Evidence of Transfer by Conjugation of Type IV Secretion System Genes between Bartonella Species and Rhizobium radiobacter in Amoeba

Background

Bartonella species cospeciate with mammals and live within erythrocytes. Even in these specific niches, it has been recently suggested by bioinformatic analysis of full genome sequences that Lateral Gene Transfer (LGT) may occur but this has never been demonstrated biologically. Here we describe the sequence of the B. rattaustraliani (AUST/NH4^T) circular plasmid (pNH4) that encodes the tra cluster of the Type IV secretion system (T4SS) and we eventually provide evidence that Bartonella species may conjugate and exchange this plasmid inside amoeba.

Principal Findings

The T4SS of pNH4 is critical for intracellular viability of bacterial pathogens, exhibits bioinformatic evidence of LGT among bacteria living in phagocytic protists. For instance, 3 out of 4 T4SS encoding genes from pNH4 appear to be closely related to Rhizobiales, suggesting that gene exchange occurs between intracellular bacteria from mammals (bartonellae) and plants (Rhizobiales). We show that B. rattaustraliani and Rhizobium radiobacter both survived within the amoeba Acanthamoeba polyphaga and can conjugate together. Our findings further support the hypothesis that tra genes might also move into and out of bacterial communities by conjugation, which might be the primary means of genomic evolution for intracellular adaptation by cross-talk of interchangeable genes between Bartonella species and plant pathogens.

Conclusions

Based on this, we speculate that amoeba favor the transfer of genes as phagocytic protists, which allows for intraphagocytic survival and, as a consequence, promotes the creation of potential pathogenic organisms.     

Development of a population for substantial new type Brassica napus diversified at both A/C genomes

Intersubgenomic heterosis in rapeseed has been revealed in previous studies by using traditional Brassica napus (AⁿAⁿCⁿCⁿ) to cross partial new type B. napus with A^r/C^c introgression from the genomes of B. rapa and B. carinata, respectively. To further enlarge the genetic basis of B. napus and to facilitate a sustained heterosis breeding in rapeseed, it is crucial to create a population for substantial new type B. napus diversified at both A/C genomes. In this experiment, hundreds of artificial hexaploid plants (A^rA^rB^cB^cC^cC^c) involving hundreds of B. carinata/B. rapa combinations were first crossed with elite lines of partial new type B. napus. The pentaploid plants (AABCC) were open-pollinated in isolated conditions, and their offspring were successively self-pollinated and intensively selected for two generations. Thereafter, a population of substantial new type B. napus mainly with a genomic composition of A^rA^rC^cC^c harbouring genetic diversity from 25 original cultivars of B. rapa and 72 accessions of B. carinata was constructed. The population was cytologically verified to have the correct chromosome constitution of AACC and differed genetically from traditional B. napus, in terms of the genome components of A^r/C^c and B^c as well as the novel genetic variations induced by the interspecific hybridisation process. Synchronously, rich phenotypic variation with plenty of novel valuable traits was observed in the population. The origin of the novel variations and the value of the population are discussed.     

Absorption and mobility of foliar-applied boron in soybean as affected by plant boron status and application as a polyol complex

In the present study (i) the impact of plant Boron (B) status on foliar B absorption and (ii) the effect of B complexation with polyols (sorbitol or mannitol) on B absorption and translocation was investigated. Soybean (Glycine max (L.) Meer.) plants grown in nutrient solution containing 0 ??M, 10 ??M, 30 ??M or 100 ??M ¹¹B labelled boric acid (BA) were treated with 50 mM ¹⁰B labelled BA applied to the basal parts of two leaflets of one leaf, either pure or in combination with 500 mM sorbitol or mannitol. After one week, ¹⁰B concentrations in different plant parts were determined. In B deficient leaves (0 ??M ¹¹B), ¹⁰B absorption was significantly lower than in all other treatments (9.7% of the applied dose vs. 26%?C32%). The application of BA in combination with polyols increased absorption by 18?C25% as compared to pure BA. The absolute amount of applied ¹⁰B moving out of the application zone was lowest in plants with 0 ??M ¹¹B supply (1.1% of the applied dose) and highest in those grown in 100 ??M ¹¹B (2.8%). The presence of sorbitol significantly decreased the share of mobile ¹⁰B in relation to the amount absorbed. The results suggest that ¹¹B deficiency reduces the permeability of the leaf surface for BA. The addition of polyols may increase ¹⁰B absorption, but did not improve ¹⁰B distribution within the plant, which was even hindered when applied a sorbitol complex.     

