Non-specific DNAases from the rumen bacterium Prevotella bryantii

Extracellular non-specific nucleases were observed in some strains belonging to the ruminal species of the genus Prevotella, mostly P. brevis and P. bryantii. The nuclease from P. bryantii appeared to be extracellular; it mediates the degradation of the supercoiled plasmid DNA via an open circle intermediate. The cleavage is not site specific although a preference for certain cleavage sites does seem to exist. Our attempts to clone the wild-type P. bryantii B(1)4 nuclease in E. coli strain ER1992 that reports on the DNA damage sustained, were unsuccessful probably due to excessive intracellular nuclease activity that killed the cells bearing the gene for the nuclease. On the other hand, the nuclease from a related strain TCl-1, which has a less active enzyme of the same type, was successfully cloned.     

Effect of sodium monensin and cinnamaldehyde on the growth and phenotypic characteristics of Prevotella bryantii and Prevotella ruminicola

Two representative strains of Gram-negative rumen bacteria from the genus Prevotella were used as model organisms in order to evaluate the effect of cinnamaldehyde (the secondary metabolite found in extracts of the Cinnamomum family) vs. sodium monensin on growth, cell size and cell protein production. Prevotella bryantii B(1)4 was found to be remarkably more resistant to the action of both compounds than Prevotella ruminicola 23. The approximate IC(50) concentrations of sodium monensin influenced the increase in cell size of both strains during growth, which was much more pronounced in the case of the B(1)4 strain. A similar effect was observed in strain B(1)4 when 1.438 mmol/L cinnamaldehyde was added to the growth medium, indicating a possible interference with cell division. The action of cinnamaldehyde on P. bryantii B(1)4 was concentration-dependent, in contrast to the effect observed on P. ruminicola 23.     

Glutamate dehydrogenase activity profiles for type strains of ruminal Prevotella spp.

The glutamate dehydrogenase (GDH) activities for the type strains of Prevotella ruminicola (strain 23), Prevotella brevis (strain GA33), and Prevotella bryantii (strain B(1)4) were assessed by a combination of enzyme assays and analysis of migration patterns of GDH proteins following nondenaturing polyacrylamide gel electrophoresis. Unlike results with most other prokaryotes, but similar to results with other members of the family Bacteroidaceae, NADPH-utilizing specific activity was greatest in all species following ammonia-limited growth. Similar also to previous findings with P. bryantii, the NAD(P)H-utilizing GDH activity of P. ruminicola can be attributed to a single protein. However, P. brevis produces an additional GDH protein(s) in response to growth with peptides. These results conclusively demonstrate that all type strains of the ruminal Prevotella sp. grouping possess GDH activity.     

Inability of Prevotella bryantii to form a functional Shine-Dalgarno interaction reflects unique evolution of ribosome binding sites in Bacteroidetes

The Shine-Dalgarno (SD) sequence is a key element directing the translation to initiate at the authentic start codons and also enabling translation initiation to proceed in 5' untranslated mRNA regions (5'-UTRs) containing moderately strong secondary structures. Bioinformatic analysis of almost forty genomes from the major bacterial phylum Bacteroidetes revealed, however, a general absence of SD sequence, drop in GC content and consequently reduced tendency to form secondary structures in 5'-UTRs. The experiments using the Prevotella bryantii TC1-1 expression system were in agreement with these findings: neither addition nor omission of SD sequence in the unstructured 5'-UTR affected the level of the reporter protein, non-specific nuclease NucB. Further, NucB level in P. bryantii TC1-1, contrary to hMGFP level in Escherichia coli, was five times lower when SD sequence formed part of the secondary structure with a folding energy -5,2 kcal/mol. Also, the extended SD sequences did not affect protein levels as in E. coli. It seems therefore that a functional SD interaction does not take place during the translation initiation in P. bryanttii TC1-1 and possibly other members of phylum Bacteroidetes although the anti SD sequence is present in 16S rRNA genes of their genomes. We thus propose that in the absence of the SD sequence interaction, the selection of genuine start codons in Bacteroidetes is accomplished by binding of ribosomal protein S1 to unstructured 5'-UTR as opposed to coding region which is inaccessible due to mRNA secondary structure. Additionally, we found that sequence logos of region preceding the start codons may be used as taxonomical markers. Depending on whether complete sequence logo or only part of it, such as information content and base proportion at specific positions, is used, bacterial genera or families and in some cases even bacterial phyla can be distinguished.     

Conjugal transfer of a shuttle vector from the human colonic anaerobe Bacteroides uniformis to the ruminal anaerobe Prevotella (Bacteroides) ruminicola B(1)4.

