Response of Bdellovibrio and Like Organisms (BALOs) to the Migration of Naturally Occurring Bacteria to Chemoattractants

A dual culture-based and non–culture-based approach was applied to characterize predator bacterial groups in surface water samples collected from Apalachicola Bay, Florida. Chemotaxis drop assays were performed on concentrated samples in an effort to isolate predator bacteria by their chemotactic ability. Yeast extract (YE) and casamino acids (CA) proved to be strong chemoattractants and resulted in three visibly distinct bands; however, dextrose, succinate, pyruvate, and concentrated cells of Vibrio parahaemolyticus P5 as prey did not elicit any response. The three distinct bands from YE and CA were separately collected to identify the chemotactic microbial assemblages. Plaque-forming unit assays from different chemotaxis bands with P5 as prey indicated 5- (CA) to 10-fold (YE) higher numbers of predator bacteria in the outermost chemotactic bands. Polymerase chain reaction–restriction fragment length polymorphism and 16S rDNA sequencing of clones from different chemotaxis bands resulted in identification of Pseudoalteromonas spp., Marinomonas spp., and Vibrio spp., with their numbers inversely proportional to the numbers of predators—i.e., Bdellovibrio spp. and Bacteriovorax spp—in the chemotaxis bands. This study indicates that predatorial bacteria potentially respond to high densities of microbial biomass in aquatic ecosystems and that chemotaxis drop assay may be an alternate culture-independent method to characterize predatorial bacterial guilds from the environment.     

Single-strand conformational polymorphism analysis of the ribosomal internal transcribed spacer 1 for rapid species identification within the genus Pythium

Single-strand conformational polymorphism (SSCP) of the ribosomal internal transcribed spacer 1 (ITS-1) was characterized for 58 isolates of Pythium, representing 41 species from the five groups of Plaats-Niterink. Thirty-one species each produced a distinct SSCP pattern. Three species produced more than one unique pattern, corresponding to morphological subgrouping. The remaining seven species produced three distinct patterns with two or three morphologically similar species sharing a pattern. A successful blind test with four samples and the identification of eight previously unknown isolates from irrigation water demonstrated the reliability of this technique for species identification. Each SSCP pattern was defined and described by the positions of the top and bottom bands and the number of bands in between, which allows laboratories to use this technique without need to access the type isolates of Pythium species.     

Molecular identification of the edible ectomycorrhizal fungus Lactarius deliciosus in the symbiotic and extraradical mycelium stages

Specific rDNA ITS amplifications, microsatellite-primed PCR and ITS-SSCP analysis were applied to identify and characterize pre-selected isolates of the edible ectomycorrhizal fungus Lactarius deliciosus in different stages of the life cycle. Sampling was performed from pure cultures, mycorrhizas and soil from experimental plots established with nursery-inoculated pine seedlings. A newly-designed reverse primer (LDITS2R) combined with the universal forward ITS1 allowed to perform specific amplifications of L. deliciosus from all the samples. Microsatellite-primed PCR using the (GTG)5 oligonucleotide as a primer showed clear polymorphisms among the different L. deliciosus isolates. The patterns of mycorrhiza samples showed additional bands corresponding to the plant DNA. Single strand conformation polymorphism (SSCP) analysis of the specific rDNA ITS fragment amplified from 18 L. deliciosus isolates showed nine clearly different patterns. Mycorrhiza and soil samples showed coincident patterns with their respective fungal isolates. Specific rDNA ITS amplifications had not been previously used for SSCP analysis of ectomycorrhizas and extraradical mycelium. This relatively simple and inexpensive technique allows tracking L. deliciosus isolates in different stages of the fungus development. Specific ITS-SSCP analysis is promising in studies of the persistence of inoculated L. deliciosus isolates and their competitiveness with native ectomycorrhizal fungi, especially at the extraradical mycelium stage.     

