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Volume 165,
Issue 3,
2019
Volume 165, Issue 3, 2019

- Microbe Profile
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Pseudomonas syringae: enterprising epiphyte and stealthy parasite
More LessPseudomonas syringae is best known as a plant pathogenic bacterium that causes diseases in a multitude of hosts, and it has been used as a model organism to understand the biology of plant disease. Pathogenic and non-pathogenic isolates of P. syringae are also commonly found living as epiphytes and in the wider environment, including water sources such as rivers and precipitation. Ice-nucleating strains of P. syringae are associated with frost damage to crops. The genomes of numerous strains of P. syringae have been sequenced and molecular genetic studies have elucidated many aspects of this pathogen’s interaction with its host plants.
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- Review
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Specific inhibitors of respiratory sulfate reduction: towards a mechanistic understanding
More LessMicrobial sulfate reduction (SR) by sulfate-reducing micro-organisms (SRM) is a primary environmental mechanism of anaerobic organic matter mineralization, and as such influences carbon and sulfur cycling in many natural and engineered environments. In industrial systems, SR results in the generation of hydrogen sulfide, a toxic, corrosive gas with adverse human health effects and significant economic and environmental consequences. Therefore, there has been considerable interest in developing strategies for mitigating hydrogen sulfide production, and several specific inhibitors of SRM have been identified and characterized. Specific inhibitors are compounds that disrupt the metabolism of one group of organisms, with little or no effect on the rest of the community. Putative specific inhibitors of SRM have been used to control sulfidogenesis in industrial and engineered systems. Despite the value of these inhibitors, mechanistic and quantitative studies into the molecular mechanisms of their inhibition have been sparse and unsystematic. The insight garnered by such studies is essential if we are to have a more complete understanding of SR, including the past and current selective pressures acting upon it. Furthermore, the ability to reliably control sulfidogenesis – and potentially assimilatory sulfate pathways – relies on a thorough molecular understanding of inhibition. The scope of this review is to summarize the current state of the field: how we measure and understand inhibition, the targets of specific SR inhibitors and how SRM acclimatize and/or adapt to these stressors.
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- Genomics and Systems Biology
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Retrospective whole-genome sequencing analysis distinguished PFGE and drug-resistance-matched retail meat and clinical Salmonella isolates
Non-typhoidal Salmonella is a leading cause of outbreak and sporadic-associated foodborne illnesses in the United States. These infections have been associated with a range of foods, including retail meats. Traditionally, pulsed-field gel electrophoresis (PFGE) and antibiotic susceptibility testing (AST) have been used to facilitate public health investigations of Salmonella infections. However, whole-genome sequencing (WGS) has emerged as an alternative tool that can be routinely implemented. To assess its potential in enhancing integrated surveillance in Pennsylvania, USA, WGS was used to directly compare the genetic characteristics of 7 retail meat and 43 clinical historic Salmonella isolates, subdivided into 3 subsets based on PFGE and AST results, to retrospectively resolve their genetic relatedness and identify antimicrobial resistance (AMR) determinants. Single nucleotide polymorphism (SNP) analyses revealed that the retail meat isolates within S. Heidelberg, S. Typhimurium var. O5- subset 1 and S. Typhimurium var. O5- subset 2 were separated from each primary PFGE pattern-matched clinical isolate by 6–12, 41–96 and 21–81 SNPs, respectively. Fifteen resistance genes were identified across all isolates, including fosA7, a gene only recently found in a limited number of Salmonella and a ≥95 % phenotype to genotype correlation was observed for all tested antimicrobials. Moreover, AMR was primarily plasmid-mediated in S. Heidelberg and S. Typhimurium var. O5- subset 2, whereas AMR was chromosomally carried in S. Typhimurium var. O5- subset 1. Similar plasmids were identified in both the retail meat and clinical isolates. Collectively, these data highlight the utility of WGS in retrospective analyses and enhancing integrated surveillance for Salmonella from multiple sources.
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Diversity of NADH dehydrogenases in acetic acid bacteria: adaptation to modify their phenotype through gene expansions and losses and neo-functionalization
NADH dehydrogenase plays an important role in the central metabolism of almost all organisms, including acetic acid bacteria (AAB). In this study, the gene diversity of the NADH dehydrogenases in AAB was investigated. The distribution of the genes of the type I and type II NADH dehydrogenases in AAB was mostly congruent with their phylogenetic relationships. There are two phylogenetically distinct type I NADH dehydrogenase complexes, complex IA and complex IE. Complex IA′, which lacks the nuoM gene from complex IA, was only conserved in the genera Acetobacter , Gluconacetobacter and Komagataeibacter , which all have the ability to perform acetic acid fermentation, whereas the complex IE gene cluster was found randomly in several species of AAB. Almost all AAB, excluding the early-diverged species, had the type II NADH dehydrogenase, while some of the species also had the homologue with an amino acid replacement at the residue responsible for NADPH oxidation ability. Thus, the gene repertoire of NADH dehydrogenases shows a history of adaptation towards their habitats through gene expansions and losses and neo-functionalization in AAB.
