Genomic characterization of three novel Basilisk-like phages infecting Bacillus anthracis.

BACKGROUND: In the present study, we sequenced the complete genomes of three novel bacteriophages v_B-Bak1, v_B-Bak6, v_B-Bak10 previously isolated from historical anthrax burial sites in the South Caucasus country of Georgia. We report here major trends in the molecular evolution of these phages, which we designate as "Basilisk-Like-Phages" (BLPs), and illustrate patterns in their evolution, genomic plasticity and core genome architecture. RESULTS: Comparative whole genome sequence analysis revealed a close evolutionary relationship between our phages and two unclassified Bacillus cereus group phages, phage Basilisk, a broad host range phage (Grose JH et al., J Vir. 2014;88(20):11846-11860) and phage PBC4, a highly host-restricted phage and close relative of Basilisk (Na H. et al. FEMS Microbiol. letters. 2016;363(12)). Genome comparisons of phages v_B-Bak1, v_B-Bak6, and v_B-Bak10 revealed significant similarity in sequence, gene content, and synteny with both Basilisk and PBC4. Transmission electron microscopy (TEM) confirmed the three phages belong to the Siphoviridae family. In contrast to the broad host range of phage Basilisk and the single-strain specificity of PBC4, our three phages displayed host specificity for Bacillus anthracis. Bacillus species including Bacillus cereus, Bacillus subtilis, Bacillus anthracoides, and Bacillus megaterium were refractory to infection. CONCLUSIONS: Data reported here provide further insight into the shared genomic architecture, host range specificity, and molecular evolution of these rare B. cereus group phages. To date, the three phages represent the only known close relatives of the Basilisk and PBC4 phages and their shared genetic attributes and unique host specificity for B. anthracis provides additional insight into candidate host range determinants.

Correction to: Genomic characterization of three novel Basilisk-like phages infecting Bacillus anthracis.

Following the publication of this article [1], the authors noted two typographical errors: one in Table 1 with regard to the location of the Basilisk Phage, which was incorrectly captured as "Kutaisis, country of Georgia Utah, USA" but should be "Utah, USA".

EPIDEMIOLOGY AND MOLECULAR TYPING OF BRUCELLA STRAINS CIRCULATING IN GEORGIA.

In 2009-2013, 851 cases of brucellosis were registered in Georgia. Most cases of brucellosis were found in eastern Georgia (91.3% of cases). Mainly men were infected with brucellosis (81.0%).The age group with the most frequent cases of brucellosis is 30-59 years (48.5%). Brucellosis is rarely found among children(0-4 years - 2.0%, 5-14 years - 8.0%). Brucellosis cases were linked to professional activity; mainly by farmers (33.0% of those infected) and shepherds (27.0%). Biotyping Brucella by microbiological methods alone has limitations, so molecular typing was implemented in this study to confirm species. Isolates from human blood and ruminant milk or blood were identified by a bacteriological algorithm and confirmed by real-time PCR (Brucella T1, Idaho Technology). Species identity was confirmed using the AMOS conventional PCR assay, which differentiates four human pathogenic species but cannot recognize certain biovars within them. This gap was addressed by using more universal species-specific Single Nucleotide Polymorphism (SNP) assays. Real-time PCR was used to confirm 86 Brucella strains (48 human, 38 animal isolates) obtained 2009-2011. AMOS PCR supported the biochemical test results for 53 B. melitensis and four B. abortus strains, but not for 29 suspected B. abortus human and animal isolates. SNP typing of all 86 isolates supported the AMOS PCR results but also confirmed the species of the 29 strains not amplified by AMOS PCR. In 2009-2013 years the prevalence of brucellosis was still high. Nowadays cases of brucellosis are higher in the western part of Georgia than in the 1991-2005 period by a factor of 2.62. Brucellosis continues to be mainly an infection in males, because men are mostly engaged in sheep and cattle care. Combined AMOS PCR and SNP typing in this study provided the first genetic confirmation that both B. abortus and B. melitensis are actively circulating in humans and animals in Georgia.

