Electrophilic, Activation-Free Fluorogenic Reagent for Labeling Bioactive Amines

Sintes, Miquel; Moliner, Fabio De; Caballero-Lima, David; Denning, David W.; Read, Nick D.; Kielland, Nicola; Vendrell, Marc; Lavilla, Rodolfo

doi:10.1021/acs.bioconjchem.6b00245

Cited by 22 publications

(12 citation statements)

References 43 publications

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“…[ 33 ] Some PeT‐dependent BODIPY fluorophore systems have been found to be sensitive to the polarity environment, showing increased fluorescence quenching in different microenvironments or upon binding to various analytes. [ 34–39 ]…”

Section: Chemical Synthesis Of Fluorescent Cyclic Peptidesmentioning

confidence: 99%

“…[33] Some PeT-dependent BODIPY fluorophore systems have been found to be sensitive to the polarity environment, showing increased fluorescence quenching in different microenvironments or upon binding to various analytes. [34][35][36][37][38][39] Depending on the anchoring functional groups, the incorporation of the fluorescent moiety into the cyclic peptide is performed either before or after the cyclisation step through different covalent linkages such as amide, [40][41][42] thioamide, [43] and thioether [44] bonds, the former being the most widely applied ( Figure 1D). [45] Additionally, numerous attempts have been made to explore alternative approaches.…”

Section: Synthetic Approaches For Fluorescent Peptide Labelingmentioning

confidence: 99%

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Fluorescent cyclic peptides for cell imaging

2020

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Fluorescent cyclic peptides are excellent chemical scaffolds to build optical agents for molecular imaging. In addition to their favorable physicochemical properties, they can be modified with multiple organic fluorophores and generate useful probes for biological assays targeting specific proteins, namely receptors or enzymes. In this article, we review recent advances in the synthetic approaches for the preparation of fluorescent cyclic peptides as well as some of their applications in biological imaging, from in vitro live‐cell imaging studies to in vivo characterization of preclinical models.

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Section: Chemical Synthesis Of Fluorescent Cyclic Peptidesmentioning

confidence: 99%

Section: Synthetic Approaches For Fluorescent Peptide Labelingmentioning

confidence: 99%

Fluorescent cyclic peptides for cell imaging

2020

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“…Vor kurzem wurde dieser Ansatz auf Isochinolin‐substituierte BODIPY‐Strukturen ausgeweitet. Die daraus resultierenden mesoionischen BODIPY‐Verbindungen wurden zur aktivierungslosen Markierung von bioaktiven Aminen verwendet, und ein fluoreszierendes Analogon des antimykotischen Agens Natamycin wurde für die Abbildung von Pilzzellen entwickelt (Abbildung C) …”

Section: Mehrkomponentenreaktionenunclassified

“…TFAA=Trifluoressigsäureanhydrid. Wiedergabe mit Genehmigung der Royal Society of Chemistry (A) und der American Chemical Society (C) …”

Section: Mehrkomponentenreaktionenunclassified

Moderne Strategien zur Synthese funktioneller Fluorophore

et al. 2017

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Die biomedizinische Forschung ist auf die schnelle, akkurate und nicht‐invasive Charakterisierung spezifischer Biomoleküle und Zellen angewiesen. Funktionelle Fluorophore sind für derartige Studien von enormem Nutzen. Da diese komplexen Strukturen oftmals mit konventionellen Mitteln der Synthese nur schwer zugänglich sind, wurden in den letzten Jahren neuartige chemische Prozesse entwickelt. Dieser Kurzaufsatz beschreibt die jüngsten Entwicklungen im Bezug auf Design, Herstellung und Feinregulierung von Fluorophoren mittels Mehrkomponentenreaktionen, C‐H‐Aktivierungsprozessen, Cycloadditionen und Biomolekül‐basierten chemischen Transformationen.

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“…In the last decades, multiple chemical approaches have been reported for the development of fluorescent probes that enable direct visualisation of biomolecules and cells. These encompass broad diversityoriented fluorescent libraries to identify novel biomarkers of cell states [4] as well as reactive fluorophores for targeted conjugation to small molecules and drugs [5][6][7]. Major advantages of fluorescent probes include: 1) high sensitivity with typically low limits of detection [8][9][10], 2) compatibility for multiplexed assays [11,12], and 3) high versatility in multiple assay formats, from mechanistic studies [13,14] to high-throughput screenings [15] and in vivo imaging [16].…”

Section: Introductionmentioning

confidence: 99%

Fluorescent peptides for imaging of fungal cells

Zhao

Mendive‐Tapia

Vendrell

2019

Archives of Biochemistry and Biophysics

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Fungal infections, especially with the advent of antimicrobial resistance, represent a major burden to our society. As a result, there has been an increasing interest in the development of new probes that accelerate the study of fungi-related biological processes and facilitate novel clinical diagnostic and treatment strategies. Fluorescence-based reporters can provide dynamic information at the molecular level with high spatial resolution. However, conventional fluorescent probes for microbes often suffer from low specificity. In the last decade, numerous studies have been reported on the chemical design and application of fluorescent peptides for both in vitro and in vivo imaging of fungal cells. In this article, we review different strategies used in the preparation of fluorescent peptides for pathogenic fungi as well as some of their applications in medical imaging and in mode-of-action mechanistic studies.

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Electrophilic, Activation-Free Fluorogenic Reagent for Labeling Bioactive Amines

Cited by 22 publications

References 43 publications

Fluorescent cyclic peptides for cell imaging

Fluorescent cyclic peptides for cell imaging

Moderne Strategien zur Synthese funktioneller Fluorophore

Fluorescent peptides for imaging of fungal cells

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