Jeroen Heyrman

Comparative analysis of the diversity of aerobic spore-forming bacteria in raw milk from organic and conventional dairy farms.

Bacterial contamination of raw milk can originate from different sources: air, milking equipment, feed, soil, faeces and grass. It is hypothesized that differences in feeding and housing strategies of cows may influence the microbial quality of milk. This assumption was investigated through comparison of the aerobic spore-forming flora in milk from organic and conventional dairy farms. Laboratory pasteurized milk samples from five conventional and five organic dairy farms, sampled in late summer/autumn and in winter, were plated on a standard medium and two differential media, one screening for phospholipolytic and the other for proteolytic activity of bacteria. Almost 930 isolates were obtained of which 898 could be screened via fatty acid methyl ester analysis. Representative isolates were further analysed using 16S rRNA gene sequencing and (GTG)(5)-PCR. The majority of aerobic spore-formers in milk belonged to the genus Bacillus and showed at least 97% 16S rRNA gene sequence similarity with type strains of Bacillus licheniformis, Bacillus pumilus, Bacillus circulans, Bacillus subtilis and with type strains of species belonging to the Bacillus cereus group. About 7% of all isolates may belong to possibly new spore-forming taxa. Although the overall diversity of aerobic spore-forming bacteria in milk from organic vs. conventional dairy farms was highly similar, some differences between both were observed: (i) a relatively higher number of thermotolerant organisms in milk from conventional dairy farms compared to organic farms (41.2% vs. 25.9%), and (ii) a relatively higher number of B. cereus group organisms in milk from organic (81.3%) and Ureibacillus thermosphaericus in milk from conventional (85.7%) dairy farms. One of these differences, the higher occurrence of B. cereus group organisms in milk from organic dairy farms, may be linked to differences in housing strategy between the two types of dairy farming. However, no plausible clarification was found for the relatively higher number of thermotolerant organisms and the higher occurrence of U. thermosphaericus in milk from conventional dairy farms. Possibly this is due to differences in feeding strategy but no decisive indications were found to support this assumption.

Comparative analyses of the bacterial diversity on two different biodeteriorated wall paintings by DGGE and 16S rDNA sequence analysis.

Abstract The bacterial diversity associated with two different biodeteriorated wall paintings in Herberstein (Austria) and Greene (Germany) was investigated and compared using a molecular approach combining fingerprinting by DGGE (denaturing gradient gel electrophoresis) with the screening of 16S rDNA clone libraries by DGGE and sequencing. In total, 70 16S rDNA sequences were obtained. Twenty-three sequences were phylogenetically affiliated with genera of the Actinobacteria , namely Arthrobacter , Actinobispora , Amycolata , Asiosporangium , Frankia , Geodermatophilus , Nocardioides , Promicromonospora , Pseudonocardia , Rubrobacter , Streptomonospora , Saccharopolyspora , Sphaerobacter and Thermocrismum . Twenty-seven sequences were affiliated with genera of the Proteobacteria , namely Aquaspirillum , Chromohalobacter , Deleya , Erythrobacter , Halomonas , Porphyrobacter , Pseudomonas , Rhizobium , Salmonella and unidentified γ - Proteobacteria . Nineteen sequences were affiliated with unidentified Cytophagales . One sequence was affiliated with the Chloroflexaceae group. Most genera were present in more than one sample. The bacterial communities present on the two different wall paintings showed only similarities in members of unidentified Cytophagales and of the genera Frankia , Geodermatophilus and Arthrobacter . Cultivation experiments for one sample were carried out in parallel to the molecular approach. Isolates were clustered by FAME (fatty acid methyl ester analysis) and representative members of each cluster were additionally analyzed by DGGE. No similar organisms could be detected by the cultivation approach and the molecular approach. Isolates were phylogenetically affiliated to the genera Bacillus , Paenibacillus , Micrococcus , Staphylococcus , Methylobacterium and Halomonas . The sequence of the isolated Halomonas differed from the Halomonas sequences, which were obtained by the molecular approach. The combined approach of molecular and culturing techniques gives a truer picture of all bacterial organisms on/in a surface than either alone.