Prevotella ruminicola (formerly Bacteroides ruminicola) is an anaerobic, gram-negative, polysaccharide-degrading bacterium which is found in the rumina of cattle. Since P. ruminicola is thought to make an important contribution to digestion of plant material in rumina, the ability to alter this strain genetically might help improve the efficiency of rumen fermentation. However, previously there has been no way to introduce foreign DNA into P. ruminicola strains. In this study we transferred a shuttle vector, pRDB5, from the colonic species Bacteroides uniformis to P. ruminicola B(1)4. The transfer frequency was 10(-6) to 10(-7) per recipient. pRDB5 contains sequences from pBR328, a cryptic colonic Bacteroides plasmid pB8-51, and a colonic Bacteroides tetracycline resistance (Tcr) gene. pRDB5 was mobilized out of B. uniformis by a self-transmissible Bacteroides chromosomal element designated Tcr Emr 12256. pRDB5 replicated in Escherichia coli as well as in Bacteroides spp. and was also mobilized from E. coli to B. uniformis by using IncP plasmid R751. However, direct transfer from E. coli to P. ruminicola B(1)4 was not detected. Thus, to introduce cloned DNA into P. ruminicola B(1)4, it was necessary first to mobilize the plasmid from E. coli to B. uniformis and then to mobilize the plasmid from B. uniformis to P. ruminicola B(1)4.     

Conjugal transfer of a shuttle vector from the human colonic anaerobe Bacteroides uniformis to the ruminal anaerobe Prevotella (Bacteroides) ruminicola B(1)4.

Prevotella ruminicola (formerly Bacteroides ruminicola) is an anaerobic, gram-negative, polysaccharide-degrading bacterium which is found in the rumina of cattle. Since P. ruminicola is thought to make an important contribution to digestion of plant material in rumina, the ability to alter this strain genetically might help improve the efficiency of rumen fermentation. However, previously there has been no way to introduce foreign DNA into P. ruminicola strains. In this study we transferred a shuttle vector, pRDB5, from the colonic species Bacteroides uniformis to P. ruminicola B(1)4. The transfer frequency was 10(-6) to 10(-7) per recipient. pRDB5 contains sequences from pBR328, a cryptic colonic Bacteroides plasmid pB8-51, and a colonic Bacteroides tetracycline resistance (Tcr) gene. pRDB5 was mobilized out of B. uniformis by a self-transmissible Bacteroides chromosomal element designated Tcr Emr 12256. pRDB5 replicated in Escherichia coli as well as in Bacteroides spp. and was also mobilized from E. coli to B. uniformis by using IncP plasmid R751. However, direct transfer from E. coli to P. ruminicola B(1)4 was not detected. Thus, to introduce cloned DNA into P. ruminicola B(1)4, it was necessary first to mobilize the plasmid from E. coli to B. uniformis and then to mobilize the plasmid from B. uniformis to P. ruminicola B(1)4.     

Real-time PCR法检测日粮中添加小黑麦干酒糟对肉牛瘤胃Prevotella属菌数量的影响

通过在肉牛日粮中添加不同比例的小黑麦干酒糟及其可溶物(TDDGS),运用Real-time PCR方法检测在添加TDDGS后对3种瘤胃普雷沃菌(Prevotella ruminicola、Prevotella brevis和Prevotella bryantii)数量的影响。结果表明,TDDGS组(20%、25%和30%TDDGS)与对照组(CG)相比,瘤胃中P.ruminicola和P.brevis菌数量均有升高,且在20%TDDGS组的数量分别显著升高47倍(P0.05)和794倍(P0.05),而P.bryantii菌数量却有所降低,并且在20%TDDGS组的数量显著降低5倍(P0.05);另一方面,TDDGS组间相比,除了P.ruminicola菌数量在20%和30%TDDGS组间存在显著差异,其余TDDGS组间的3种菌数量差异均不显著。结论是在肉牛日粮中添加20%TDDGS对3种瘤胃普雷沃菌数量都产生了显著影响,3种菌在TDDGS组间的数量变化差异不明显。     

Specificity of new restrictases and methylases. Unusual modification of cytosine at position 4

