1. Rhodamine Conjugated Gelatin Methacryloyl Nanoparticles for Stable Cell Imaging
- Author
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Shiming Zhang, Xingwu Zhou, Xing Jiang, Wujin Sun, Mehmet R. Dokmeci, Ali Khademhosseini, Han-Jun Kim, Peyton Tebon, KangJu Lee, Moyuan Qu, Junmin Lee, Haonan Ling, Samad Ahadian, Tyler Hoffman, Hyun-Jong Cho, Yaowen Liu, Yumeng Xue, and Zhikang Li
- Subjects
food.ingredient ,Chemistry ,Biochemistry (medical) ,Biomedical Engineering ,Nanoparticle ,Nanotechnology ,General Chemistry ,Conjugated system ,Fluorescence ,Gelatin ,Nanomaterials ,Biomaterials ,Rhodamine ,chemistry.chemical_compound ,food ,Rhodamine B ,Biological imaging - Abstract
Fluorescent nanomaterials have been widely used in biological imaging due to their selectivity, sensitivity, and noninvasive nature. These characteristics make the materials suitable for real-time and in situ imaging. However, further development of highly biocompatible nanosystems with long-lasting fluorescent intensity and photostability is needed for advanced bioimaging. We have used electrospraying to generate gelatin methacryloyl (GelMA)-based fluorescent nanoparticles (NPs) with chemically conjugated rhodamine B (RB). The extent of conjugation can be controlled by varying the mass ratio of RB and GelMA precursors to obtain RB-conjugated GelMA (RB-GelMA) NPs with optimal fluorescent properties and particle size. These NPs exhibited superior biocompatibility when compared with pure RB in in vitro cell viability and proliferation assays using multiple cell types. Moreover, RB-GelMA NPs showed enhanced cell internalization and improved brightness compared with unconjugated RB. Our experiments demonstrate that engineered RB-GelMA NPs can be used as a biocompatible fluorescent label for bioimaging.
- Published
- 2020
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