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- Host-Microbe Interaction
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Phylogenetic analyses of antibiotic-producing Streptomyces sp. isolates obtained from the stingless-bee Tetragonisca angustula (Apidae: Meliponini)
Many insects have been associated with actinobacteria in protective symbiosis where antimicrobial metabolites inhibit host pathogens. However, the microbiota of neotropical insects such as the stingless-bee Tetragonisca angustula is poorly explored. T. angustula is a meliponid bee widely distributed in Latin America, its honey is traditionally exploited because of its ethno-pharmacological properties and its antimicrobial activity has been demonstrated. Also, the well-structured nest of this species allows exploration of the microbiota of its different components. Even though Streptomyces spp. have been cultured from stingless-bees, little is known about their role in this insect–microbe relationship. In this study, we examined the association between culturable actinobacteria and T. angustula, and evaluated the isolates’ potential as antimicrobial producers. We isolated 51 actinobacteria from adult bees and different substrates of the hive of T. angustula (pollen and honey storage, garbage pellets and cerumen). We then performed a 16S rRNA phylogenetic analysis that clusters the bacteria to previously described lineages of host-associated Streptomyces . In addition, all the isolates were classified according to their antibacterial activity against human pathogens, measured by a growth inhibition test based on diffusion in agar. More than 50 % of our isolates exhibit antimicrobial activity, mainly to Gram-positive bacteria and fungi and only two against Gram-negative bacteria. Additionally, we obtained electron micrographs of adult bees with what appears to be patches of hyphae with Streptomyces -like cell morphology on their body surface. Our results suggest that T. angustula possibly uptakes and transfers actinobacteria from the environment, acting as vectors for these potentially beneficial organisms. This research provides new insights regarding the microbiota associated with T. angustula and justify future studies exploring the full diversity of the microbial community associated with the hive and the possible exchange of microbes with the crops they pollinate.
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Dopamine-induced sulfatase and its regulator are required for Salmonella enterica serovar Typhimurium pathogenesis
More LessCatecholamine hormones enhance the virulence of pathogenic bacteria. Studies in the 1980s made intriguing observations that catecholamines were required for induction of sulfatase activity in many enteric pathogens, including Salmonella enterica serovar Typhimurium. In this report, we show that STM3122 and STM3124, part of horizontally acquired Salmonella pathogenesis island 13, encode a catecholamine-induced sulfatase and its regulator, respectively. Induction of sulfatase activity was independent of the well-studied QseBC and QseEF two-component regulatory systems. S. Typhimurium 14028S mutants lacking STM3122 or STM3124 showed reduced virulence in zebrafish. Because catecholamines are inactivated by sulfation in the mammalian gut, S. Typhimurium could utilize CA-induced sulfatase to access free catecholamines for growth and virulence.
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- Physiology and Metabolism
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The B12 receptor BtuB alters the membrane integrity of Caulobacter crescentus
More LessVitamin B12 is one of the most complex biomolecules in nature. Since few organisms can synthesize B12 de novo, most bacteria utilize highly sensitive and specialized transporters to scavenge B12 and its precursors. In Gram-negative bacteria, BtuB is the outer membrane TonB-dependent receptor for B12. In the fresh water bacterium Caulobacter crescentus , btuB is among the most highly expressed genes. In this study, we characterized the function of BtuB in C. crescentus and unveiled a potential new function of this receptor involved in cellular fitness. Under standard minimal or rich growth conditions, we found that supplements of vitamin B12 to cultures of C. crescentus provided no significant advantage in growth rate. Using a B12 methionine auxotroph, we showed that BtuB in C. crescentus is capable of transporting B12 at low pico-molar range. A btuB knockout strain displayed higher sensitivity to detergents and to changes in osmotic pressure compared to the wild-type. Electron micrographs of this knockout strain revealed a morphology defect. The sensitivity observed in the btuB knockout strain was not due to changes in membrane permeability or altered S-layer levels. Our results demonstrate that btuB deletion mutants exhibit increased susceptibility to membrane stressors, suggesting a potential role of this receptor in membrane homeostasis. Because we only tested BtuB’s function under laboratory conditions, we cannot eliminate the possibility that BtuB also plays a key role as a B12 scavenger in C. crescentus when growing in its highly variable and nutrient-limited natural environment.