Fourteen restriction endonucleases and 4 methylases were isolated and purified from 14 strains of Citrobacter freundii and Escherichia coli, which were isolated from natural sources. To determine the nucleotide sequence recognized by the endonucleases a comparison of DNA cleavage patterns, the evaluation of the cleavage frequency of some DNA with known recognition sequences and mapping was used. It was determined that Cfr101 is a new enzyme recognizing 5'PuCCGGPy. Other restriction enzymes isolated were isoschizomers of: Cfr5I, Cfr11I, Eco60I, Eco61I--EcoRII; Cfr4I, Cfr8I, Cfr13I--Sau96I; Cfr6I--PvuII, Cfr9I--SmaI, Eco26I--HgiJII; Eco32I--EcoRV; Eco52I--XmaIII; Eco56I--NaeI. Some of the enzymes in C. freundii and E. coli were found for the first time. The methylases MCfrI; MCfr6I, MCfr9I and MCfr10I recognize the same nucleotide sequence as specific endonucleases isolated from the same strain. DNA modification in vitro by MCfrI and MCfr10I yields 5-methylcytosine and 4-methylcytosine by MCfr6I and MCfr9I.     

Pi30 DNA probe may be useful for the identification of Prevotella intermedia at the species or strain level

Recently, we introduced a new method for the rapid screening of bacterial species-or subspecies-specific DNA probes, named the "inverted dot blot hybridization screening method." This method has subsequently been then applied to develop species-or strain-specific DNA probes for Prevotella intermedia and Prevotella nigrescens. In a previous study, the inverted dot blot hybridization data showed that a probe, Pi30, was specific for P. intermedia. In this study, the DNA probe Pi30 was evaluated by Southern blot analysis to determine if it could distinguish P. intermedia from P. nigrescens. The data showed that the probe Pi30 reacted with the genomic DNAs from the reference strains and clinical isolates of both P. intermedia and P. nigrescens, but the size of the signal bands was different. In addition, the probe Pi30 reacted with a 1.4 kbp fragment from the genomic DNAs digested with Pst I of the P. intermedia strains but not with any fragments of P. nigrescens strains. The result indicates that the probe Pi30 could be useful for the identification of P. intermedia by restriction fragment length polymorphism (RFLP) at the species or strain level.     

C型产气荚膜梭菌β1、β2毒素基因的融合

利用PCR技术 ,从C型产气荚膜梭菌染色体DNA中扩增出 β1 和 β2 毒素基因 ,构建了含 β1 - β2 融合基因表达质粒的重组菌株BL2 1(DE3) (pETXB1_2 )。经酶切鉴定和序列测定证实 ,构建的重组质粒pETXB1_2含有 β1 - β2 融合基因 ,且基因序列和阅读框架正确。经ELISA检测 ,重组菌株表达的 β1 - β2 融合蛋白能够被 β1 、β2 毒素抗体识别。免疫实验结果表明 ,用β1 - β2 融合蛋白免疫的小鼠可以抵抗 1MLD的C型产气荚膜梭菌C5 9_4 4毒素攻击 ,表明构建的重组菌株可以作为预防仔猪红痢基因工程亚单位苗的候选菌株。     

Alternative pathways of glucose transport in Prevotella bryantii B(1)4(1)

Prevotella bryantii B(1)4 grew faster on glucose than mannose (0.70 versus 0.45 h(-1)), but these sugars were used simultaneously rather than diauxically. 2-deoxy-glucose (2DG) decreased the growth rate of cells that were provided with either glucose or mannose, but 2DG did not completely prevent growth. Cells grown on glucose or mannose transported both (14)C-glucose and (14)C-mannose, but cells grown on glucose had over three-fold higher rates of (14)C-glucose transport than cells grown on mannose. The (14)C-mannose transport rates of glucose- and mannose-grown cells were similar. Woolf-Augustinsson-Hofstee plots were not linear, and it appeared that the glucose/mannose/2DG carrier acted as a facilitated diffusion system at high substrate concentrations. When cultures were grown on nitrogen-deficient (excess sugar) medium, isolates had three-fold lower (14)C-glucose transport, but the (14)C-mannose transport did not change significantly. (14)C-glucose and (14)C-mannose transport rates could be inhibited by 2DG and either mannose or glucose, respectively. The (14)C-glucose transport of mannose-grown cells was inhibited more strongly by mannose and 2DG than those grown on glucose. Cells grown on glucose or mannose had similar ATP-dependent glucokinase activity, and 2DG was a competitive inhibitor (K(i)=0.75 mM). Thin layer chromatography indicated that cell extracts also had ATP-dependent mannose phosphorylation, but only a small amount of phosphorylated 2DG was detected. Glucose, mannose or 2DG were not phosphorylated in the presence of PEP. Based on these results, it appeared that P. bryantii B(1)4 had: (1) two mechanisms of glucose transport, a constitutive glucose/mannose/2DG carrier and an alternative glucose carrier that was regulated by glucose availability, (2) an ATP-dependent glucokinase that was competitively inhibited by 2DG but was unable to phosphorylate 2DG at a rapid rate, and (3) virtually no PEP-dependent glucose, mannose or 2DG phosphorylation activities.     

