2012
DOI: 10.1039/c2cc33172a
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A highly sensitive “switch-on” fluorescent probe for protein quantification and visualization based on aggregation-induced emission

Abstract: A highly sensitive and water-soluble "switch-on" fluorescent probe with aggregation-induced emission characteristics was developed for protein quantification and visualization. It offers a rapid, economic and effective way for the assay of complete serum proteins and disease-marker proteins.

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Cited by 70 publications
(52 citation statements)
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References 38 publications
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“…However, it is difficult to make the hydrophobic luminophores hydrophilic with unchangeable functions. In addition, the water-soluble probes in solution also exhibit some inborn shortcomings, impeding their extensive applications: (1) the solution-based luminescent platform is inconvenient to store and transport; 18,19 (2) the water-soluble probes cannot be recycled and used because they are not easily separated from the analytes in solution; [20][21][22] (3) the random disposal of these one-off probes leads to the reagent consumption and environmental pollution; 23,24 (4) for the biological samples (e.g., cells and tissue), the water-soluble probes might induce unexpected chemicals released from biological samples; 25 and (5) the water-soluble probes are difficult to be used for vapor/gas detection. On the other hand, the development of inorganic luminophores with water-soluble ligands, such as quantum dots (QDs) [13][14][15] and luminescent metal nanoclusters (NCs), 16,17 seems to be an alternative method but encounters new problems (e.g., limited variety).…”
Section: Introductionmentioning
confidence: 99%
“…However, it is difficult to make the hydrophobic luminophores hydrophilic with unchangeable functions. In addition, the water-soluble probes in solution also exhibit some inborn shortcomings, impeding their extensive applications: (1) the solution-based luminescent platform is inconvenient to store and transport; 18,19 (2) the water-soluble probes cannot be recycled and used because they are not easily separated from the analytes in solution; [20][21][22] (3) the random disposal of these one-off probes leads to the reagent consumption and environmental pollution; 23,24 (4) for the biological samples (e.g., cells and tissue), the water-soluble probes might induce unexpected chemicals released from biological samples; 25 and (5) the water-soluble probes are difficult to be used for vapor/gas detection. On the other hand, the development of inorganic luminophores with water-soluble ligands, such as quantum dots (QDs) [13][14][15] and luminescent metal nanoclusters (NCs), 16,17 seems to be an alternative method but encounters new problems (e.g., limited variety).…”
Section: Introductionmentioning
confidence: 99%
“…The nanoribbons were found to interact with the protein and induce conformational changes to its secondary structure, including the α‐helix content, that unfolded the ferritin protein and disrupted the emissive nanoribbons. The turn‐off detection of ferritin seemed to be instant and gave a good LOD of up to 0.33 ng mL −1 ; this is superior to the AIE‐based light‐up method (0.78 ng mL −1 ) . Detection was selective and showed negligible responses to a range of other metalloproteins.…”
Section: Detection Localization and Quantification Of Proteinsmentioning
confidence: 99%
“…Recently we discovered an AIE-active molecule, 1,2-Bis [4-(3sulfonatopropoxyl) phenyl]-1,2-diphenylethene salt (BSPOTPE), for staining live particles [24]. BSPOTPE is a water-soluble and biocompatible fluorogen without fluorescence in physiological buffers.…”
Section: Microalgae Can Be a Valuable Indicator In Water Pollution Momentioning
confidence: 99%