic dinoflagellates in coastal waters: detection of Karenia brevis in the Rookery Bay National Estuarine Research Reserve

A DNA hybridization assay was developed in microtiter plate format to detect the presence of toxic dinoflagellates in coastal waters. Simultaneous detection of multiple species was demonstrated using Karenia brevis, Karenia mikimotoi, and Amphidinium carterae. Molecular probes were designed to detect both K. brevis and K. mikimotoi and to distinguish between these two closely related species. The assay was used to detect K. brevis in coastal waters collected from the Rookery Bay National Estuarine Research Reserve. Assay results were verified by species-specific PCR and sequence analysis. The presence/absence of K. brevis was consistent with microscopic observation. Assay sensitivity was sufficient to detect K. brevis in amounts defined by a regional monitoring program as “present” (≤1000 cells/L). The assay yielded quick colorimetric results, used a single hybridization temperature, and conserved the amount of genomic DNA utilized by employing one set of PCR primers. The microplate assay provides a useful tool to quickly screen large sample sets for multiple target organisms.     

Isolation and characterization of polyphenol oxidase- and peroxidase-producing <Emphasis Type="Italic">Bacillus</Emphasis> strains from fully fermented tea (<Emphasis Type="Italic">Camellia sinensis</Emphasis>)

Sixteen aerobic endospore-forming Bacillus spp. were isolated from fully fermented tea leaf samples from 10 tea factories in Lahijan and Langrod cities (Gillan province, Iran). Bacillus spp. isolates were characterized using phenotypic characteristics, antibiotic susceptibility and cellular fatty acid (CFA) patterns. Based on the data obtained, five isolates of tea Bacillus spp. (TB): TB2, TB4, TB6, TB10 and TB12 belonged to the species B. subtilis. Two isolates, TB1 and TB14 were recognized as B. licheniformis. Two Bacillus spp. isolates, TB9 and TB 16 were identified as B. sphaericus. Two isolates, TB5 and TB13 were shown to be B. pumilus. Two isolates, TB7 and TB15 belonged to B. cereus. Amongst the isolates, Bacillus sp. TB3, Bacillus sp. TB8 and Bacillus sp. TB11 showed different phenotypic traits, distinct antibiotic sensitivity and fatty acid profiles, and they may represent novel species. The isolates showed polyphenol oxidase (tyrosinase) and peroxidase activities. The highest polyphenol oxidase and peroxidase activities were observed for Bacillus sp. TB3 and B. licheniformis TB14, respectively, where values of 5.48 and 3.73 units mL⁻¹ were observed.     

Repetitive, genome-specific probes in wheat (Triticum aestivum L. em Thell) amplified with minisatellite core sequences

The detection and analysis of DNA polymorphisms in crops is an essential component of marker-assisted selection and cultivar identification in plant breeding. We have explored the direct amplification of minisatellite DNA by PCR (DAMD-PCR) as a means for generating DNA probes that are useful for detecting DNA polymorphisms and DNA fingerprinting in wheat. This technique was facilitated by high-stringency PCR with known plant and animal minisatellite core sequences as primers on wheat genomic DNA. The products of DAMD-PCR from Triticum aestivum, T. durum, T. monococcum, T. speltoides and T. tauschii showed a high degree of polymorphism and the various genomes could be identified. Cloning of the DAMD-PCR products and subsequent Southern hybridization frequently revealed polymorphic probes showing a good degree of genome specificity. In addition, polymorphic, single locus, and moderately dispersed PCR products were cloned that may have a potential for DNA fingerprinting. Our experiments were limited primarily to diploid wheats and the results indicated that DAMD-PCR may isolate genome-specific probes from wild diploid wheat species that could be used to monitor genome introgression into hexaploid wheat.This paper reports the results of research only. Mention of a proprietary product does not constitute an endorsement or a recommendation for its use by the USDA or the University of Missouri. Contribution from the University of Missouri, the Agricultural Experimental Station and U.S. Department of Agriculture-Agricultural Research Service, Plant Genetics Research Unit, journal series No. 12523