Molecular analysis of imipenem-resistant Acinetobacter baumannii isolated from US service members wounded in Iraq, 2003-2008.

Global dissemination of imipenem-resistant (IR) clones of Acinetobacter baumannii - A. calcoaceticus complex (ABC) have been frequently reported but the molecular epidemiological features of IR-ABC in military treatment facilities (MTFs) have not been described. We characterized 46 IR-ABC strains from a dataset of 298 ABC isolates collected from US service members hospitalized in different US MTFs domestically and overseas during 2003-2008. All IR strains carried the bla(OXA-51) gene and 40 also carried bla(OXA-23) on plasmids and/or chromosome; one carried bla(OXA-58) and four contained ISAbal located upstream of bla(OXA-51). Strains tended to cluster by pulsed-field gel electrophoresis profiles in time and location. Strains from two major clusters were identified as international clone I by multilocus sequence typing.

Methicillin-resistant Staphylococcus aureus infection in combat support hospitals in three regions of Iraq.

SUMMARYStaphylococcus aureus is a leading cause of infections in deployed service members. Based on a molecular epidemiological study of 182 MRSA isolates from patients in three U.S. Army combat support hospitals in separate regions in Iraq, USA300 clone was the most predominant (80%) pulsotype. This finding suggested that strain carriage from the home country by military personnel is epidemiologically more important than local acquisition.

Deletion of wboA enhances activation of the lectin pathway of complement in Brucella abortus and Brucella melitensis.

Brucella spp. are gram-negative intracellular pathogens that survive and multiply within phagocytic cells of their hosts. Smooth organisms present O polysaccharides (OPS) on their surface. These OPS help the bacteria avoid the bactericidal action of serum. The wboA gene, coding for the enzyme glycosyltransferase, is essential for the synthesis of O chain in Brucella. In this study, the sensitivity to serum of smooth, virulent Brucella melitensis 16M and B. abortus 2308, rough wboA mutants VTRM1, RA1, and WRR51 derived from these two Brucella species, and the B. abortus vaccine strain RB51 was assayed using normal nonimmune human serum (NHS). The deposition of complement components and mannose-binding lectin (MBL) on the bacterial surface was detected by flow cytometry. Rough B. abortus mutants were more sensitive to the bactericidal action of NHS than were rough B. melitensis mutants. Complement components were deposited on smooth strains at a slower rate compared to rough strains. Deposition of iC3b and C5b-9 and bacterial killing occurred when bacteria were treated with C1q-depleted, but not with C2-depleted serum or NHS in the presence of Mg-EGTA. These results indicate that (i) OPS-deficient strains derived from B. melitensis 16M are more resistant to the bactericidal action of NHS than OPS-deficient strains derived from B. abortus 2308, (ii) both the classical and the MBL-mediated pathways are involved in complement deposition and complement-mediated killing of Brucella, and (iii) the alternative pathway is not activated by smooth or rough brucellae.

Protection of mice against brucellosis by vaccination with Brucella melitensis WR201(16MDeltapurEK).

Human brucellosis can be acquired from infected animal tissues by ingestion, inhalation, or contamination of the conjunctiva or traumatized skin by infected animal products. A vaccine to protect humans from occupational exposure or from zoonotic infection in areas where the disease is endemic would reduce an important cause of morbidity worldwide. Vaccines currently used in animals are unsuitable for human use. We tested a live, attenuated, purine-auxotrophic mutant strain of Brucella melitensis, WR201, for its ability to elicit cellular and humoral immune responses and to protect mice against intranasal challenge with B. melitensis 16M. Mice inoculated intraperitoneally with WR201 made serum antibody to lipopolysaccharide and non-O-polysaccharide antigens. Splenocytes from immunized animals released interleukin-2 (IL-2), gamma interferon, and IL-10 when cultured with Brucella antigens. Immunization led to protection from disseminated infection but had only a slight effect on clearance of the challenge inoculum from the lungs. These studies suggest that WR201 should be further investigated as a vaccine to prevent human brucellosis.

