Fluorescent flavonoids for endoplasmic reticulum cell imaging

Lucas McDonald; Bin Liu; Alexandra Taraboletti; Kyle Whiddon; Leah P. Shriver; Michael Konopka; Qin Liu; Yi Pang

doi:10.1039/C6TB02456D

Fluorescent flavonoids for endoplasmic reticulum cell imaging

Lucas McDonald
, Bin Liu
, Alexandra Taraboletti
, Kyle Whiddon
, Leah P. Shriver
, Michael Konopka
, Qin Liu
, Yi Pang

Department of Chemistry

Research output: Contribution to journal › Article › peer-review

79 Scopus citations

Abstract

Visualization of subcellular organelles in vivo is critical for basic biomedical research and clinical applications. Two new flavonoids with an amide substituent were synthesized and characterized. The flavonoids were nearly non-fluorescent in aqueous environment, but exhibited two emission peaks (one λ_em at 495-536 nm and the other at 570-587 nm) in organic solvents, which were assigned to the excited normal (N*) and tautomer (T*) emission. When the dyes were examined on oligodendrocyte cells, they were found to selectively accumulate in the endoplasmic reticulum (ER), a eukaryotic organelle involved in lipid and protein synthesis, giving fluorescence turn-on. The ER-selective flavonoids could be a valuable tool due to its low molecular mass (<500), large Stokes' shift, low toxicity, and biocompatibility.

Original language	English
Pages (from-to)	7902-7908
Number of pages	7
Journal	Journal of Materials Chemistry B
Volume	4
Issue number	48
DOIs	https://doi.org/10.1039/C6TB02456D
State	Published - 2016

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title = "Fluorescent flavonoids for endoplasmic reticulum cell imaging",

abstract = "Visualization of subcellular organelles in vivo is critical for basic biomedical research and clinical applications. Two new flavonoids with an amide substituent were synthesized and characterized. The flavonoids were nearly non-fluorescent in aqueous environment, but exhibited two emission peaks (one λem at 495-536 nm and the other at 570-587 nm) in organic solvents, which were assigned to the excited normal (N*) and tautomer (T*) emission. When the dyes were examined on oligodendrocyte cells, they were found to selectively accumulate in the endoplasmic reticulum (ER), a eukaryotic organelle involved in lipid and protein synthesis, giving fluorescence turn-on. The ER-selective flavonoids could be a valuable tool due to its low molecular mass (<500), large Stokes' shift, low toxicity, and biocompatibility.",

author = "Lucas McDonald and Bin Liu and Alexandra Taraboletti and Kyle Whiddon and Shriver, \{Leah P.\} and Michael Konopka and Qin Liu and Yi Pang",

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doi = "10.1039/C6TB02456D",

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T1 - Fluorescent flavonoids for endoplasmic reticulum cell imaging

AU - McDonald, Lucas

AU - Liu, Bin

AU - Taraboletti, Alexandra

AU - Whiddon, Kyle

AU - Shriver, Leah P.

AU - Konopka, Michael

AU - Liu, Qin

AU - Pang, Yi

PY - 2016

Y1 - 2016

N2 - Visualization of subcellular organelles in vivo is critical for basic biomedical research and clinical applications. Two new flavonoids with an amide substituent were synthesized and characterized. The flavonoids were nearly non-fluorescent in aqueous environment, but exhibited two emission peaks (one λem at 495-536 nm and the other at 570-587 nm) in organic solvents, which were assigned to the excited normal (N*) and tautomer (T*) emission. When the dyes were examined on oligodendrocyte cells, they were found to selectively accumulate in the endoplasmic reticulum (ER), a eukaryotic organelle involved in lipid and protein synthesis, giving fluorescence turn-on. The ER-selective flavonoids could be a valuable tool due to its low molecular mass (<500), large Stokes' shift, low toxicity, and biocompatibility.

AB - Visualization of subcellular organelles in vivo is critical for basic biomedical research and clinical applications. Two new flavonoids with an amide substituent were synthesized and characterized. The flavonoids were nearly non-fluorescent in aqueous environment, but exhibited two emission peaks (one λem at 495-536 nm and the other at 570-587 nm) in organic solvents, which were assigned to the excited normal (N*) and tautomer (T*) emission. When the dyes were examined on oligodendrocyte cells, they were found to selectively accumulate in the endoplasmic reticulum (ER), a eukaryotic organelle involved in lipid and protein synthesis, giving fluorescence turn-on. The ER-selective flavonoids could be a valuable tool due to its low molecular mass (<500), large Stokes' shift, low toxicity, and biocompatibility.

UR - https://www.scopus.com/pages/publications/85002988676

U2 - 10.1039/C6TB02456D

DO - 10.1039/C6TB02456D

M3 - Article

AN - SCOPUS:85002988676

SN - 2050-7518

VL - 4

SP - 7902

EP - 7908

JO - Journal of Materials Chemistry B

JF - Journal of Materials Chemistry B

IS - 48

ER -

Fluorescent flavonoids for endoplasmic reticulum cell imaging

Abstract

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