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Correctionto “ProteinCorona-Directed CellularRecognition and Uptake of Polyethylene Nanoplastics by Macrophages”
Summary
This entry is a published correction to a prior study on protein corona-directed cellular recognition and uptake of polyethylene nanoplastics by macrophages, noting a correction to previously reported data or methodology.
Correction to “Protein Corona-Directed Cellular Recognition and Uptake of Polyethylene Nanoplastics by Macrophages”
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Correctionto “ProteinCorona-Directed CellularRecognition and Uptake of Polyethylene Nanoplastics by Macrophages”
This entry is a published correction to a prior study on protein corona-directed cellular recognition and uptake of polyethylene nanoplastics by macrophages, noting a correction to previously reported data or methodology.
Correctionto “ProteinCorona-Directed CellularRecognition and Uptake of Polyethylene Nanoplastics by Macrophages”
This entry is a published correction to a prior study on protein corona-directed cellular recognition and uptake of polyethylene nanoplastics by macrophages, noting a correction to previously reported data or methodology.
Correction: Correlation between cellular uptake and cytotoxicity of polystyrene micro/nanoplastics in HeLa cells: A size-dependent matter
This is a correction notice for a previously published study on the correlation between cellular uptake and cytotoxicity of polystyrene micro- and nanoplastics.
Protein Corona-Directed Cellular Recognition and Uptake of Polyethylene Nanoplastics by Macrophages
Scientists discovered that when polyethylene nanoplastics enter the bloodstream, they quickly become coated with blood proteins, and this protein coating determines how immune cells recognize and respond to them. High-density and low-density polyethylene attracted different protein coatings, leading to different immune responses from macrophages. This research helps explain how nanoplastics interact with the immune system once they enter the human body, which is key to understanding their potential health effects.
Correction: Correlation between cellular uptake and cytotoxicity of polystyrene micro/nanoplastics in HeLa cells: A size-dependent matter
This is a correction notice for a published article on polystyrene micro/nanoplastic cytotoxicity and cellular uptake in HeLa cells; it does not report new findings but corrects identified errors in the original publication (DOI: 10.1371/journal.pone.0289473).