Characterization of a new type of Bacteroides conjugative transposon, Tcr Emr 7853.

Results of previous investigations suggested that the conjugative transposons found in human colonic Bacteroides species were all members of a closely related family of elements, exemplified by Tcr Emr DOT. We have now found a new type of conjugative transposon, Tcr Emr 7853, that does not belong to this family. Tcr Emr 7853 has approximately the same size as the Tcr Emr DOT-type elements (70 to 80 kbp) and also carries genes encoding resistance to tetracycline (Tcr) and erythromycin (Emr); however, it differs from previously described conjugative transposons in a number of ways. Its transfer is not regulated by tetracycline and its transfer genes are not controlled by the regulatory genes rteA and rteB, which are found on Tcr Emr DOT and related conjugative transposons. Its ends do not cross-hybridize with the ends of Tcr Emr DOT-type conjugative transposons, and the Emr gene it carries does not cross-hybridize with ermF, the Emr gene found on all previously studied Bacteroides conjugative transposons. There is only one region with high sequence similarity between Tcr Emr 7853 and previously characterized elements, the region that contains the Tcr gene, tetQ. This sequence similarity ends 145 bp upstream of the start codon and 288 bp downstream from the stop codon. A 2-kbp region upstream of tetQ on Tcr Emr 7853 cross-hybridized with four additional EcoRV fragments of Bacteroides thetaiotaomicron 7853 DNA other than the one that contained tetQ. These additional cross-hybridizing bands were not part of Tcr Emr 7853, but one of them cotransferred with Tcr Emr 7853 in some matings. Thus, at least one of the additional cross-hybridizing bands may be associated with another conjugative element or with an element that is mobilized by Tcr Emr 7853. DNA that cross-hybridized with the upstream region was found in one clinical isolate of Bacteroides ovatus and four Tcr isolates of Prevotella ruminicola.

Evidence for natural horizontal transfer of tetQ between bacteria that normally colonize humans and bacteria that normally colonize livestock.

Though numerous studies have shown that gene transfer occurs between distantly related bacterial genera under laboratory conditions, the frequency and breadth of horizontal transfer events in nature remain unknown. Previous evidence for natural intergeneric transfers came from studies of genes in human pathogens, bacteria that colonize the same host. We present evidence that natural transfer of a tetracycline resistance gene, tetQ, has occurred between bacterial genera that normally colonize different hosts. A DNA sequence comparative approach was taken to examine the extent of horizontal tetQ dissemination between species of Bacteroides, the predominant genus of the human colonic microflora, and between species of Bacteroides and of the distantly related genus Prevotella, a predominant genus of the microflora of the rumens and intestinal tracts of farm animals. Virtually identical tetQ sequences were found in a number of isolate pairs differing in taxonomy and geographic origin, indicating that extensive natural gene transmission has occurred. Among the exchange events indicated by the evidence was the very recent transfer of an allele of tetQ usually found in Prevotella spp. to a Bacteroides fragilis strain.

A Bacteroides tetracycline resistance gene represents a new class of ribosome protection tetracycline resistance.

The ribosome protection type of tetracycline resistance (Tcr) has been found in a variety of bacterial species, but the only two classes described previously, Tet(M) and Tet(O), shared a high degree of amino acid sequence identity (greater than 75%). Thus, it appeared that this type of resistance emerged recently in evolution and spread among different species of bacteria by horizontal transmission. We obtained the DNA sequence of a Tcr gene from Bacteroides, a genus of gram-negative, obligately anaerobic bacteria that is phylogenetically distant from the diverse species in which tet(M) and tet(O) have been found. The Bacteroides Tcr gene defines a new class of ribosome protection resistance genes, Tet(Q), and has a deduced amino acid sequence that was only 40% identical to Tet(M) or Tet(O). Like tet(M) and tet(O), tet(Q) appears to have spread by horizontal transmission, but only within the Bacteroides group.