0000000000388489

AUTHOR

Marc A. Demeter

showing 2 related works from this author

Antimicrobial activity of biogenically produced spherical Se-nanomaterials embedded in organic material against Pseudomonas aeruginosa and Staphyloco…

2017

In an effort to prevent the formation of pathogenic biofilms on hydroxyapatite (HA)-based clinical devices and surfaces, we present a study evaluating the antimicrobial efficacy of Spherical biogenic Se-Nanostructures Embedded in Organic material (Bio Se-NEMO-S) produced by Bacillus mycoides SelTE01 in comparison with two different chemical selenium nanoparticle (SeNP) classes. These nanomaterials have been studied as potential antimicrobials for eradication of established HA-grown biofilms, for preventing biofilm formation on HA-coated surfaces and for inhibition of planktonic cell growth of Pseudomonas aeruginosa NCTC 12934 and Staphylococcus aureus ATCC 25923. Bio Se-NEMO resulted more e…

Anti-Infective Agent0301 basic medicineStaphylococcus aureusMetal Nanoparticleschemistry.chemical_elementBacillusBiocompatible MaterialsBioengineeringBacillus02 engineering and technologymedicine.disease_causeApplied Microbiology and BiotechnologyBiochemistrybiofilmantimicrobialsNanomaterialsMicrobiologyHydroxyapatiteSelenium03 medical and health sciencesAnti-Infective AgentsBiogenic Selenium nanoparticles (SeNPs) Hydroxyapatite Bacillus biofilm antimicrobials green synthesisOrganometallic CompoundsEnvironmental MicrobiologymedicineResearch ArticlesBiocompatible MaterialOrganometallic CompoundbiologyPseudomonas aeruginosagreen synthesisBiofilmBacillus mycoides021001 nanoscience & nanotechnologybiology.organism_classificationAntimicrobialBacilluDurapatite030104 developmental biologychemistryStaphylococcus aureusBiofilmsPseudomonas aeruginosaStaphylococcus aureu0210 nano-technologySeleniumResearch ArticleBiotechnologyBiogenic Selenium nanoparticles (SeNPs)
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Aerobic growth of Rhodococcus aetherivorans BCP1 using selected naphthenic acids as the sole carbon and energy sources

2018

Naphthenic acids (NAs) are an important group of toxic organic compounds naturally occurring in hydrocarbon deposits. This work shows that Rhodococcus aetherivorans BCP1 cells not only utilize a mixture of eight different NAs (8XNAs) for growth but they are also capable of marked degradation of two model NAs, cyclohexanecarboxylic acid (CHCA) and cyclopentanecarboxylic acid (CPCA) when supplied at concentrations from 50 to 500 mgL−1 . The growth curves of BCP1 on 8XNAs, CHCA, and CPCA showed an initial lag phase not present in growth on glucose, which presumably was related to the toxic effects of NAs on the cell membrane permeability. BCP1 cell adaptation responses that allowed survi…

0301 basic medicineMicrobiology (medical)Inclusion bodie030106 microbiologylcsh:QR1-502Settore BIO/19 - Microbiologia Generale7. Clean energyMicrobiologylcsh:Microbiology03 medical and health scienceschemistry.chemical_compoundBiosynthesisRhodococcus aetherivorans naphthenic acids stress response b-oxidation transmission electron microscopy fatty acids methyl esters inclusion bodiesnaphthenic acidsBeta oxidationchemistry.chemical_classificationbiologyStress responseRhodococcus aetherivoranNaphthenic acidCyclohexanecarboxylic acidbiology.organism_classificationRhodococcus aetherivoranschemistryBiochemistryFatty acids methyl esterβ-oxidationfatty acids methyl estersEnergy sourceRhodococcusBacteriaIntracellularTransmission electron microscopyPolyunsaturated fatty acid
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