Evidence for a third,Ir-associated histocompatibility region in theH-2 complex of the mouse

Skin grafts transplanted from B10.HTT donors onto (A.TL × B10)F₁ recipients are rapidly rejected despite the fact that the B10.HTT and A.TL strains should be carrying the sameH-2 chromosomes and that both the donor and the recipient contain the B10 genome. The rejection is accompanied by a production of cytotoxic antibodies against antigens controlled by theIr region of theH-2 complex. These unexpected findings are interpreted as evidence for a third histocompatibility locus in theH-2 complex,H-2I, located in theIr region close toH-2K. The B10.HTT and A.TL strains are postulated to differ at this hypothetical locus, and the difference between the two strains is explained as resulting from a crossing over between theH-2 ^t1 andH-2 ^s chromosomes in the early history of the B10.HTT strain. TheH-2 genotypes of the B10.HTT and A.TL strains are assumed to beH-2K ^s Ir ^s / ^k Ss ^k H-2D ^d andH-2K ^s Ir ^k Ss ^k H-2D ^d , respectively. Thus, theH-2 chromosomes of the two strains differ only in a portion of theIr region, including theH-2I locus. The B10.HTT(H-2 ^tt) and B10.S(7R)(H-2 ^th) strains differ in a relatively minor histocompatibility locus, possibly residing in theTla region outside of theH-2 complex.     

A Highlights from MBoC Selection: Reciprocal knock-in mice to investigate the functional redundancy of lamin B1 and lamin B2

Lamins B1 and B2 (B-type lamins) have very similar sequences and are expressed ubiquitously. In addition, both Lmnb1- and Lmnb2-deficient mice die soon after birth with neuronal layering abnormalities in the cerebral cortex, a consequence of defective neuronal migration. The similarities in amino acid sequences, expression patterns, and knockout phenotypes raise the question of whether the two proteins have redundant functions. To investigate this topic, we generated “reciprocal knock-in mice”—mice that make lamin B2 from the Lmnb1 locus (Lmnb1^B2/B2) and mice that make lamin B1 from the Lmnb2 locus (Lmnb2^B1/B1). Lmnb1^B2/B2 mice produced increased amounts of lamin B2 but no lamin B1; they died soon after birth with neuronal layering abnormalities in the cerebral cortex. However, the defects in Lmnb1^B2/B2 mice were less severe than those in Lmnb1-knockout mice, indicating that increased amounts of lamin B2 partially ameliorate the abnormalities associated with lamin B1 deficiency. Similarly, increased amounts of lamin B1 in Lmnb2^B1/B1 mice did not prevent the neurodevelopmental defects elicited by lamin B2 deficiency. We conclude that lamins B1 and B2 have unique roles in the developing brain and that increased production of one B-type lamin does not fully complement loss of the other.     

Bradyrhizobium valentinum sp. nov., isolated from effective nodules of Lupinus mariae-josephae, a lupine endemic of basic-lime soils in Eastern Spain