Identification of a Thiomicrospira denitrificans-Like Epsilonproteobacterium as a Catalyst for Autotrophic Denitrification in the Central Baltic Sea

Identification and functional analysis of key members of bacterial communities in marine and estuarine environments are major challenges for obtaining a mechanistic understanding of biogeochemical processes. In the Baltic Sea basins, as in many other marine environments with anoxic bodies of water, the oxic-anoxic interface is considered a layer of high bacterial turnover of sulfur, nitrogen, and carbon compounds that has a great impact on matter balances in the whole ecosystem. We focused on autotrophic denitrification by oxidation of reduced sulfur compounds as a biogeochemically important process mediating concomitant turnover of sulfur, nitrogen, and carbon. We used a newly developed approach consisting of molecular analyses in stimulation experiments and in situ abundance. The molecular approach was based on single-strand conformational polymorphism (SSCP) analysis of the bacterial community RNA, which allowed identification of potential denitrifiers based on the sequences of enhanced SSCP bands and monitoring of the overall bacterial community during the experiments. Sequences of the SSCP bands of interest were used to design highly specific primers that enabled (i) generation of almost complete 16S rRNA gene sequences using experimental and environmental DNA as templates and (ii) quantification of the bacteria of interest by real-time PCR. By using this approach we identified the bacteria responsible for autotrophic denitrification as a single taxon, an epsilonproteobacterium related to the autotrophic denitrifier Thiomicrospira denitrificans. This finding was confirmed by material balances in the experiments that were consistent with those obtained with continuous cultures of T. denitrificans. The presence and activity of a bacterium that is phylogenetically and physiologically closely related to T. denitrificans could be relevant for the carbon budget of the central Baltic Sea because T. denitrificans exhibits only one-half the efficiency for carbon dioxide fixation per mol of sulfide oxidized and mol of nitrate reduced of Thiobacillus denitrificans hypothesized previously for this function.     

Identification of a Thiomicrospira denitrificans-like epsilonproteobacterium as a catalyst for autotrophic denitrification in the central Baltic Sea

Identification and functional analysis of key members of bacterial communities in marine and estuarine environments are major challenges for obtaining a mechanistic understanding of biogeochemical processes. In the Baltic Sea basins, as in many other marine environments with anoxic bodies of water, the oxic-anoxic interface is considered a layer of high bacterial turnover of sulfur, nitrogen, and carbon compounds that has a great impact on matter balances in the whole ecosystem. We focused on autotrophic denitrification by oxidation of reduced sulfur compounds as a biogeochemically important process mediating concomitant turnover of sulfur, nitrogen, and carbon. We used a newly developed approach consisting of molecular analyses in stimulation experiments and in situ abundance. The molecular approach was based on single-strand conformational polymorphism (SSCP) analysis of the bacterial community RNA, which allowed identification of potential denitrifiers based on the sequences of enhanced SSCP bands and monitoring of the overall bacterial community during the experiments. Sequences of the SSCP bands of interest were used to design highly specific primers that enabled (i) generation of almost complete 16S rRNA gene sequences using experimental and environmental DNA as templates and (ii) quantification of the bacteria of interest by real-time PCR. By using this approach we identified the bacteria responsible for autotrophic denitrification as a single taxon, an epsilonproteobacterium related to the autotrophic denitrifier Thiomicrospira denitrificans. This finding was confirmed by material balances in the experiments that were consistent with those obtained with continuous cultures of T. denitrificans. The presence and activity of a bacterium that is phylogenetically and physiologically closely related to T. denitrificans could be relevant for the carbon budget of the central Baltic Sea because T. denitrificans exhibits only one-half the efficiency for carbon dioxide fixation per mol of sulfide oxidized and mol of nitrate reduced of Thiobacillus denitrificans hypothesized previously for this function.     

A New Approach To Utilize PCR–Single-Strand-Conformation Polymorphism for 16S rRNA Gene-Based Microbial Community Analysis

Single-strand-conformation polymorphism (SSCP) of DNA, a method widely used in mutation analysis, was adapted to the analysis and differentiation of cultivated pure-culture soil microorganisms and noncultivated rhizosphere microbial communities. A fragment (approximately 400 bp) of the bacterial 16S rRNA gene (V-4 and V-5 regions) was amplified by PCR with universal primers, with one primer phosphorylated at the 5′ end. The phosphorylated strands of the PCR products were selectively digested with lambda exonuclease, and the remaining strands were separated by electrophoresis with an MDE polyacrylamide gel, a matrix specifically optimized for SSCP purposes. By this means, reannealing and heteroduplex formation of DNA strands during electrophoresis could be excluded, and the number of bands per organism was reduced. PCR products from 10 of 11 different bacterial type strains tested could be differentiated from each other. With template mixtures consisting of pure-culture DNAs from 5 and 10 bacterial strains, most of the single strains could be detected from such model communities after PCR and SSCP analyses. Purified bands amplified from pure cultures and model communities extracted from gels could be reamplified by PCR, but by this process, additional products were also generated, as detected by further SSCP analysis. Profiles generated with DNAs of rhizosphere bacterial communities, directly extracted from two different plant species grown in the same field site, could be clearly distinguished. This study demonstrates the potential of the selected PCR–single-stranded DNA approach for microbial community analysis.     

