- Ovalbumin, the main egg white protein, can bind and remove PFAS from water effectively
- PFAS are persistent chemicals linked to cancer, liver damage, and immune system disruption
- Researchers used molecular modeling to identify ovalbumin’s PFAS binding sites at atomic level
A study has found that ovalbumin, the primary protein in egg whites, could effectively bind and remove per- and polyfluoroalkyl substances from contaminated water, offering a scalable material for removing the highly persisting chemicals. Per- and polyfluoroalkyl substances (PFAS) are used in products, including nonstick cookware and waterproof fabrics, and often called 'forever chemicals' owing to their extreme persistence in the environment and human body. Exposure to the substances has been linked with varied health risks, such as cancer, liver damage and a disruption to immune system.
Researchers, led by Achintya Bezbaruah from North Dakota State University and Iowa State University's Wenjie Xia, found that ovalbumin acts as a natural carrier protein that binds to and wraps around PFAS molecules, trapping them in a stable complex.
The binding property of ovalbumin can be harnessed to develop scalable, bio-based materials for capturing PFAS in water treatment systems and natural waters, the researchers said.
"This work has laid the foundation for developing a bio-based adsorbent that is both easily available and highly effective. By establishing a high-tech, industrial use for eggs as a starting material for bio-adsorbents, we also see potential new revenue streams for the poultry industry," study author and associate professor Bezbaruah said.
The study, published in the journal Cell Reports Physical Science, used molecular modelling and computational techniques to visualise ovalbumin-PFAS interactions at the atomic level.
The researchers identified key amino acids, including arginine and lysine, as primary docking sites for the contaminants.
"Traditional PFAS cleanup methods, such as activated carbon or membrane filtration, can be expensive," study author and associate professor Xia said.
"The potential use of egg-derived proteins represents a paradigm shift towards less expensive and green chemistry. Leveraging abundant natural proteins as bio-adsorbents offers an environmentally benign approach," he said.
Ovalbumin was found to be able to trap seven types of PFAS under diverse conditions.
Shirsa Mazumdar, a doctoral student at North Dakota State University, said, "It's remarkable that a simple egg white can offer such (a) sophisticated environmental utility." Doctoral student Jimli Goswami added that the discovery shows "the next great solution to a global crisis might be waiting right in our refrigerator".
(Except for the headline, this story has not been edited by NDTV staff and is published from a syndicated feed.)
