2016
DOI: 10.1021/acs.langmuir.6b01743
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Nanoshell Assembly for Magnet-Responsive Oil-Degrading Bacteria

Abstract: The modified polyelectrolyte-magnetite nanocoating was applied to functionalize the cell walls of oil decomposing bacteria Alcanivorax borkumensis. Cationic coacervate of poly(allylamine) and 20 nm iron oxide nanoparticles allowed for a rapid single-step encapsulation process exploiting electrostatic interaction with bacteria surfaces. The bacteria were covered with rough 70-100-nm-thick shells of magnetite loosely bound to the surface through polycations. This encapsulation allowed for external manipulations … Show more

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Cited by 63 publications
(39 citation statements)
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References 41 publications
(107 reference statements)
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“…The MTT-test results also indicate that there is no severe reduction in enzymatic activity of NAD(P) H (nicotinamide adenine dinucleotide phosphate)-dependent oxidoreductases. [21][22][23] One of the main goals of spilled oil halloysite emulsification is to optimize its consumption via degrading bacteria, and this may be reached: (1) by maximizing the oil surface area which is inversely proportional to the droplet radius (e.g., decreasing the oil droplet diameter from 1 mm to 10 μm increases the resulting multiplied droplets' surface 100 times), and (2) by increasing of the droplet surface roughness, improving bacterial cell attachment and proliferation. One can see, that halloysite nanotubes are comparable in sizes with bacteria and do not penetrate into the cell interior ( Figure 9C).…”
Section: Halloysite Nanotube Safetymentioning
confidence: 99%
See 1 more Smart Citation
“…The MTT-test results also indicate that there is no severe reduction in enzymatic activity of NAD(P) H (nicotinamide adenine dinucleotide phosphate)-dependent oxidoreductases. [21][22][23] One of the main goals of spilled oil halloysite emulsification is to optimize its consumption via degrading bacteria, and this may be reached: (1) by maximizing the oil surface area which is inversely proportional to the droplet radius (e.g., decreasing the oil droplet diameter from 1 mm to 10 μm increases the resulting multiplied droplets' surface 100 times), and (2) by increasing of the droplet surface roughness, improving bacterial cell attachment and proliferation. One can see, that halloysite nanotubes are comparable in sizes with bacteria and do not penetrate into the cell interior ( Figure 9C).…”
Section: Halloysite Nanotube Safetymentioning
confidence: 99%
“…[19,20] This allowed to disperse petroleum spots and could result in faster bioremediation of the spill by naturally occurring degrading microorganisms such as A. borkumensis. [21][22][23] One of the main goals of spilled oil halloysite emulsification is to optimize its consumption via degrading bacteria, and this may be reached: (1) by maximizing the oil surface area which is inversely proportional to the droplet radius (e.g., decreasing the oil droplet diameter from 1 mm to 10 μm increases the resulting multiplied droplets' surface 100 times), and (2) by increasing of the droplet surface roughness, improving bacterial cell attachment and proliferation. We proved halloysite safety for A. borkumensis as one of the established bacterial organisms for both aliphatic and conjugated oil component decomposition, and its use for oil emulsification looks very promising.…”
Section: Halloysite Nanotube Safetymentioning
confidence: 99%
“…The electrostatic attraction between the polyelectrolyte and charged nanoparticles could facilitate the adsorption of charged nanoparticles onto cell surface, support the stability of the architecture, and prevent the internalization of nanoparticle into the cytoplasm. Recently, some researchers also reported the direct deposition of polyelectrolyte‐stabilized nanoparticles onto cells by electrostatic interaction to achieve cell surface functionalization …”
Section: Lbl Self‐assembly Techniquementioning
confidence: 99%
“…The cytoprotective shells also have been functionalized chemically further to meet the application requirements. For example, the magnetized cells could be spatially manipulated, concentrated, and isolated en masse, beneficial in the facile recycling of biocatalytic cells and localization of biosensing cells in a device, in addition to tissue‐engineering applications …”
Section: Demonstrated Applicationsmentioning
confidence: 99%
“…[50b] On the other hand, oil‐degrading Alcanivorax borkumensis was magnetized for potential application to bioreactor‐based oil‐processing devices. [46a]…”
Section: Demonstrated Applicationsmentioning
confidence: 99%