Analysis of the Fungal Flora in Environmental Dust Samples by PCR–SSCP Method

Conventional microbiological techniques yield only limited information on the composition of fungal communities in dust. The aim of this study was to establish and optimize PCR-single strand conformation polymorphism (PCR–SSCP) analysis for investigation of fungal diversity in rural dust samples. Three different DNA extraction protocols were tested on 38 fungal cultures. A total of six known universal fungal primer pairs were tested targeting the 18S rRNA gene, the 28S rRNA gene and the ITS region, respectively. Objective evaluation was performed with respect to the following parameters: efficiency to amplify all 38 strains; separation of seven species from different phylogenetic groups on the SSCP gel; additional bands in PCR–SSCP analysis; possibility to classify the amplified gene fragments to species level. Primer ITS1/ITS4 and PowerSoil? DNA isolation showed the best performance in most cases and were chosen for further analysis. The detection limit of the developed system was 200 CFU/g dust. Moreover, the reproducibility of the system could be demonstrated, leading to average profile similarities of 94.94 % [SD = 2.51] within gels, 93.03 % [SD = 4.69] between different days and 87.66 % [SD = 6.62] between different gels when testing shed and mattress dust samples. Sequencing allowed identification on species level, in detail: Alternaria alternata, Cladosporium sphaerospermum, Cladosporium cladosporioides as well as the yeasts Candida cabralensis and Candida catenulata. This demonstrates the adaptability of the method. In this study, a standardized system for fungal community analysis was developed that provides reproducible results applicable for epidemiological purposes.     

Monitoring of HAB species in the Mediterranean Sea through molecular methods

A qualitative and semi-quantitative polymerase chain reaction(PCR)-based assay was developed for the detection of severalpotentially Harmful Algal Bloom (HAB) species and genera belongingto Dinophyceae, Bacillariophyceae and Raphydophyceae. Oligonucleotideprimers were designed based on Internal Transcribed Spacer (ITS)–5.8Sribosomal DNA (rDNA) sequences available in public databaseor identified in this study. The specificity and sensitivityof the PCR assay were validated using clonal cultures and thennatural seawater samples, as well as the known copy number ofplasmids containing the target ITS–5.8S rDNA regions.A filter system for collecting mixed phytoplankton cells coupledto a target species-specific PCR assay was performed on spatialand temporal series of net and surface seawater samples duringcoastal water monitoring carried out in several localities ofthe Mediterranean Sea. The application of PCR allowed a rapiddetection of various genera and species-specific potential HABtaxa in all examined natural samples. Qualitative and semi-quantitativePCR results obtained from field samples were compared with microscopic[light microscope (LM)] examinations. The two methods gave comparableresults, and the molecular assay was able to detect HAB targetcells at concentrations not detectable by microscopy or thoseof uncertain identity. The highest values of positive detectionof potential HAB taxon presence obtained by PCR assay comparedwith the microscopic examination ranged from 67 to 8.0%.     

Contracaecum ogmorhini复合种线粒体rrnL基因的多态性

本项目应用聚合酶链式反应单链构象多态性(PCR SSCP) 及DNA序列分析的方法, 研究了南半球Contracaecum ogmorhini两个不同种群和北半球C. margolisi一个种群在线粒体核糖体大亚基( rrnL) 基因部分序列的差异及种群遗传关系。结果显示: 南半球C. ogmorhini 两个种群在种群间及种群内的rrnL 序列相似性很高; 而北半球种群与南半球种群的rrnL序列相似性则相对较低, 它们之间rrnL 序列种间遗传差异大于种内遗传变异, 而且存在着可区分两个姊妹种的2个碱基差异。rrnL 序列分析结果支持北半球C. margolisi 相对于南半球C. ogmorhini而言, 的确是一个不同的物种。     

Genetic Diversity of Eukaryotic Plankton Assemblages in Eastern Tibetan Lakes Differing by their Salinity and Altitude

