Qing Wei scite author profile

Biofilms are communities of microorganisms embedded in extracellular polymeric substances (EPS) matrix. Bacteria in biofilms demonstrate distinct features from their free-living planktonic counterparts, such as different physiology and high resistance to immune system and antibiotics that render biofilm a source of chronic and persistent infections. A deeper understanding of biofilms will ultimately provide insights into the development of alternative treatment for biofilm infections. The opportunistic pathogen Pseudomonas aeruginosa, a model bacterium for biofilm research, is notorious for its ability to cause chronic infections by its high level of drug resistance involving the formation of biofilms. In this review, we summarize recent advances in biofilm formation, focusing on the biofilm matrix and its regulation in P. aeruginosa, aiming to provide resources for the understanding and control of bacterial biofilms.

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Iron homeostasis and management of oxidative stress response in bacteria

Cornélis

et al. 2011

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Iron is both an essential nutrient for the growth of microorganisms, as well as a dangerous metal due to its capacity to generate reactive oxygen species (ROS) via the Fenton reaction. For these reasons, bacteria must tightly control the uptake and storage of iron in a manner that restricts the build-up of ROS. Therefore, it is not surprising to find that the control of iron homeostasis and responses to oxidative stress are coordinated. The mechanisms concerned with these processes, and the interactions involved, are the subject of this review.

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Global regulation of gene expression by OxyR in an important human opportunistic pathogen

et al. 2012

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Most bacteria control oxidative stress through the H2O2-responsive transactivator OxyR, a member of the LTTR family (LysR Type Transcriptional Regulators), which activates the expression of defensive genes such as those encoding catalases, alkyl hydroperoxide reductases and superoxide dismutases. In the human opportunistic pathogen Pseudomonas aeruginosa, OxyR positively regulates expression of the oxidative stress response genes katA, katB, ahpB and ahpCF. To identify additional targets of OxyR in P. aeruginosa PAO1, we performed chromatin immunoprecipitation in combination with whole genome tiling array analyses (ChIP-chip). We detected 56 genes including all the previously identified defensive genes and a battery of novel direct targets of OxyR. Electrophoretic mobility shift assays (EMSAs) for selected newly identified targets indicated that ∼70% of those were bound by purified oxidized OxyR and their regulation was confirmed by quantitative real-time polymerase chain reaction. Furthermore, a thioredoxin system was identified to enzymatically reduce OxyR under oxidative stress. Functional classification analysis showed that OxyR controls a core regulon of oxidative stress defensive genes, and other genes involved in regulation of iron homeostasis (pvdS), quorum-sensing (rsaL), protein synthesis (rpsL) and oxidative phosphorylation (cyoA and snr1). Collectively, our results indicate that OxyR is involved in oxidative stress defense and regulates other aspects of cellular metabolism as well.

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Full Virulence of Pseudomonas aeruginosa Requires OprF

et al. 2011

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OprF is a general outer membrane porin of Pseudomonas aeruginosa, a well-known human opportunistic pathogen associated with severe hospital-acquired sepsis and chronic lung infections of cystic fibrosis patients. A multiphenotypic approach, based on the comparative study of a wild-type strain of P. aeruginosa, its isogenic oprF mutant, and an oprF-complemented strain, showed that OprF is required for P. aeruginosa virulence. The absence of OprF results in impaired adhesion to animal cells, secretion of ExoT and ExoS toxins through the type III secretion system (T3SS), and production of the quorum-sensing-dependent virulence factors pyocyanin, elastase, lectin PA-1L, and exotoxin A. Accordingly, in the oprF mutant, production of the signal molecules N-(3-oxododecanoyl)-L-homoserine lactone and N-butanoyl-L-homoserine lactone was found to be reduced and delayed, respectively. Pseudomonas quinolone signal (PQS) production was decreased, while its precursor, 4-hydroxy-2-heptylquinoline (HHQ), accumulated in the cells. Taken together, these results show the involvement of OprF in P. aeruginosa virulence, at least partly through modulation of the quorum-sensing network. This is the first study showing a link between OprF, PQS synthesis, T3SS, and virulence factor production, providing novel insights into virulence expression.