Bacterial strains isolated from nitrogen-fixing nodules of Lupinus mariae-josephae have been characterized following genetic, phenotypic and symbiotic approaches. Analysis of 16S rRNA genes placed them in a group together with Bradyrhizobium elkanii USDA 76^T, B. pachyrhizi PAC48^T, B. jicamae PAC68^T, ‘B. retamae’ Ro19^T and B. lablabi CCBAU 23086^T with over 99.0% identity. Phylogenetic analysis of concatenated housekeeping genes, recA, atpD and glnII, suggested that L. mariae-josephae strains represent a new Bradyrhizobium species, closely related to B. lablabi CCBAU 23086^T, B. jicamae PAC68^T and ‘B. retamae’ Ro19^T with 92.1, 91.9 and 90.8% identity, respectively. These results are consistent with overall genomic identities calculated as Average Nucleotide Identity (ANIm) using draft genomic sequences obtained for relevant strains. While L. mariae-josephae strains LmjM3^T/LmjM6 exhibited a 99.2% ANIm value, they were significantly distant (<93% ANIm) from type strains of their closest species (‘B. retamae’ Ro19^T, B. lablabi CCBAU 23086^T and B. jicamae PAC68^T). Whole-cell matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (WC-MALDI-TOF-MS) analysis of proteomic patterns of the same strains was consistent with these results. The symbiosis-related genes nodC, nodA and nifH genes from strains nodulating L. mariae-josephae were phylogenetically related to those from ‘B. retamae’ Ro19^T, but divergent from those of strains that nodulate other lupine species. Based on genetic, genomic, proteomic and phenotypic data presented in this study, L. mariae-josephae nodulating strains LmjM3^T, LmjM6 and LmjM2 should be grouped within a new species for which the name Bradyrhizobium valentinum sp. nov. is proposed (type strain LmjM3^T = CECT 8364^T, LMG 2761^T)     

Edwardsiella ictaluri in a Colony of Zebrafish (Danio rerio) Used in a Teaching Laboratory

A small colony of zebrafish (Danio rerio) experienced 30% acute mortality within a few days after receipt from a commercial source. A few fish presented with small areas of raised scales or tissue necrosis, primarily near the caudal peduncle. Edwardsiella ictaluri (E. ictaluri) was identified by real-time PCR of pooled zebrafish and swabs of the pre-filter and fine filter pads, with subsequent sequence analysis. E. ictaluri is most commonly associated with an enteric septicemia in catfish species and can have significant economic impact on commercial catfish fisheries. However, several references report naturally occurring E. ictaluri infection of nonictalurid fishes, including zebrafish. Ours is the first report demonstrating the use of environmental sampling to identify E. ictaluri in a zebrafish colony by real-time PCR. Moreover, our report indicates that E. ictaluri is a relevant disease for institutions using zebrafish as research species and emphasizes the importance of carefully considering importation and quarantine practices.

Edwardsiella ictaluri (E. ictaluri) is a gram-negative facultative intracellular bacterium, known primarily for its economic impact in catfish (Ictalurus spp.) aquaculture in the United States. E. ictaluri is the causative agent for Enteric Septicemia of Catfish (ESC), or Hole-in-the-Head disease of catfish, and is one of the most commonly reported diseases by US catfish producers.^6,17,22,25 The significant economic impact of ESC has driven ongoing research and development of various vaccines administered through immersion and feeding.^17,22,39 Disease transmission among fish occurs by direct contact through the fecal-oral route, nasal passages, and gills.^6,12,17 In catfish, E. ictaluri infection can present as areas of hemorrhage around the base of fins, skin ulceration in various locations, bulging eyes, and a distended abdomen, with mortality of 10 to 50% in populations of pond-raised channel catfish (Ictalurus punctatus).^6,12 Nonictalurid fish that are susceptible to spontaneous infection are phylogenetically diverse. These species of fish include: Ayu (Plecoglossus altevelis),³⁴ Bengal danios (Devario devario),³⁸ green knifefish (Eigemannia virescens),¹⁶ a red-bellied piranha (Pygocentris nattereri),¹⁹ Nile tilapia (Oreochromis niloticus),³⁷ and hybrid red tilapia (Oreochromis sp.).⁷ Naturally occurring epizootics have been reported in 3 laboratory zebrafish colonies,¹² and since 2013 IDEXX BioAnalytics has identified E. ictaluri as the cause of morbidity and mortality in zebrafish colonies from 6 institutions. Clinical presentation of edwardsiellosis caused by E. ictaluri in zebrafish can include tissue necrosis, abdominal distention, general lethargy, raised scales, and skin hemorrhage, although acute mortality without clinical signs is also common.^12,26 The disease is generally systemic. A number of organs can be affected including the kidney, spleen, and brain with large quantities of bacteria present, often located within macrophages. ¹² Experimental E. ictaluri infections have also been described in many nonictalurid hosts such as rainbow trout (Oncorhynchus mykiss), Chinook salmon (Oncorhynchus tshawytscha),³ and blue tilapia (Oreochromis aureus).²⁸ Zebrafish have been used as an experimental model for ESC.^14,26,33,36 This article describes an outbreak of Edwardsiella ictaluri in zebrafish purchased for use in undergraduate studies. The diagnosis was based on clinical signs, identification of E. ictaluri by real-time PCR in both clinically diseased fish and environmental samples from the tank filter, and sequence analysis. To our knowledge, this is the first report demonstrating the use of environmental sampling to identify Edwardsiella ictaluri in a colony of zebrafish.     