Molecular cloning, refined physical map and heterogeneity of methylation sites of papilloma virus type 1a DNA

The entire genome of human papilloma virus type 1a was cloned in Escherichia coli using the plasmid pBR322 as vector. The integrity and the homogeneity of the viral DNA thus obtained was confirmed by restriction endonucleases analysis. Viral DNA isolated from a single wart was partially methylated at only one out of the four HpaII sites, d(C-C-G-G). Recognition sites for Bg/I, Bg/II, PstI and PvuII restriction endonucleases were located on the cloned genome.     

Emended descriptions of Prevotella denticola, Prevotella loescheii, Prevotella veroralis, and Prevotella melaninogenica.

During studies of human periodontal disease, a number of bacterial strains were encountered that, on the basis of results of standard biochemical tests, appeared to be Prevotella buccalis, Prevotella denticola, Prevotella melaninogenica, or Prevotella loescheii. However, use of the standard biochemical tests, cellular fatty acid analyses, and the polyacrylamide gel electrophoresis patterns of soluble proteins resulted in conflicting identifications of these strains. The results of tests for cellobiose fermentation, inulin fermentation, and pigment production were responsible for most of the discordant results. Cellular fatty acid analyses in which the Microbial Identification System was used did not differentiate these strains from validly described species, even though separate library entries were created for them. DNA reassociation determinations in which the S1 nuclease procedure was used showed that cellobiose fermentation and pigment production are variable among strains of P. melaninogenica and P. denticola and that fermentation of xylan is not a reliable characteristic for differentiating P. buccalis from Prevotella veroralis. In contrast to previous indications, most strains of P. veroralis do not ferment xylan. These species can be differentiated by DNA-DNA reassociation and by cellular fatty acid analysis, using the Microbial Identification System, but differentiation by currently described phenotypic characteristics is not reliable. Similarly, P. loescheii and the genetically distinct (but closely related) D1C-20 group cannot be distinguished reliably from each other or from P. veroralis, P. denticola, and P. melaninogenica on the basis of currently described phenotypic tests other than cellular fatty acid composition or, for some species, electrophoretic patterns of soluble whole-cell proteins.     

Diet-dependent shifts in the bacterial population of the rumen revealed with real-time PCR

A set of PCR primers was designed and validated for specific detection and quantification of Prevotella ruminicola, Prevotella albensis, Prevotella bryantii, Fibrobacter succinogenes, Selenomonas ruminantium-Mitsuokella multiacida, Streptococcus bovis, Ruminococcus flavefaciens, Ruminobacter amylophilus, Eubacterium ruminantium, Treponema bryantii, Succinivibrio dextrinosolvens, and Anaerovibrio lipolytica. By using these primers and the real-time PCR technique, the corresponding species in the rumens of cows for which the diet was switched from hay to grain were quantitatively monitored. The dynamics of two fibrolytic bacteria, F. succinogenes and R. flavefaciens, were in agreement with those of earlier, culture-based experiments. The quantity of F. succinogenes DNA, predominant in animals on the hay diet, fell 20-fold on the third day of the switch to a grain diet and further declined on day 28, with a 57-fold reduction in DNA. The R. flavefaciens DNA concentration on day 3 declined to approximately 10% of its initial value in animals on the hay diet and remained at this level on day 28. During the transition period (day 3), the quantities of two ruminal prevotella DNAs increased considerably: that of P. ruminicola increased 7-fold and that of P. bryantii increased 263-fold. On day 28, the quantity of P. ruminicola DNA decreased 3-fold, while P. bryantii DNA was still elevated 10-fold in comparison with the level found in animals on the initial hay diet. The DNA specific for another xylanolytic bacterium, E. ruminantium, dropped 14-fold during the diet switch and was maintained at this level on day 28. The concentration of a rumen spirochete, T. bryantii, decreased less profoundly and stabilized with a sevenfold decline by day 28. The variations in A. lipolytica DNA were not statistically significant. After an initial slight increase in S. dextrinosolvens DNA on day 3, this DNA was not detected at the end of the experiment. S. bovis DNA displayed a 67-fold increase during the transition period on day 3. However, on day 28, it actually declined in comparison with the level in animals on the hay ration. The amount of S. ruminantium-M. multiacida DNA also increased eightfold following the diet switch, but stabilized with only a twofold increase on day 28. The real-time PCR technique also uncovered differential amplification of rumen bacterial templates with the set of universal bacterial primers. This observation may explain why some predominant rumen bacteria have not been detected in PCR-generated 16S ribosomal DNA libraries.     