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Coordination of Swarming Motility, Biosurfactant Synthesis, and Biofilm Matrix Exopolysaccharide Production in Pseudomonas aeruginosa

Wang

Zhang

et al. 2014

Appl Environ Microbiol

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Biofilm formation is a complex process in which many factors are involved. Bacterial swarming motility and exopolysaccharides both contribute to biofilm formation, yet it is unclear how bacteria coordinate swarming motility and exopolysaccharide production. Psl and Pel are two key biofilm matrix exopolysaccharides in Pseudomonas aeruginosa. This opportunistic pathogen has three types of motility, swimming, twitching, and swarming. In this study, we found that elevated Psl and/or Pel production reduced the swarming motility of P. aeruginosa but had little effect on swimming and twitching. The reduction was due to decreased rhamnolipid production with no relation to the transcription of rhlAB, two key genes involved in the biosynthesis of rhamnolipids. Rhamnolipid-negative rhlR and rhlAB mutants synthesized more Psl, whereas exopolysaccharide-deficient strains exhibited a hyperswarming phenotype. These results suggest that competition for common sugar precursors catalyzed by AlgC could be a tactic for P. aeruginosa to balance the synthesis of exopolysaccharides and rhamnolipids and to control bacterial motility and biofilm formation inversely because the biosynthesis of rhamnolipids, Psl, and Pel requires AlgC to provide the sugar precursors and an additional algC gene enhances the biosynthesis of Psl and rhamnolipids. In addition, our data indicate that the increase in RhlI/RhlR expression attenuated Psl production. This implied that the quorum-sensing signals could regulate exopolysaccharide biosynthesis indirectly in bacterial communities. In summary, this study represents a mechanism that bacteria utilize to coordinate swarming motility, biosurfactant synthesis, and biofilm matrix exopolysaccharide production, which is critical for biofilm formation and bacterial survival in the environment.

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Luminescent Pt^II−M^I (M = Cu, Ag, Au) Heteronuclear Alkynyl Complexes Prepared by Reaction of [Pt(C⋮CR)₄]²^- with [M₂(dppm)₂]²⁺ (dppm = Bis(diphenylphosphino)methane)

et al. 2006

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A series of PtM, PtM2, and Pt2M3 (M = Cu, Ag, Au) heteronuclear alkynyl complexes, synthesized by reaction of the tetraalkynylplatinate(II) complexes [Pt(C⋮CR)4]2- with [M2(μ-dppm)2]2+ (dppm = bis(diphenylphosphino)methane), were characterized by elemental analyses, ESI-MS, 1H and 31P NMR spectroscopy, and X-ray crystallography for 5−13. The PtII and MI centers are linked doubly and singly by dppm in the PtM and PtM2 complexes, respectively. The Pt2Ag3 complex 13 is composed of two PtAg units associated with another Ag center by acetylide η 2 (π) coordination. Strong Pt−M bonding interactions are operative, in view of their rather short distances (2.7−3.0 Å). Compounds 1−13 emit strongly in the solid state at 298 and 77 K with lifetimes in the microsecond range, indicating spin-forbidden triplet excited states. They also exhibit moderate photoluminescence in degassed dichloromethane at 298 K. The emission energy in the solid state decreases with an increase in the electron-donating ability of the R substituents, implying that the emissive origin is probably substantial ligand-to-cluster [RC⋮C→PtM] LMMCT transitions, in view of the Pt−M interactions.

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Luminescent Heteronuclear Au^I₅Ag^I₈ Complexes of {1,2,3-C₆(C₆H₄R-4)₃}^3- (R = H, CH₃, Bu^t) by Cyclotrimerization of Arylacetylides

et al. 2004

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Unusual AuI-AgI heterometallic complexes [Au5Ag8(mu-dppm)4{1,2,3-C6(C6H4R-4)3}(CCC6H4R-4)7]3+ (R = H 1, CH3 2, But 3) were isolated by reactions of polymeric silver arylacetylides (AgCCC6H4R-4)n with binuclear gold component [Au2(mu-dppm)2(MeCN)2]2+ (dppm = bis(diphenylphosphino)methane), in which cyclotrimerization of arylacetylide -CCC6H4R-4 affords trianion {1,2,3-C6(C6H4R-4)3}3- with an unprecedented mu5-bonding mode. Compounds 1(SbF6)3-3(SbF6)3 exhibit intense photoluminescence derived from an MLCT (Au5Ag8 --> CCC6H4R-4) transition, mixed with a metal cluster-centered excited states.