Muscle Contraction : (Outline Studies in Biology) by C.R. Bagshaw Chapman & Hall; London,New York, 1982 79 pages. £2.75

On incubation of B. subtilis RM125(arg15 leuA8 r_M^? m_M^?) with DNA from alkalophilic Bacillus, the transformants (Arg⁺Leu^? or Leu^?Arg⁺) appeared at pH 10. The transformants were able to grow even at pH 7. Alkalophilic Bacillus was resistant to bacteriophages π105D1C2·1012 grown on B. subtilis 1012(r^-m_M⁺) and π105D1C2·ISMR4 grown on B. subtilis ISMR4r_M⁺r_R⁺m_M⁺m_R⁺), but the recipient B. subtilis and the transformant(Arg⁺Leu^?) were susceptible to both the of the bacteriophages. The results indicate that the transformant is a B. subtilis derivative and that alkalophilicity of alkalophilic Bacillus was transferred to B. subtilis.     

Semisynthetic analogues of insulin. The use of N-substituted derivatives of methionine as acid-stable protecting groups

1. We describe the use of benzyloxycarbonylmethionine and ethoxycarbonylmethionine for the selective protection of the amino groups of glycine-A1 and lysine-B29 of pig insulin. We have used the Edman method to remove residues from the N-terminal and of the B-chain of the N^A1N^B29-di-protected derivatives. The benzyloxycarbonyl group shows slight but noticeable lability in the acid-cleavage step, but the ethoxycarbonyl group remained intact even after five cycles of degradation. 2. We have prepared the following truncated forms of insulin via the di(ethoxycarbonylmethionyl) derivative: des-Phe^B1-insulin;des-(Phe^B1-Val^B2)-insulin; des-(Phe^B1-Val^B2-Asn^B3)-insulin;des- (Phe^B1-Val^B2-Asn^B3-Gln^B4)-insulin; des-(Phe^B1-Val^B2-Asn^B3 -Gln^B4-His^B5)-insulin. 3. Insulin was re-synthesized from the di-protected des-Phe^B1-insulin by reaction with an active ester of t-butoxycarbonyl-l-phenylalanine. The product after deprotection crystallized, and the immunoreactivity of the crystalline material was identical with that of the native protein. 4. We have prepared the following analogues of insulin in a similar manner: [l-Ala^B1]insulin; [l-Val^B1]insulin; [l-Tyr^B1]insulin; [m-F-l-Phe^B1]insulin; [o-F-l-Phe^B1]-insulin; [o-F-l-Phe^B2]des-Phe^B1-insulin. All had between 34 and 62% of the activity of insulin in the fat-cell test. 5. We have also investigated the use of the benzyol, toluene-p-sulphonyl, p-nitrobenzyloxycarbonyl and 2,4-dinitrophenyl groups for the N-protection of the methionine active esters. Each should have had some particular advantage over the benzyloxycarbonyl and ethoxycarbonyl groups, but all proved in practice to have disadvantages that more than outweighed anything in their favour.     

