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1.
Sci Rep ; 11(1): 1749, 2021 01 18.
Article in English | MEDLINE | ID: mdl-33462335

ABSTRACT

Halomonas malpeensis strain YU-PRIM-29T is a yellow pigmented, exopolysaccharide (EPS) producing halophilic bacterium isolated from the coastal region. To understand the biosynthesis pathways involved in the EPS and pigment production, whole genome analysis was performed. The complete genome sequencing and the de novo assembly were carried out using Illumina sequencing and SPAdes genome assembler (ver 3.11.1) respectively followed by detailed genome annotation. The genome consists of 3,607,821 bp distributed in 18 contigs with 3337 protein coding genes and 53% of the annotated CDS are having putative functions. Gene annotation disclosed the presence of genes involved in ABC transporter-dependent pathway of EPS biosynthesis. As the ABC transporter-dependent pathway is also implicated in the capsular polysaccharide (CPS) biosynthesis, we employed extraction protocols for both EPS (from the culture supernatants) and CPS (from the cells) and found that the secreted polysaccharide i.e., EPS was predominant. The EPS showed good emulsifying activities against the petroleum hydrocarbons and its production was dependent on the carbon source supplied. The genome analysis also revealed genes involved in industrially important metabolites such as zeaxanthin pigment, ectoine and polyhydroxyalkanoate (PHA) biosynthesis. To confirm the genome data, we extracted these metabolites from the cultures and successfully identified them. The pigment extracted from the cells showed the distinct UV-Vis spectra having characteristic absorption peak of zeaxanthin (λmax 448 nm) with potent antioxidant activities. The ability of H. malpeensis strain YU-PRIM-29T to produce important biomolecules makes it an industrially important bacterium.


Subject(s)
Halomonas/genetics , Halomonas/metabolism , Polysaccharides/metabolism , Zeaxanthins/biosynthesis , Biosynthetic Pathways , Genes, Bacterial , Genome, Bacterial , Halomonas/isolation & purification , Metabolic Networks and Pathways , Molecular Sequence Annotation/methods , Phylogeny , Salt Tolerance , Whole Genome Sequencing/methods
2.
PLoS One ; 15(11): e0241304, 2020.
Article in English | MEDLINE | ID: mdl-33156838

ABSTRACT

Development of drug resistance in opportunistic pathogens is one of the major healthcare challenges associated with infection management. Combination therapy has many advantages due to the simultaneous action of two drugs on two separate cellular targets. However, selection of the drugs should offer safety and synergistic interaction against most of the strains. Here, the efficacy of antibiotics in combination with quercetin, a natural flavonoid capable of targeting quorum sensing was tested against biofilm-forming Pseudomonas aeruginosa strains previously isolated from catheter associated urinary tract infection. Based on the antibiotic susceptibility pattern, synergistic effect of quercetin with selected antibiotics (levofloxacin, ceftriaxone, gentamycin, tobramycin and amikacin) was tested at the fractional concentrations of MIC by the checkerboard method and the fractional inhibitory concentration index (FICi) was calculated to estimate the synergistic effect. Effect of the synergistic combinations were further tested using time-kill assay, and against biofilm formation and biofilm cell viability. Cytotoxicity assays were performed using Human Embryonic Kidney 293T cells (HEK-293T) using the effective drug combinations with respective controls. The biofilm formation and biofilm cell viability were drastically affected with quercetin and selected antibiotics combinations with ≥80% inhibition. In vitro infection studies showed that all the strains could exert significant cell killing (68 to 85%) and the drug combinations decreased the infection rate significantly by reducing the cell killing effect of P. aeruginosa (p<0.05). The synergistic effect of quercetin is attributed to its quorum sensing inhibitory properties. These findings indicate that quercetin along with existing antibiotics can potentiate the treatment against P. aeruginosa infection and may reduce the selection pressure due to antibiotic overuse.