Eukaryotic plankton assemblages in 11 high-mountain lakes located at altitudes of 2,817 to 5,134 m and over a total area of ca. one million square kilometers on the Eastern Tibet Plateau, spanning a salinity gradient from 0.2 (freshwater) to 187.1 g l⁻¹ (hypersaline), were investigated by cultivation independent methods. Two 18S rRNA gene-based fingerprint approaches, i.e., the terminal restriction fragment length polymorphism and denaturing gradient gel electrophoresis (DGGE) with subsequent band sequencing were applied. Samples of the same lake type (e.g., freshwater) generally shared more of the same bands or T-RFs than samples of different types (e.g., freshwater versus saline). However, a certain number of bands or T-RFs among the samples within each lake were distinct, indicating the potential presence of significant genetic diversity within each lake. PCA indicated that the most significant environmental gradient among the investigated lakes was salinity. The observed molecular profiles could be further explained (17–24%) by ion percentage of chloride, carbonate and bicarbonate, and sulfate, which were also covaried with change of altitude and latitude. Sequence analysis of selected major DGGE bands revealed many sequences (largely protist) that are not related to any known cultures but to uncultured eukaryotic picoplankton and unidentified eukaryotes. One fourth of the retrieved sequences showed ≤97% similarity to the closest sequences in the GenBank. Sequences related to well-known heterotrophic nanoflagellates were not retrieved from the DGGE gels. Several groups of eukaryotic plankton, which were found worldwide and detected in low land lakes, were also detected in habitats located above 4,400 m, suggesting a cosmopolitan distribution of these phylotypes. Collectively, our study suggests that there was a high beta-diversity of eukaryotic plankton assemblages in the investigated Tibetan lakes shaped by multiple geographic and environmental factors.     

Rapid characterization of mutations in amplified human hprt cDNA by polyacrylamide gel electrophoresis

Compiling hprt mutation spectra involves the isolation and analysis of numerous 6-thioguanine-resistant clones for identifying characteristic point mutations. Since cDNA amplificates are compulsary intermediates in most mutant classification protocols, we suggest their preliminary characterization by polyacrylamide gel electrophoresis for the rapid distinction of clonal and independent mutants and for streamlining mutant analysis procedures. Based on the human hprt cDNA sequence a strategy was developed for mapping missing exons by analytical digests with a small panel of restriction enzymes. In mutant classification schemes, polyacrylamide gel electrophoresis of AluI-digested cDNA amplificates increased the sensitivity for detecting RT-PCR products of reduced size, e.g., in the case of missing exon 5. Restriction analysis of cDNA amplificates from 109 independent mutant clones showed a significant increase of exon loss after NNK induction as compared to spontaneous or BaP-induced mutants. The determination of exon loss from cDNA amplificates, as carried out for 39 independent mutant PCR products, might direct towards the genomic target sequences carrying the point mutations, that caused the aberrant splicing, thus eliminating the need of laborious multiplex PCR comprising all exons. For single-strand conformation polymorphism (SSCP) analysis of five known point mutations, sub-amplificates comprising exons 7 and 8 of hprt cDNA were obtained. After a combined heat and alkali denaturation of the double-stranded PCR products, the samples were separated in pre-cast polyacrylamide gels under non-denaturing conditions. Five known nucleotide substitutions within the amplified region, including the C508T hot spot mutation, resulted in mobility shifts of single-strand bands relative to the wild type pattern.     

Temporal occurrence of planktotrophic bivalve larvae identified morphologically and by single step nested multiplex PCR

We report the application of a recently developed molecularmethod, single step nested multiplex PCR (SSNM-PCR) assay andmicroscopy to identify and investigate temporal patterns ofbivalve larvae in a Danish estuary, Isefjord. All samples werecollected during the SUSTAINEX program from June to November2001. Using the molecular assay, larvae could be categorizedinto six groups: the blue mussel, Mytilus edulis, Ensis spp.,species of the Myoidae superfamily (Mya spp.), the common cockle(Cardiidae family), members of the Abra and Macoma genera ofthe Tellinoidae superfamily and members of the surf clam genera,Spisula spp. A seventh group was composed of unknown larvae.Greater resolution was possible by microscopy, but only forrelatively large and intact individuals (>150–200 µm).The molecular approach was capable of differentiating betweenlarvae regardless of shell size. Where it was possible to directlycompare identifications based on both methods, concordance washigh for M. edulis, Macoma balthica/Abra alba and E. americanus,whereas identification of Myoidae spp. and Cardiids was lessconsistent. Over the course of the study, two patterns of larvaloccurrence were observed. Larvae from species known to exhibita protracted annual spawning period (M. edulis, Myoidae spp.,Mysella bidentata and Cardiids) were present in the water columnthroughout the sampling period, whereas larvae of Abra alba,Barnea candida, E. americanus, Macoma balthica, Musculus marmoratusScrobicularia plana and Tapes pullastra appeared at clearlydefined periods.     