A spontaneous mutation in the nicotinamide nucleotide transhydrogenase gene of C57BL/6J mice results in mitochondrial redox abnormalities

NADPH is the reducing agent for mitochondrial H₂O₂ detoxification systems. Nicotinamide nucleotide transhydrogenase (NNT), an integral protein located in the inner mitochondrial membrane, contributes to an elevated mitochondrial NADPH/NADP⁺ ratio. This enzyme catalyzes the reduction of NADP⁺ at the expense of NADH oxidation and H⁺ reentry to the mitochondrial matrix. A spontaneous Nnt mutation in C57BL/6J (B6J-Nnt^MUT) mice arose nearly 3 decades ago but was only discovered in 2005. Here, we characterize the consequences of the Nnt mutation on the mitochondrial redox functions of B6J-Nnt^MUT mice. Liver mitochondria were isolated both from an Nnt wild-type C57BL/6 substrain (B6JUnib-Nnt^W) and from B6J-Nnt^MUT mice. The functional evaluation of respiring mitochondria revealed major redox alterations in B6J-Nnt^MUT mice, including an absence of transhydrogenation between NAD and NADP, higher rates of H₂O₂ release, the spontaneous oxidation of NADPH, the poor ability to metabolize organic peroxide, and a higher susceptibility to undergo Ca²⁺-induced mitochondrial permeability transition. In addition, the mitochondria of B6J-Nnt^MUT mice exhibited increased oxidized/reduced glutathione ratios as compared to B6JUnib-Nnt^W mice. Nonetheless, the maximal activity of NADP-dependent isocitrate dehydrogenase, which is a coexisting source of mitochondrial NADPH, was similar between both groups. Altogether, our data suggest that NNT functions as a high-capacity source of mitochondrial NADPH and that its functional loss due to the Nnt mutation results in mitochondrial redox abnormalities, most notably a poor ability to sustain NADP and glutathione in their reduced states. In light of these alterations, the potential drawbacks of using B6J-Nnt^MUT mice in biomedical research should not be overlooked.     

Bacillus anthracis Diverges from Related Clades of the Bacillus cereus Group in 16S-23S Ribosomal DNA Intergenic Transcribed Spacers Containing tRNA Genes

Mung bean nuclease treatment of 16S-23S ribosomal DNA intergenic transcribed spacers (ITS) amplified from several strains of the six species of the Bacillus cereus group showed that B. anthracis Davis TE702 and B. mycoides G2 have other intermediate fragments in addition to the 220- and 550-bp homoduplex fragments typical of the B. cereus group. Long and intermediate homoduplex ITS fragments from strains Davis TE702 and G2 and from another 19 strains of the six species were sequenced. Two main types of ITS were found, either with two tRNA genes (tRNA^Ile and tRNA^Ala) or without any at all. Strain Davis TE702 harbors an additional ITS with a single tRNA gene, a hybrid between the tRNA^Ile and tRNA^Ala genes, suggesting that a recombination event rather than a deletion generated the single tDNA-containing ITS. Strain G2 showed an additional ITS of intermediate length with no tDNA and no similarity to other known sequences. Neighbor-joining analysis of tDNA-containing long ITS indicated that B. cereus and B. thuringiensis represent a single clade. Three signature sequences discriminated B. anthracis from B. cereus and B. thuringiensis, indicating that the anthrax agent started evolving separately from the related clades of the B. cereus group. B. mycoides and B. weienstephanensis were very closely related, while B. pseudomycoides appeared the most distant species.     