Subject(s)
Anti-Bacterial Agents/pharmacology , Drug Resistance, Multiple, Bacterial/drug effects , Pseudomonas aeruginosa/drug effects , Quercetin/pharmacology , Biofilms/drug effects , Biofilms/growth & development , Drug Synergism , HEK293 Cells , Humans , Microbial Sensitivity Tests , Microbial Viability/drug effects , Pseudomonas aeruginosa/growth & development , Pseudomonas aeruginosa/isolation & purification
3.
Pathogens ; 9(9)2020 Aug 29.
Article in English | MEDLINE | ID: mdl-32872396

ABSTRACT

Uropathogenic bacteria are widely distributed in the environment and urinary tract infection is implicated in kidney stone disease. Here, we report on a urease negative bacterium Kalamiella piersonii (strain YU22) isolated from the urine of a struvite stone (MgNH4PO4·6H2O) patient. The closest species, K. piersonii IIIF1SW-P2T was reported from International Space Station samples. However, there are no earlier reports on its human association. Using whole genome and experimental analysis, its involvement in urinary tract colonization and struvite crystallization was explored. The strain YU22 showed many virulence factors that are needed for host cell invasion and colonization including cell adhesion factors, swimming and swarming motilities, biofilm and siderophore among others. In vitro infection studies in HEK-293T cells demonstrated the host cell attachment and killing. It was able to utilize amino acids as sole carbon source and showed growth in synthetic and healthy urine establishing metabolic adaptation to urinary tract. Increased pH and availability of ammonium ions from amino acid breakdown promoted struvite crystallization. The results from this study support the involvement of urease negative uropathogen in the struvite lithogenesis. Further studies on other isolates of K. peirsonii are warranted to assess its health risks.

4.
Int J Biol Macromol ; 163: 745-755, 2020 Nov 15.
Article in English | MEDLINE | ID: mdl-32599248

ABSTRACT

Silver nanoparticles (AgNPs) have gained attention due to their exceptional physicochemical properties and biological activities, owing to which they are extensively used in biomedical field. We synthesized AgNPs by rapid microwave-assisted method using fucoidan as a reducing agent. The synthesized fucoidan-AgNPs (F-AgNPs) were characterized for the structural and functional properties. The bactericidal effect and mode of action of F-AgNPs on the pathogenic bacteria and biofilm formation were investigated along with the cytotoxicity studies. The UV-Visible spectra of the F-AgNPs showed the surface resonance peak at 419 nm. The nanoparticles were spherical in shape with particle size of 59.5 ± 1.46 nm and polydispersity index (PDI) of 0.3 ± 0.01. Capping of fucoidan on AgNPs was confirmed by FTIR with characteristic peaks of sulfate group. Silver content of F-AgNPs was 87% with 13% contribution from the fucoidan moieties. The F-AgNPs showed antimicrobial activity against common pathogenic bacteria and was able to inhibit biofilm formation in Pseudomonas aeruginosa at 20 µg/mL concentration. The oxidative stress and intracellular protein leakage were observed due to the F-AgNP interaction with the cell bringing about bactericidal effect. The results highlight the synthesis and bioactivity of AgNPs doped with organic moieties for applications as antimicrobials.


Subject(s)
Anti-Infective Agents/chemistry , Anti-Infective Agents/pharmacology , Biocompatible Materials/chemistry , Metal Nanoparticles/chemistry , Microwaves , Polysaccharides/chemistry , Silver/chemistry , Chemistry Techniques, Synthetic , Green Chemistry Technology , Oxidative Stress , Particle Size , Reactive Oxygen Species , Spectroscopy, Fourier Transform Infrared , X-Ray Diffraction
5.
Br J Community Nurs ; 23(Sup9): S16-S22, 2018 Sep 01.
Article in English | MEDLINE | ID: mdl-30156875

ABSTRACT

Diabetes is a global disease, and its prevalence has increased rapidly in the last century. Many complications are associated with diabetes, and diabetic foot ulcers (DFU) are common. There is a variety of different treatments for DFU, and the aim of this article is to discuss the factors responsible for delayed wound healing in patients with diabetes, and the treatment strategies that are available.


Subject(s)
Diabetic Neuropathies/physiopathology , Diabetic Neuropathies/therapy , Skin Care/nursing , Wound Healing/physiology , Bandages , Cell- and Tissue-Based Therapy , Debridement , Electric Stimulation Therapy , Humans , Hyperbaric Oxygenation , Negative-Pressure Wound Therapy , Ozone/therapeutic use , Skin Transplantation
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