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High levels of cAMP inhibit Pseudomonas aeruginosa biofilm formation through reduction of the c-di-GMP content
The human pathogen Pseudomonas aeruginosa can cause both acute infections and chronic biofilm-based infections. Expression of acute virulence factors is positively regulated by cAMP, whereas biofilm formation is positively regulated by c-di-GMP. We provide evidence that increased levels of cAMP, caused by either a lack of degradation or increased production, inhibit P. aeruginosa biofilm formation. cAMP-mediated inhibition of P. aeruginosa biofilm formation required Vfr, and involved a reduction of the level of c-di-GMP, as well as reduced production of biofilm matrix components. A mutant screen and characterization of defined knockout mutants suggested that a subset of c-di-GMP-degrading phosphodiesterases is involved in cAMP-Vfr-mediated biofilm inhibition in P. aeruginosa .
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Oxidative stress response plays a role in antibiotic tolerance of Streptococcus mutans biofilms
More LessKnowledge about biofilm-associated antibiotic tolerance mechanisms is warranted in order to develop effective treatments against biofilm infections. We performed a screen of a Streptococcus mutans transposon mutant library for mutants with reduced biofilm-associated antimicrobial tolerance, and found that the spxA1 gene plays a role in tolerance towards gentamicin and other antibiotics such as vancomycin and linezolid. SpxA1 is a regulator of genes involved in the oxidative stress response in S. mutans . The oxidative stress response genes gor and ahpC were found to be up-regulated upon antibiotic treatment of S. mutans wild-type biofilms, but not spxA1 mutant biofilms. The gor gene product catalyses the formation of glutathione which functions as an important antioxidant during oxidative stress, and accordingly biofilm-associated antibiotic tolerance of the spxA1 mutant could be restored by exogenous addition of glutathione. Our results indicate that the oxidative stress response plays a role in biofilm-associated antibiotic tolerance of S. mutans , and add to the on-going debate on the role of reactive oxygen species in antibiotic mediated killing of bacteria.
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- Regulation
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LcpRVH2 – regulating the expression of latex-clearing proteins in Gordonia polyisoprenivorans VH2
More LessGordonia polyisoprenivorans VH2 harbours two latex clearing proteins, which are responsible for the cleavage of poly(cis-1,4-isoprene) into oligoisoprenes, thereby allowing growth in presence of, e.g. natural rubber. A gene coding for a putative regulator of the TetR-family (lcpR VH2) is located 131 bp upstream of lcp1 VH2. We heterologously expressed lcpR VH2 in Escherichia coli , and purified and characterized the protein with respect to its ability to bind to the operator region of lcp1 VH2. LcpRVH2 forms a dimer in its native state. The size of the dimer was determined to be 52.7 kDa by size exclusion chromatography, whereas the calculated size of a monomer was 24.1 kDa. Electrophoretic mobility shift assays (EMSAs) with the purified protein revealed a shift upon binding to the intergenic region between lcpR VH2 and lcp1 VH2. Within this region, an inverted repeat was identified in silico, probably being the binding site of LcpRVH2. This binding sequence was confirmed by a DNase I footprinting assay. A shift also occurred in EMSAs with this 44 bp sequence only. Interestingly, no regulator was detected upstream of the second lcp (lcp2 VH2). Therefore, we performed EMSA studies with LcpRVH2 and the putative operator region upstream of lcp2 VH2, and discovered by DNase I footprinting another binding sequence upstream of lcp2 VH2. Hence, we concluded that LcpRVH2 binds the operator region of both lcps and, most likely, regulates their expression in G. polyisoprenivorans VH2.
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The copper-inducible copAB operon in Xanthomonas citri subsp. citri is regulated at transcriptional and translational levels
Upstream open reading frames (ORFs) are frequently found in the 5′-flanking regions of genes and may have a regulatory role in gene expression. A small ORF (named cohL here) was identified upstream from the copAB copper operon in Xanthomonascitri subsp. citri (Xac). We previously demonstrated that copAB expression was induced by copper and that gene inactivation produced a mutant strain that was unable to grow in the presence of copper. Here, we address the role of cohL in copAB expression control. We demonstrate that cohL expression is induced by copper in a copAB-independent manner. Although cohL is transcribed, the CohL protein is either not expressed in vivo or is synthesized at undetectable levels. Inactivation of cohL ( X. citri cohL polar mutant strain) leads to an inability to synthesize cohL and copAB transcripts and consequently the inability to grow in the presence of copper. Bioinformatic tools predicted a stem–loop structure for the cohL–copAB intergenic region and revealed that this region may arrange itself in a secondary structure. Using in vitro gene expression, we found out that the structured 5′-UTR mRNA of copAB is responsible for sequestering the ribosome-binding site that drives the translation of copA. However, copper alone was not able to release the sequence. Based on the results, we speculate that cohL plays a role as a regulatory RNA rather than as a protein-coding gene.
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Volumes and issues
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Volume 171 (2025)
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