H-2-linked control of resistance to Ectromelia virus infection in 1310 congenic mice

Several B 10 strains of mice, recombinant at theH-2 locus, have been shown to differ in their resistance to infection with ectromelia virus, a natural mouse pathogen. Of 10 strains, 1310, B 10.A(2R), B10.A(4R) and B10.D2 were the most resistant, while B10.G and B 10.A(5R) were the most susceptible. Other strains were intermediate between these extremes. Several genes conferring resistance have been mapped toD ^b in B10.A(2R),K ^k I-A ^k I-B ^k in B10.A,I-J ^b in B10.A(2R) and toD ^d in B 10.T(6R). In general, death among susceptible strains was not a consequence of acute liver necrosis as in other non-B10 strains, and occurred randomly from 8–14 days after infection. The exact cause of death is unknown but is characterized by persisting high titers of virus in the spleen and sometimes the liver, despite an ongoing immune response indicated by strong cytotoxic T-cell activity detectable in the spleens of all mice. The most resistant B10 and B10.A(2R) strains cleared virus from the spleen and liver by 8 days after infection. Analysis of infection in chimeric mice indicates thatH-2 genes, which determine susceptibility to virus persistence in the spleen, operate via radiosensitive cells of the lymphomyeloid system. This evidence, together with several examples ofH-2-linked differences in cytotoxic T-cell responsiveness between resistant and susceptible strains, is consistent with the hypothesis that the mechanism by whichH-2 genes control resistance to ectromelia virus in B10 strain mice is by their influence on the effectiveness of a cell-mediated immune response.     

Description of Bacillus toyonensis sp. nov., a novel species of the Bacillus cereus group,and pairwise genome comparisons of the species of the group by means of ANI calculations

Strain BCT-7112^T was isolated in 1966 in Japan from a survey designed to obtain naturally occurring microorganisms as pure cultures in the laboratory for use as probiotics in animal nutrition. This strain, which was primarily identified as Bacillus cereus var toyoi, has been in use for more than 30 years as the active ingredient of the preparation TOYOCERIN^®, an additive for use in animal nutrition (e.g. swine, poultry, cattle, rabbits and aquaculture). Despite the fact that the strain was initially classified as B. cereus, it showed significant genomic differences from the type strains of the B. cereus group that were large enough (ANI values below 92%) to allow it to be considered as a different species within the group. The polyphasic taxonomic study presented here provides sufficient discriminative parameters to classify BCT-7112^T as a new species for which the name Bacillus toyonensis sp. nov. is proposed, with BCT-7112^T (=CECT 876^T; =NCIMB 14858^T) being designated as the type strain. In addition, a pairwise comparison between the available genomes of the whole B. cereus group by means of average nucleotide identity (ANI) calculations indicated that besides the eight classified species (including B. toyonensis), additional genomospecies could be detected, and most of them also had ANI values below 94%. ANI values were on the borderline of a species definition only in the cases of representatives of B. cereus versus B. thuringiensis, and B. mycoides and B. weihenstephanensis.     

Lipopolysaccharides-Induced Suppression of Innate-Like B Cell Apoptosis Is Enhanced by CpG Oligodeoxynucleotide and Requires Toll-Like Receptors 2 and 4

Innate-like B lymphocytes play an important role in innate immunity in periodontal disease through Toll-like receptor (TLR) signaling. However, it is unknown how innate-like B cell apoptosis is affected by the periodontal infection-associated innate signals. This study is to determine the effects of two major TLR ligands, lipopolysaccharide (LPS) and CpG-oligodeoxynucleotides (CpG-ODN), on innate-like B cell apoptosis. Spleen B cells were isolated from wild type (WT), TLR2 knockout (KO) and TLR4 KO mice and cultured with E. coli LPS alone, P. gingivalis LPS alone, or combined with CpG-ODN for 2 days. B cell apoptosis and expressions of specific apoptosis-related genes were analyzed by flow cytometry and real-time PCR respectively. P. gingivalis LPS, but not E. coli LPS, reduced the percentage of AnnexinV⁺/7-AAD^- cells within IgM^highCD23^lowCD43^-CD93^- marginal zone (MZ) B cell sub-population and IgM^highCD23^lowCD43⁺CD93⁺ innate response activator (IRA) B cell sub-population in WT but not TLR2KO or TLR4KO mice. CpG-ODN combined with P. gingivalis LPS further reduced the percentage of AnnexinV⁺/7-AAD^- cells within MZ B cells and IRA B cells in WT but not TLR2 KO or TLR4 KO mice. Pro-apoptotic CASP4, CASP9 and Dapk1 were significantly down-regulated in P. gingivalis LPS- and CpG-ODN-treated B cells from WT but not TLR2 KO or TLR4 KO mice. Anti-apoptotic IL-10 was significantly up-regulated in P. gingivalis LPS- and CpG-ODN-treated B cells from WT and TLR2 KO but not TLR4 KO mice. These results suggested that both TLR2 and TLR4 signaling are required for P. gingivalis LPS-induced, CpG-ODN-enhanced suppression of innate-like B cell apoptosis.     

