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Photostable fluorescent organic dots with aggregation-induced emission (AIE dots) for noninvasive long-term cell tracing.


ABSTRACT: Long-term noninvasive cell tracing by fluorescent probes is of great importance to life science and biomedical engineering. For example, understanding genesis, development, invasion and metastasis of cancerous cells and monitoring tissue regeneration after stem cell transplantation require continual tracing of the biological processes by cytocompatible fluorescent probes over a long period of time. In this work, we successfully developed organic far-red/near-infrared dots with aggregation-induced emission (AIE dots) and demonstrated their utilities as long-term cell trackers. The high emission efficiency, large absorptivity, excellent biocompatibility, and strong photobleaching resistance of the AIE dots functionalized by cell penetrating peptides derived from transactivator of transcription proteins ensured outstanding long-term noninvasive in vitro and in vivo cell tracing. The organic AIE dots outperform their counterparts of inorganic quantum dots, opening a new avenue in the development of fluorescent probes for following biological processes such as carcinogenesis.

SUBMITTER: Li K 

PROVIDER: S-EPMC3556677 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

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Photostable fluorescent organic dots with aggregation-induced emission (AIE dots) for noninvasive long-term cell tracing.

Li Kai K   Qin Wei W   Ding Dan D   Tomczak Nikodem N   Geng Junlong J   Liu Rongrong R   Liu Jianzhao J   Zhang Xinhai X   Liu Hongwei H   Liu Bin B   Tang Ben Zhong BZ  

Scientific reports 20130128


Long-term noninvasive cell tracing by fluorescent probes is of great importance to life science and biomedical engineering. For example, understanding genesis, development, invasion and metastasis of cancerous cells and monitoring tissue regeneration after stem cell transplantation require continual tracing of the biological processes by cytocompatible fluorescent probes over a long period of time. In this work, we successfully developed organic far-red/near-infrared dots with aggregation-induce  ...[more]

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