2019
DOI: 10.1186/s12951-019-0469-z
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Engineered magnetosomes fused to functional molecule (protein A) provide a highly effective alternative to commercial immunomagnetic beads

Abstract: Background Magnetosomes (also called bacterial magnetic nanoparticles; BMPs) are biomembrane-coated nanoparticles synthesized by magnetotactic bacteria (MTB). Engineered BMPs fused to protein A (termed ∆F-BMP-FA) bind antibodies (Abs) automatically, and thus provide a series of potential advantages. However, no report so far has systematically evaluated functional applicability of genetically engineered BMPs. Results We evaluated properties of ∆F-BMP-FA, and developed/o… Show more

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Cited by 32 publications
(44 citation statements)
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“…[ 328 ] These genetically engineered magnetosomes with fused protein A bind antibodies automatically, and are inexpensive, ecofriendly alternatives to the use of commercial immunomagnetic beads for pathogen detection. [ 353 ] Apart from using harvested and purified magnetosomes, MO‐1 MTB has also been decorated with rabbit anti‐MO‐1 cell polyclonal antibodies to become magnetic‐guiding, auto‐propelling microrobots for detection and separation of S. aureus . [ 354 ] After binding of the polyclonal antibody‐coated MO‐1 MTB to protein A on the surface of S. aureus (e.g., in an infected wound), the bacteria are mechanically injured and eliminated via the application of a swinging magnetic field ( Figure ).…”
Section: Applicationsmentioning
confidence: 99%
“…[ 328 ] These genetically engineered magnetosomes with fused protein A bind antibodies automatically, and are inexpensive, ecofriendly alternatives to the use of commercial immunomagnetic beads for pathogen detection. [ 353 ] Apart from using harvested and purified magnetosomes, MO‐1 MTB has also been decorated with rabbit anti‐MO‐1 cell polyclonal antibodies to become magnetic‐guiding, auto‐propelling microrobots for detection and separation of S. aureus . [ 354 ] After binding of the polyclonal antibody‐coated MO‐1 MTB to protein A on the surface of S. aureus (e.g., in an infected wound), the bacteria are mechanically injured and eliminated via the application of a swinging magnetic field ( Figure ).…”
Section: Applicationsmentioning
confidence: 99%
“…[ 17,24 ] The latter was furthermore used as single anchor protein for magnetosome display of protein A, thereby generating magnetic beads that were capable of binding the F C region of mammalian antibodies. [ 27,28 ] However, it so far remained unexplored if these Mam proteins can be utilized for simultaneous magnetosome expression of more complex, multimeric (enzyme) proteins.…”
Section: Introductionmentioning
confidence: 99%
“…Regarding magnetosomes, their highly desirable single domain magnetic domain, the ability to functionalize their lipid membrane, and their biocompatibility has allowed their usage in several fields such as contrast agents for Magnetic Resonance Imaging (MRI), [ 196,197 ] separation of biomolecules, [ 198–200 ] cellular homeostasis disorder, [ 201 ] hyperthermia therapy, [ 202,203 ] photothermia therapy, [ 204 ] immunoassays, [ 205 ] drug delivery, [ 206 ] biosensing (Peroxidase‐like activity), [ 207 ] and stain removal. [ 208 ]…”
Section: Magnetic Biohybrid Cellular Micro‐biorobotsmentioning
confidence: 99%