AI Article Synopsis
- Decellularized plants, particularly monocot leaves, show promise as biomaterials for cell culture and tissue engineering due to their unique biochemical, mechanical, and structural properties.
- The study utilized alkali treatment to effectively remove DNA and proteins, with quantitative analysis revealing changes in cellulose, hemicellulose, and lignin content.
- Mechanical tests highlighted variations in strength based on species and decellularization, while imaging showed microgrooves on the leaves, indicating potential for water uptake but limited biomolecule transport; the leaves were also minimally toxic to mammalian cells when degraded with enzymes.
Article Abstract
Decellularized plants have emerged as promising biomaterials for cell culture and tissue engineering applications due to their distinct material characteristics. This study explores the biochemical, mechanical, and structural properties of decellularized leaves that make them useful as biomaterials for cell culture. Five monocot leaf species were decellularized alkali treatment, resulting in the effective removal of DNA and proteins. The Van Soest method was used to quantitatively evaluate the changes in cellulose, hemicellulose, and lignin content during decellularization. Tensile tests revealed considerable variations in mechanical strength depending on the plant species, the decellularization state, and the direction of applied mechanical force. Decellularized monocot leaves exhibited a notable reduction in mechanical strength and anisotropic properties depending on the leaf orientation. Imaging revealed inherent microgrooves on the epidermis of the monocot leaves. Permeability studies, including water uptake and biomolecule transport through decellularized leaves, confirmed excellent water uptake capability but limited biomolecule transport. Lastly, the plants were enzymatically degradable using typical plant enzymes, which were minimally cytotoxic to mammalian cells. Taken together, the features of decellularized plant leaves characterized in this study suggest ways in which they can be useful in cell culture and tissue engineering applications.
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| http://dx.doi.org/10.1021/acsbiomaterials.4c01254 | DOI Listing |
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