| Literature DB >> 33900738 |
Polina A Demina1, Olga A Sindeeva1,2, Anna M Abramova1, Ekaterina S Prikhozhdenko1, Roman A Verkhovskii1, Ekaterina V Lengert1, Andrei V Sapelkin1,3, Irina Yu Goryacheva1, Gleb B Sukhorukov2,3.
Abstract
In modern biomedical science and developmental biology, there is significant interest in optical tagging to study individual cell behavior and migration in large cellular populations. However, there is currently no tagging system that can be used for labeling individual cells on demand in situ with subsequent discrimination in between and long-term tracking of individual cells. In this article, we demonstrate such a system based on photoconversion of the fluorescent dye rhodamine B co-confined with carbon nanodots in the volume of micron-sized polyelectrolyte capsules. We show that this new fluorescent convertible capsule coding system is robust and is actively uptaken by cell lines while demonstrating low toxicity. Using a variety of cellular lines, we demonstrate how this tagging system can be used for code-like marking and long-term tracking of multiple individual cells in large cellular populations.Entities:
Keywords: carbon nanoparticles; cell imaging; cell tracking; encapsulation; fluorescent label; microcapsules; photoconversion
Year: 2021 PMID: 33900738 DOI: 10.1021/acsami.1c02767
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229