A pepD-like peptidase from the ruminal bacterium, Prevotella albensis

Peptidases of Prevotella spp. play an important role in the breakdown of protein to ammonia in the rumen. This study describes a peptidase cloned from Prevotella albensis M384. DNA from P. albensis was used to complement a peptidase-deficient strain of Escherichia coli, CM107. A cloned fragment, Pep581, which enabled growth of E. coli CM107, contained an ORF of 1452 bp, encoding a 484 amino acid residue protein with a calculated molecular weight of 53.2 kDa and a theoretical pI of 4.90. Pep581 shared similar sequence identity of 47% with PepD from E. coli, and it was also a metallo-aminopeptidase. A putative catalytic metal binding region was identified in Pep581, similar to that found in the related PepT (a tripeptidase) and PepA (an oligopeptidase). Gel filtration indicated Pep581 was a dimer in its native state, similar to PepD of E. coli. PepD is a broad specificity dipeptidase that has been found in several prokaryotes. The enzyme expressed from Pep581 differed from PepD enzymes previously characterised in that it hydrolysed tri- and oligopeptides in addition to dipeptides, cleaving single amino acids from the N terminus.     

High-frequency mobilization of broad-host-range plasmids into Neisseria gonorrhoeae requires methylation in the donor.

Antibiotic resistance in Neisseria gonorrhoeae has been associated with the acquisition of R plasmids from heterologous organisms. The broad-host-range plasmids of incompatibility groups P (IncP) and Q (IncQ) have played a role in this genetic exchange in nature. We have utilized derivatives of RSF1010 (IncQ) and RP1 (IncP) to demonstrate that the plethora of restriction barriers associated with the gonococci markedly reduces mobilization of plasmids from Escherichia coli into strains F62 and PGH 3-2. Partially purified restriction endonucleases from these gonococcal strains can digest RSF1010 in vitro. Protection of RSF1010-km from digestion by gonococcal enzymes purified from strain F62 is observed when the plasmid is isolated from E. coli containing a coresident plasmid, pCAL7. Plasmid pCAL7 produces a 5'-MECG-3' cytosine methylase (M.SssI). The M.SssI methylase only partially protects RSF1010-km from digestion by restriction enzymes from strain PGH 3-2. Total protection of RSF1010-km from PGH 3-2 restriction requires both pCAL7 and a second coresident plasmid, pFnuDI, which produces a 5'-GGMECC-3' cytosine methylase. When both F62 and PGH 3-2 are utilized as recipients in heterospecific matings with E. coli, mobilization of RSF1010 from strains containing the appropriate methylases into the gonococci occurs at frequencies 4 orders of magnitude higher than from strains without the methylases. Thus, protection of RSF1010 from gonococcal restriction enzymes in vitro correlates with an increase in the conjugal frequency. These data indicate that restriction is a major barrier against efficient conjugal transfer between N. gonorrhoeae and heterologous hosts.     

Adaptation to flavomycin in the ruminal bacterium, Prevotella bryantii

Aims:  The recent EU ban of growth-promoting antibiotics in animal production was based on fears concerning antibiotic resistance being transmitted to human pathogens. This paper explores the adaptation mechanism of a common ruminal bacterium, Prevotella bryantii , to one of the banned compounds, flavomycin (flavophospholipol).
Methods and Results:  Growth in the presence of flavomycin (2 and 20  μ g ml⁻¹) was characterized by a concentration-dependent increase in the length of the lag phase, which decreased after previous flavomycin exposure. From growth patterns on solid medium, decreased sensitivity appeared to be due to a whole-population adaptation. Proteomic analysis indicated upregulation of three native proteins occurred following flavomycin adaptation. Further analysis of two of these proteins resulted in no database matches, suggesting that they may be species-specific. Flavomycin adaptation also resulted in co-adaptation to bacitracin and vancomycin.
Conclusions:  Adaptation of P. bryantii to flavomycin, which also resulted in co-adaptation to bacitracin and vancomycin, may involve an increased availability of undecaprenyl pyrophosphate.
Significance and Impact of the Study:  The use of flavomycin, and similar growth-promoting antibiotics, in animal production may prompt adaptive responses in ruminal bacteria which can significantly change their antibiotic sensitivity.