Partial purification and characterisation of Bfi57I and Bfi89I, restriction endonucleases from different strains of Butyrivibrio fibrisolvens

Occurrence of restriction-modification systems in ruminal butyrate-producing bacteria

Thirty-five strains of ruminal bacteria belonging to the former Butyrivibrio fibrisolvens species were screened for the presence of site-specific restriction endonuclease and modification methyltransferase activities. Seven strains possessed endonuclease activities detectable in crude cell extracts. The recognition sequences and optimal reaction conditions for seven of them were determined. Five enzymes were found to be isoschizomers of type II endonucleases (EcoRV, NsiI, AseI (2x) and SauI), one was type IIS (FokI) and two remained unknown. The optimal reaction buffer was found to be a low ionic strength buffer and all enzymes possessed sufficient activity at 39 degrees C. The presence of DNA modification among all strains was also determined. Most of the methylation activities correlated with restriction activities, yet some strains possessed unaccompanied modification methyltransferases.

Type II restriction modification systems of Prevotella bryantii TC1-1 and Prevotella ruminicola 23 strains and their effect on the efficiency of DNA introduction via electroporation

The restriction endonucleases PbrTI and Pru2I, isoschizomers of Sau3AI and HaeIII, were partially purified and characterized from anaerobic rumen bacteria Prevotella bryantii TC1-1 and Prevotella ruminicola 23, respectively. These are the first type II restriction endonucleases discovered in strains of the genus Prevotella, and they represent one of the barriers hindering gene transfer in these microorganisms. Heterologous DNA was protected against the action of the PbrTI or Pru2I by incubation in a cell-free extract of the respective strain which contained 20 mM EDTA. This led to the development of a protocol enabling successful electrotransformation of the P. bryantii TC1-1 strain with a pRH3 Bacteroides--Escherichia coli shuttle vector containing up to 7-kb long DNA inserts. Plasmid DNA isolated from the transformed strain facilitated the transfer with further increased efficiency and made possible the introduction of ligation reaction products directly to P. bryantii TC1-1 without passing them first through E. coli.

GATC-specific restriction-modification systems in ruminal bacteria

The GATC-specific restriction and modification activities were analyzed in 11 major bacterial representatives of ruminal microflora. Modification phenotype was observed in 13 out of 40 ruminal strains. MboI isoschizomeric restriction endonucleases were detected in 10 bacterial strains tested; three strains lacked any detectable corresponding endonuclease activity. The only examined strain of Mitsuokella multi-acida was found to possess a different type of endonuclease activity. This is the first report on restriction activity in ruminal treponemes M. multiacida and Megasphaera elsdenii.

Group-specific 16S rRNA hybridization probes for determinative and community structure studies of Butyrivibrio fibrisolvens in the rumen

Oligonucleotide probes covering three phylogenetically defined groups of Butyrivibrio spp. were successfully designed and tested. The specificity of each probe was examined by hybridization to rRNAs from an assortment of B. fibrisolvens isolates as well as additional ruminal and nonruminal bacteria. The sensitivity of the hybridization method was determined by using one of the probes (probe 156). When RNA was extracted from a culture of OB156, the probe was able to detect target cells at densities as low as 10(4) cells/ml. When 10(4) or more target cells/ml were added to cattle rumen samples, detectable hybridization signals were obtained with 1,000 ng of total RNA loaded onto the nylon membrane. In contrast, the sensitivity was reduced to 10(6) target cells/ml at 100 ng of RNA per slot. The probes were used to type 19 novel Butyrivibrio isolates. The phylogenetic placement was confirmed by partial 16S rRNA gene sequencing. The use of the probes in community-based studies indicated that the Butyrivibrio groups examined in this paper did not represent a significant portion of the bacterial 16S rRNA pool in the rumen of the cattle, sheep, and deer examined.

16S rDNA analysis of Butyrivibrio fibrisolvens: phylogenetic position and relation to butyrate-producing anaerobic bacteria from the rumen of white-tailed deer

Complete 16S rDNA sequences of six strains of Butyrivibrio fibrisolvens, including the type strain (ATCC 19171), were determined. The type strain was found to have less than 89% sequence similarity to the other isolates that were examined. The five plasmid-bearing strains formed a closely related cluster and three of these strains (OB156, OB157 and OB192) were very highly related (> 99%), indicating that they are isolates of the same genomic species. The phylogenetic position of Butyrivibrio was found to be within the subphylum Clostridium, of Gram-positive bacteria. The closest relatives to the type strain were Eubacterium cellulosolvens and Cl. xylanolyticum and the closest relatives to the separately clustered strains were Roseburia ceciola, Lachnospira pectinoschiza and Eubacterium rectale.

Analysis of the sequence of a new cryptic plasmid, pRJF2, from a rumen bacterium of the genus Butyrivibrio: comparison with other Butyrivibrio plasmids and application in the development of cloning vector

A small cryptic plasmid, pRJF2, from Butyrivibrio fibrisolvens strain OB157 was isolated and sequenced. The plasmid is similar in organisation to the previously sequenced Butyrivibrio plasmid, pRJF1, with two open reading frames, ORF1 and ORF2, flanking a region tentatively identified as the replication origin, and a region of unknown function defined by terminal 79 bp invert repeats. The sequences of ORF1, ORF2, and the presumptive replication origin are highly conserved. The sequence between the 79, bp invert repeats is not, and is therefore presumed to be of lesser functional significance, although the 5' and 3' termini are still highly conserved. The functional importance for plasmid replication of these regions was tested by constructing potential shuttle vectors, each lacking one or more of the regions of interest. When the region between the invert repeats was deleted and replaced by the erythromycin resistance gene from pAM beta 1 together with pUC18, to produce the 7.9 kb chimaeric plasmid pYK4, the construct was successfully transformed into E. coli and B. fibrisolvens by electroporation, and was stably maintained in both hosts. Both ORF1 and ORF2 were required for successful transformation of B. fibrisolvens.