16S rDNA sequence analysis of bacterial isolates from biodeteriorated mural paintings in the Servilia tomb (Necropolis of Carmona, Seville, Spain)

Bacteria were isolated from damaged mural paintings of the Servilia tomb (necropolis of Carmona, Seville, Spain). Selected strains, representative for different clusters of isolates with similar fatty acid profiles, were analysed by 16S rDNA sequence analysis. Bacillus is the dominant genus among the isolates: members of the rRNA species complexes of B. megaterium, B. pumilus and B. firmus were found as well as several other Bacillus species. One group of halotolerant isolates falls in the Bacillus sensu lato group, with closest relatedness to the genera Salibacillus and Virgibacillus. Other genera found are Artbrobacter, Micrococcus, Streptomyces, Sphingomonas, Paenibacillus, and a genus closely related to Paracraurococcus. Many isolates showed low 16S rDNA sequence similarities with the closest related database entries, a strong indication for the presence of several new species among the isolates.

Characterization of CMR5c and CMR12a, novel fluorescent Pseudomonas strains from the cocoyam rhizosphere with biocontrol activity

Aim:  To screen for novel antagonistic Pseudomonas strains producing both phenazines and biosurfactants that are as effective as Pseudomonas aeruginosa PNA1 in the biocontrol of cocoyam root rot caused by Pythium myriotylum.

Halomonas muralis sp. nov., isolated from microbial biofilms colonizing the walls and murals of the Saint-Catherine chapel (Castle Herberstein, Austria).

A group of seven halophilic strains (optimal growth at 2.5-10.0% NaCl) was isolated from samples of a wall and a mural painting, both heavily contaminated by microbial growth, inside the Saint-Catherine chapel of Castle Herberstein (Austria). The strains were subjected to a polyphasic taxonomic study that included DNA-DNA relatedness studies, DNA base-ratio determinations, 16S rDNA sequence analysis, rep-PCR genomic fingerprinting, fatty acid analysis and phenotypic and biochemical characterization. The data obtained indicate that the strains belong to the genus Halomonas and represent a novel species, for which the name Halomonas muralis sp. nov. is proposed. The type strain is strain LMG 20969(T) ( = DSM 14789(T)).

Brachybacterium fresconis sp. nov. and Brachybacterium sacelli sp. nov., isolated from deteriorated parts of a medieval wall painting of the chapel of Castle Herberstein (Austria).

From two samples of microbial biofilms, damaging the mural paintings at the Saint-Catherine chapel of Castle Herberstein (Austria), four and nine coryneform bacteria were isolated, respectively. A polyphasic taxonomic study of these isolates, including morphological, biochemical and chemotaxonomic characterization, REP-PCR fingerprinting, 16S rDNA sequence analysis, DNA base ratio and DNA-DNA hybridizations, allocated them to the genus Brachybacterium. The isolates of the two samples both represent new species, for which the names Brachybacterium fresconis sp. nov. and Brachybacterium sacelli sp. nov. are proposed. The respective type strains are LMG 20336T (= DSM 14564T) and LMG 20345T (= DSM 14566T).

Fluorescent Amplified Fragment Length Polymorphism and Repetitive Extragenic Palindrome-PCR Fingerprinting Reveal Host-Specific Genetic Diversity of Vibrio halioticoli-Like Strains Isolated from the Gut of Japanese Abalone

ABSTRACT When analyzed by fluorescent amplified fragment length polymorphism and repetitive extragenic palindrome-PCR fingerprinting, a total of 47 Vibrio halioticoli strains isolated from four Japanese abalone species and one turban shell species formed three clusters that roughly reflect the different species of host abalone from which they were isolated. The V. halioticoli isolates from turban shells were distributed evenly among the clusters. Representative isolates from two clusters were deemed separate species or subspecies by DNA-DNA hybridization.

Multiplex PCR screening of soil isolates for novel Bacillus-related lineages.

A16S rDNA multiplex PCR-based high-throughput protocol is presented to screen bacterial isolates in large amounts for the appearance of novel lineages of bacteria, especially hitherto unknown Bacillus relatives. The 16S rDNAs of 4224 isolates from a comprehensive cultivation campaign were screened for similarity to predominant uncultured soil bacteria. Soil suspensions were plated in serial dilutions on various media. After 2, 4 and 6 weeks, colonies were collected with toothpicks and transferred to microtiterplates for cell lysis and storage plates for subculture. Cell lysis was a simple freeze-heating cycle in distilled water. The multiplex PCR was adapted to operate sufficiently for Gram positives under these conditions. Approximately 10.6% of all picked colonies reacted with a primer targeting a Bacillus fraction containing novel Bacillus benzoevorans-relatives previously detected as predominant soil bacteria by culture-independent studies. From these 446 colonies detected by multiplex PCR, 363 (81.4%) could be successfully used for continued subculture and 16S rDNA sequencing. All identification was done by 16S rDNA sequencing. This revealed that more than 60% of them represented a variety of candidates for potentially new species. Twelve colonies were identified as almost identical matches to 16S rDNA sequences of hitherto uncultured but apparently predominant soil bacteria cloned from directly extracted soil DNA. Also, novel lineages of unpredicted phylogenetic diversity like novel Paenibacillus, Sporosarcina and even Xanthomonads were represented.