Early lethality of β-1,4-galactosyltransferase V-mutant mice by growth retardation

The β-1,4-galactosyltransferase (β-1,4-GalT) V whose human and mouse genes were cloned by us has been suggested to be involved in the biosynthesis of N-glycans and O-glycans, and lactosylceramide. To determine its biological function, β-1,4-GalT V (B4galt5) mutant mice obtained by a gene trap method were analyzed. Analysis of pre- and post-implantation embryos revealed that the B4galt5^−/− mice die by E10.5 while B4galt5^+/− mice were born and grown normally. Histological study showed that most tissues are formed in B4galt5^−/− embryos but their appearance at E10.5 is close to that of B4galt5^+/− embryos at E9.0-9.5. The results indicate that the growth is delayed by one to one and half day in B4galt5^−/− embryos when compared to B4galt5^+/− embryos, which results in early death of the embryos by E10.5, probably due to hematopoietic and/or placental defects.     

Oral Immunization of Mice with Gamma-Irradiated Brucella neotomae Induces Protection against Intraperitoneal and Intranasal Challenge with Virulent B. abortus 2308

Brucella spp. are Gram-negative, facultative intracellular coccobacilli that cause one of the most frequently encountered zoonosis worldwide. Humans naturally acquire infection through consumption of contaminated dairy and meat products and through direct exposure to aborted animal tissues and fluids. No vaccine against brucellosis is available for use in humans. In this study, we tested the ability of orally inoculated gamma-irradiated B. neotomae and B. abortus RB51 in a prime-boost immunization approach to induce antigen-specific humoral and cell mediated immunity and protection against challenge with virulent B. abortus 2308. Heterologous prime-boost vaccination with B. abortus RB51 and B. neotomae and homologous prime-boost vaccination of mice with B. neotomae led to the production of serum and mucosal antibodies specific to the smooth LPS. The elicited serum antibodies included the isotypes of IgM, IgG1, IgG2a, IgG2b and IgG3. All oral vaccination regimens induced antigen-specific CD4⁺ and CD8⁺ T cells capable of secreting IFN-γ and TNF-α. Upon intra-peritoneal challenge, mice vaccinated with B. neotomae showed the highest level of resistance against virulent B. abortus 2308 colonization in spleen and liver. Experiments with different doses of B. neotomae showed that all tested doses of 10⁹, 10¹⁰ and 10¹¹ CFU-equivalent conferred significant protection against the intra-peritoneal challenge. However, a dose of 10¹¹ CFU-equivalent of B. neotomae was required for affording protection against intranasal challenge as shown by the reduced bacterial colonization in spleens and lungs. Taken together, these results demonstrate the feasibility of using gamma-irradiated B. neotomae as an effective and safe oral vaccine to induce protection against respiratory and systemic infections with virulent Brucella.     

Effects of intergenic interaction of high pigmentation hp-2 dg gene (high pigment-2 dark green gene) with B (beta carotene) gene in tomato

It is shown that an effect of hyperexpressivity which activates biogenesis of β-carotene in tomato fruit manifests itself in intergenic interaction of the two genes hp-2 ^dg and B in dihomozygotes. The positive influence of the gene hp-2 ^dg on the content of ascorbic acid and the negative influence of this gene on the content of titrated acids is preserved in the genotype B/B//hp-2 ^dg /hp-2 ^dg . Stabilization of genetic depression of the hp-2 ^dg gene, which manifests itself in a higher productivity of B/B//hp-2 ^dg /hp-2 ^dg genotypes, is also observed.     