Monitoring for the Management of Disease Risk in Animal Translocation Programmes

We conducted an observational study to determine the prevalence of Entamoeba spp., in samples collected in a waste water treatment plant that provides water for agricultural irrigation. Samples were collected weekly over a period of 10 weeks at representative contamination stages from within the treatment plant. Protozoan identification was performed via light microscopy and culture. PCR amplification of small subunit rRNA gene sequences of E. histolytica/dispar/moshkovskii was performed in culture positive samples. Light microscopy revealed the presence of Entamoeba spp., in 70% (14/20) of the raw waste water samples and in 80% (8/10) of the treated water samples. PCR amplification after culture at both 24 and 37°C revealed that 100% (29/29) of the raw waste water samples and 78.6% (11/14) of the treated waste water were positive for E. moshkovskii. We report the first isolation of E. moshkovskii in Colombia, confirmed by PCR. Recent reports of E. moshkovskii pathogenic potential suggest this finding could constitute a public health risk for people exposed to this water.     

Heterotrophic protozoa and small metazoa: feeding rates and prey-consumer interactions

A common approach to divide zooplankton into groups has beenby size or size fractionation (micro-, meso- and macrozooplankton).Whereas almost all zooplankton retained by 200 µm meshare metazoa, those not retained are proto- and metazoa. Evenso, the variability of major taxa among those retained by 200µm mesh can range widely between samples, that of passing200 pm can vary even more when considering the grazing impact.If heavily weighted towards protozoa, the <200 µm communityfeeding rate on small phytoplankton could be several times therate when most animals would be metazoa. Also, the interactionbetween proto- and metazooplankton passing 200 µm meshought to be considered, as should be that among protozoa. Usingpublished data from the North Atlantic Ocean, the potentialimpact of small metazooplankton on the chlorophyll standingstock and primary productivity as well as on protozooplanktonwas evaluated. It was found that metazoo plankton passing <200µm mesh removed a much larger part of the primary productivitythan those retained by 200 µm mesh. Although the biomassof the 200 µm mesh metazoa was close to that of protozoapassing the same mesh, their ration was only a relatively smallpart of the primary productivity ingested by the latter. Yet,due to their unusually high abundance in these oceanic waters,the overall metazooplankton appeared to come close to controllingprotozooplankton >50 µm³ in volume, i.e. those whichcould be actively perceived. It is hypothesized that in theabsence of control by meta zooplankton, protozoa control theirown abundance by predation/cannibalism.     

Molecular identification of bacteria from a coculture by denaturing gradient gel electrophoresis of 16S ribosomal DNA fragments as a tool for isolation in pure cultures.

Molecular information about the bacterial composition of a coculture capable of sulfate reduction after exposure to oxic and microoxic conditions was used to identify and subsequently to isolate the components of the mixture in pure culture. PCR amplification of 16S ribosomal DNA fragments from the coculture, analyzed by denaturing gradient gel electrophoresis, resulted in two distinct 16S ribosomal DNA bands, indicating two different bacterial components. Sequencing showed that the bands were derived from a Desulfovibrio strain and an Arcobacter strain. Since the phylogenetic positions of bacteria are often consistent with their physiological properties and culture requirements, molecular identification of the two components of this coculture allowed the design of specific culture conditions to separate and isolate both strains in pure culture. This approach facilitates the combined molecular and physiological analysis of mixed cultures and microbial communities.     

Comparison of DNA extraction methods for the PCR-single-strand-conformation polymorphism analysis of kefir

Experiments were performed to determine the influence of three DNA extraction methods (i.e. lysozyme, sonication and CTAB methods) from kefir on the microbial diversity analysis by PCR-single strand conformation polymorphism (PCR-SSCP). The results showed that the band of DNA extracted using CTAB was clearer than that using other methods. In addition, the yield and purity of DNA extracted using CTAB were the highest and reached, respectively, 915 μg/ml and 1.694.The results from the experiments indicated that the CTAB-based DNA extraction method was the most efficient method for DNA extraction from kefir. The heterogeneity of PCR products, amplified from community DNA with universal primers spanning the V3 region of 16S rRNA genes, was analysed by using SSCP. The results showed that the SSCP profile based on the sonication method gave the highest microbial diversity of kefir. One conclusion from these results was that the DNA extraction method was an important factor affecting the SSCP-based microbial diversity analysis of kefir.     