Pseudomonas cichorii as the causal agent of midrib rot, an emerging disease of greenhouse-grown butterhead lettuce in Flanders.

Bacterial midrib rot of greenhouse-grown butterhead lettuce (Lactuca sativa L. var. capitata) is an emerging disease in Flanders (Belgium) and fluorescent pseudomonads are suspected to play an important role in the disease. Isolations from infected lettuces, collected from 14 commercial greenhouses in Flanders, yielded 149 isolates that were characterized polyphasically, which included morphological characteristics, pigmentation, pathogenicity tests by both injection and spraying of lettuce, LOPAT characteristics, FAME analysis, BOX-PCR fingerprinting, 16S rRNA and rpoB gene sequencing, as well as DNA-DNA hybridization. Ninety-eight isolates (66%) exhibited a fluorescent pigmentation and were associated with the genus Pseudomonas. Fifty-five of them induced an HR+ (hypersensitive reaction in tobacco leaves) response. The other 43 fluorescent isolates were most probably saprophytic bacteria and about half of them were able to cause rot on potato tuber slices. BOX-PCR genomic fingerprinting was used to assess the genetic diversity of the Pseudomonas midrib rot isolates. The delineated BOX-PCR patterns matched quite well with Pseudomonas morphotypes defined on the basis of colony appearance and variation in fluorescent pigmentation. 16S rRNA and rpoB gene sequence analyses allowed most of the fluorescent isolates to be allocated to Pseudomonas, and they belonged to either the Pseudomonas fluorescens group, Pseudomonas putida group, or the Pseudomonas cichorii/syringae group. In particular, the isolates allocated to this latter group constituted the vast majority of HR+ isolates and were identified as P. cichorii by DNA-DNA hybridization. They were demonstrated by spray-inoculation tests on greenhouse-grown lettuce to induce the midrib rot disease and could be re-isolated from lesions of inoculated plants. Four HR+ non-fluorescent isolates associated with one sample that showed an atypical midrib rot were identified as Dickeya sp.

Emended descriptions of Bacillus sporothermodurans and Bacillus oleronius with the inclusion of dairy farm isolates of both species

Bacillus sporothermodurans is an industrially important micro-organism because of its ability to produce endospores which resist ultra-high temperature (UHT) and industrial sterilization processes. It was described by Pettersson et al. (1996) [Pettersson, B., Lembke, F., Hammer, P., Stackebrandt, E. & Priest, F. G. (1996). Int J Syst Bacteriol 46, 759-764] based on seven genetically homogeneous isolates all from UHT milk. Bacillus oleronius, the closest phylogenetic neighbour of B. sporothermodurans, was described by Kuhnigk et al. (1995) [Kuhnigk, T., Borst, E.-M., Breunig, A., König, H., Collins, M. D., Hutson, R. A. & Kämpfer, P. (1995). Can J Microbiol 41, 699-706] based on a single strain, isolated from the hindgut of the termite Reticulitermes santonensis. A polyphasic study of a heterogeneous collection of B. sporothermodurans and B. oleronius strains isolated from various sources and geographical origins led to an emended description of both species. Additional data presented are the results of fatty acid, quinone and/or cell wall (polar lipid) analyses. DNA-DNA hybridization confirmed 3 subgroups of strains obtained after SDS-PAGE analysis of cellular proteins as B. sporothermodurans. One named B. sporothermodurans strain (R-7489) was reclassified as a Bacillus fordii strain. The phenotypic profiles of both species were rather heterogeneous, sometimes different from the original descriptions and did not differ in a large number of characteristics, although B. oleronius generally gave stronger reactions in its positive tests than did B. sporothermodurans; the variable and weak reactions for both organisms with some substrates blurred the distinction between the two. However, differences in polar lipid, SDS-PAGE and menaquinone profiles clearly allow distinction between the two species.