Centromeric localization of an S-RNase gene in Petunia hybrida Vilm.

S-RNase has been identified to be an S-allele-specific stylar determinant contributing to the self-incompatibility response in Solanaceae. In order to examine the physical location of the S-RNase gene, multi-color fluorescence in situ hybridization (FISH) using the S ^B1 -RNase cDNA probe and ribosomal RNA gene (rDNA) probe was performed on an S ^B1 S ^B2 heterozygote of Petunia hybrida. The S ^B1 -RNase gene was detected as a doublet signal close to the centromere of chromosome III. Next, we performed FISH using a large genome probe prepared from a λSB1–311 clone (20 kb) which contains the S ^B1 -RNase gene and its 3′ flanking region. This probe hybridized to the centromeric regions of all P. hybrida chromosomes. Sequence analysis of the λSB1–311 clone revealed the presence of a repetitive sequence consisting of a novel 666 bp unit sequence. A subclone (pBS-SB1B5) containing this unit sequence also hybridized to all of the centromeric regions, confirming that this unit is the centromeric specific repetitive sequence. These data suggested that the S ^B1 -RNase gene is located very close to (within a distance of 12 kb from) the centromeric-specific repetitive sequence. Likewise, the pBS-SB1B5 probe hybridized to the centromeric regions of all chromosomes in P. littoralis, another Petunia species. However, the probe did not hybridize to the centromere of the chromosomes from other species in Solanaceae. These results suggested that this centromeric repetitive sequence might be a genus-specific one. Received: 3 December 1998 / Accepted: 8 December 1998<@head-com-p1a.lf>Communicated by F. Mechelke     

A Sunflower Lectin with Antifungal Properties and Putative Medical Mycology Applications

Using a new culture method for unculturable soil bacteria, we discovered a novel species, NHI-38^T, from the forest soil of Kyonggi University campus, South Korea. It was a Gram-positive, rod-shaped, and endospore-forming bacterial strain. It grew over a wide pH range (6.5–9.5), with an optimum range of pH 7–9, and in a wide range of temperatures (15–60 °C), with an optimum range of 35–45 °C. Growth was possible at 0–2 % NaCl concentration, and the optimal range was between 0.5 and 1.5 % NaCl. Phylogenetic analysis based on 16S rRNA gene sequences showed that this new species clustered within the genus Bacillus; it was closely related to “Bacillus abyssalis” SCSIO 15042^T (98.86 %), B. methanolicus NCIMB 13113^T (95.97 %), B. vietnamensis 15-1^T (95.8 %), B. seohaeanensis BH724^T (95.5 %), B. timonensis MM10403188^T (95.33 %), and B. subtilis subsp. subtilis NCIB 3610^T (94.87 %). The main fatty acid components of this bacterium were iso-C_15:0 (35.92 %), summed feature 3 (C_16:1ω7c/C_16:1ω6c; 16.92 %), and anteiso-C_15:0 (14.19 %). The predominant quinone in this bacterial strain was MK-7. The polar lipid profile primarily comprised phosphatidylethanolamine, phosphatidylglycerol, and diphosphatidylglycerol. The genomic DNA G+C composition of the isolate was 40.7 mol%. The DNA–DNA hybridization results indicated that this strain was distinct from other Bacillus species, the degree of similarity being 50 % with “B. abyssalis”, 56 % with B. methanolicus, 47 % with B. vietnamensis, 43 % with B. seohaeanensis, 46 % with B. timonensis, and 32 % with B. subtilis. Based on our results, we regard strain NHI-38^T as a novel member of the Bacillus genus, and we propose the name Bacillus thaonhiensis (=KACC 17216^T = KEMB 9005-019^T = JCM 18863^T).