Analyses of soil fungal communities in adjacent natural forest and hoop pine plantation ecosystems of subtropical Australia using molecular approaches based on 18S rRNA genes

Soil fungal communities were studied using 18S rDNA-based molecular techniques. Soil DNA was analyzed using temperature gradient gel electrophoresis (TGGE), single-stranded conformational polymorphism (SSCP), cloning and sequencing methods, following community DNA extraction and polymerase chain reaction (PCR). The extracted community DNA was successfully amplified using the primer pair of EF4f-Fung5r which produced ca. 550bp 18S rDNA fragments. TGGE screening of the PCR products showed some differences in band position and intensity between two soil samples in adjacent natural forest (YNF) and hoop pine plantation (YHP) ecosystems at Yarraman in subtropical Australia. TGGE and SSCP could be used for screening PCR products. However, care must be exercised when interpreting the TGGE and SSCP results with respect to microbial diversity, because one band may not necessarily represent one species. It is recommended that the PCR products should be purified before TGGE or SSCP screening. SSCP screening of the clone sequences revealed differences among the clones. Sequence and phylogenetic analyses revealed that all obtained clones were affiliated to the kingdom Fungi, including three phyla, i.e., Zygomycota, Ascomycota and Basidiomycota. Our results suggested that community DNA extraction, PCR, cloning, SSCP screening of clones, sequencing of selected clones and phylogentic analyses could be a good strategy in investigation of soil fungal community and diversity.     

Anthocyanin production in selected cell lines of grape (Vitis vinifera L.)

Summary Anthocyanin production of two lines ofVitis vinifera cell cultures, i.e., 5.4 and 13.1, which were obtained from the same starting material after 20 and 37 mo. of clonal selection, respectively, was investigated. Cell suspension cultures of lines 5.4 and 13.1 maintained an anthocyanin content of 0.44 ± 0.15 and 1.02 ± 0.31 mg·g⁻¹ fresh weight during 50 and 32 weekly maintenance subcultures, respectively. Under anthocyanin-promoting culture conditions, both lines showed an enhancement of their anthocyanin level by approximately fourfold. While line 5.4 accumulated peonidin 3-glucoside and cyanidin 3-glucoside in decreasing order, line 13.1 accumulated primarily peonidin 3-p-coumaroylglucoside with lesser amounts of malvidin monoglucoside. Results show that while the anthocyanin content was improved during the course of repeated selections, the anthocyanin composition was modified markedly favoring the accumulation of more metabolically-advanced anthocyanins.     

Distribution and Diversity of Bacteria in a Saline Meromictic Lake as Determined by PCR-DGGE of 16S rRNA Gene Fragments

The variations in vertical distribution and composition of bacteria in the meromictic Lake Faro (Messina, Italy) were analysed by culture-independent methods in two different mixing conditions. Water samples were collected from a central station from the surface to the bottom (30 m depth) on two different sampling dates—the first characterised by a well-mixed water mass and the second by a marked stratification. A ‘red-water’ layer, caused by a dense growth of photosynthetic sulphur bacteria, was present at a depth of 25 m in December 2005 and at 15 m in August 2006, defining two different zones in terms of their physicochemical properties. The vertical distribution of bacterioplankton showed that the interface zones were more densely populated than others. In both sampling periods, the highest numbers of live cells were observed within ‘red water’ layers. The dominant phylotypes of the bacterial community were determined by sequencing the Denaturing Gradient Gel Electrophoresis (DGGE) bands resulting from PCR amplification of 16S rRNA gene fragments. The number of DGGE bands, considered indicative of the total species richness, did not vary predictably across the two different sampling periods. Proteobacteria (α-, γ-, δ- and ε subclass members), Cytophaga–Flavobacterium–Bacteroides, green sulphur bacteria and Cyanobacteria were retrieved from Lake Faro. Most of the bands showed DNA sequences that did not match with other previously described organisms, suggesting the presence of new indigenous bacterial phylotypes.