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Biocontrol agent Bacillus amyloliquefaciens LJ02 induces systemic resistance against cucurbits powdery mildew

et al. 2015

Front. Microbiol.

104

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Powdery mildew is a fungal disease found in a wide range of plants and can significantly reduce crop yields. Bacterial strain LJ02 is a biocontrol agent (BCA) isolated from a greenhouse in Tianjin, China. In combination of morphological, physiological, biochemical and phylogenetic analyses, strain LJ02 was classified as a new member of Bacillus amyloliquefaciens. Greenhouse trials showed that LJ02 fermentation broth (LJ02FB) can effectively diminish the occurrence of cucurbits powdery mildew. When treated with LJ02FB, cucumber seedlings produced significantly elevated production of superoxide dismutase, peroxidase, polyphenol oxidase and phenylalanine ammonia lyase as compared to that of the control. We further confirmed that the production of free salicylic acid (SA) and expression of one pathogenesis-related (PR) gene PR-1 in cucumber leaves were markedly elevated after treating with LJ02FB, suggesting that SA-mediated defense response was stimulated. Moreover, LJ02FB-treated cucumber leaves could secrete resistance-related substances into rhizosphere that inhibit the germination of fungi spores and the growth of pathogens. Finally, we separated bacterium and its fermented substances to test their respective effects and found that both components have SA-inducing activity and bacterium plays major roles. Altogether, we identified a BCA against powdery mildew and its mode of action by inducing systemic resistance such as SA signaling pathway.

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Qing Wei

Biofilm Matrix and Its Regulation in Pseudomonas aeruginosa

Iron homeostasis and management of oxidative stress response in bacteria

Global regulation of gene expression by OxyR in an important human opportunistic pathogen

Full Virulence of Pseudomonas aeruginosa Requires OprF

Coordination of Swarming Motility, Biosurfactant Synthesis, and Biofilm Matrix Exopolysaccharide Production in Pseudomonas aeruginosa

Luminescent Pt^II−M^I (M = Cu, Ag, Au) Heteronuclear Alkynyl Complexes Prepared by Reaction of [Pt(C⋮CR)₄]²^- with [M₂(dppm)₂]²⁺ (dppm = Bis(diphenylphosphino)methane)

Luminescent Heteronuclear Au^I₅Ag^I₈ Complexes of {1,2,3-C₆(C₆H₄R-4)₃}^3- (R = H, CH₃, Bu^t) by Cyclotrimerization of Arylacetylides

Biocontrol agent Bacillus amyloliquefaciens LJ02 induces systemic resistance against cucurbits powdery mildew

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Qing Wei

Biofilm Matrix and Its Regulation in Pseudomonas aeruginosa

Iron homeostasis and management of oxidative stress response in bacteria

Global regulation of gene expression by OxyR in an important human opportunistic pathogen

Full Virulence of Pseudomonas aeruginosa Requires OprF

Coordination of Swarming Motility, Biosurfactant Synthesis, and Biofilm Matrix Exopolysaccharide Production in Pseudomonas aeruginosa

Luminescent PtII−MI (M = Cu, Ag, Au) Heteronuclear Alkynyl Complexes Prepared by Reaction of [Pt(C⋮CR)4]2- with [M2(dppm)2]2+ (dppm = Bis(diphenylphosphino)methane)

Luminescent Heteronuclear AuI5AgI8 Complexes of {1,2,3-C6(C6H4R-4)3}3- (R = H, CH3, But) by Cyclotrimerization of Arylacetylides

Biocontrol agent Bacillus amyloliquefaciens LJ02 induces systemic resistance against cucurbits powdery mildew

Contact Info

Product

Resources

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Luminescent Pt^II−M^I (M = Cu, Ag, Au) Heteronuclear Alkynyl Complexes Prepared by Reaction of [Pt(C⋮CR)₄]²^- with [M₂(dppm)₂]²⁺ (dppm = Bis(diphenylphosphino)methane)

Luminescent Heteronuclear Au^I₅Ag^I₈ Complexes of {1,2,3-C₆(C₆H₄R-4)₃}^3- (R = H, CH₃, Bu^t) by Cyclotrimerization of Arylacetylides