Controlled Grafting Expansion Microscopy
Abstract: Expansion microscopy (ExM) is a recently developed technique that allows for the resolution of structures below the diffraction limit by physically enlarging a hydrogel‐embedded facsimile of the biological sample. The target structure is labeled and this label must be retained in a relative position true to the original, smaller state before expansion by linking it into the gel. However, gel formation and digestion lead to a significant loss in target‐delivered label, resulting in weak signal. To overcome this problem, we have here developed an agent combining targeting, fluorescent labeling and gel linkage in a single small molecule. Similar approaches in the past have still suffered from significant loss of label. Here we show that this loss is due to insufficient surface grafting of fluorophores into the hydrogel and develop a solution by increasing the amount of target‐bound monomers. Overall, we obtain a significant improvement in fluorescence signal retention and our new dye allows the resolution of nuclear pores as ring‐like structures, similar to STED microscopy. We furthermore provide mechanistic insight into dye retention in ExM.
- Location
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Deutsche Nationalbibliothek Frankfurt am Main
- Extent
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Online-Ressource
- Language
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Englisch
- Bibliographic citation
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Controlled Grafting Expansion Microscopy ; day:26 ; month:05 ; year:2023 ; extent:8
Angewandte Chemie ; (26.05.2023) (gesamt 8)
- Creator
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Thielhorn, Ria
Heing‐Becker, Isabelle
Hümpfer, Nadja
Rentsch, Jakob
Haag, Rainer
Licha, Kai
Ewers, Helge
- DOI
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10.1002/ange.202302318
- URN
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urn:nbn:de:101:1-2023053115145779326172
- Rights
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Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
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14.08.2025, 10:55 AM CEST
Data provider
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Associated
- Thielhorn, Ria
- Heing‐Becker, Isabelle
- Hümpfer, Nadja
- Rentsch, Jakob
- Haag, Rainer
- Licha, Kai
- Ewers, Helge
Other Objects (12)
Controlled Grafting Expansion Microscopy
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Combining expansion microscopy with other super-resolution techniques
Expansion Microscopy for Cell Biology Analysis in Fungi
Mapping membrane receptor distribution on resting platelets combining Expansion Microscopy and fluorescence confocal microscopy
Expansion microscopy of neutrophil nuclear structure and extracellular traps
Expansion microscopy applied to mono- and dual-species biofilms
Nanoscale imaging of bacterial infections by sphingolipid expansion microscopy
Nanoscale imaging of bacterial infections by sphingolipid expansion microscopy
Controlled Grafting Expansion Microscopy
Q&A: Expansion microscopy
Expansion Microscopy combined with Super-Resolution Fluorescence Microscopy
Single-shot 20-fold expansion microscopy
Mechanistic Insights and Improvements in Expansion Microscopy
Combining expansion microscopy with other super-resolution techniques
Expansion Microscopy for Cell Biology Analysis in Fungi
Mapping membrane receptor distribution on resting platelets combining Expansion Microscopy and fluorescence confocal microscopy
Expansion microscopy of neutrophil nuclear structure and extracellular traps
Expansion microscopy applied to mono- and dual-species biofilms
Nanoscale imaging of bacterial infections by sphingolipid expansion microscopy
Nanoscale imaging of bacterial infections by sphingolipid expansion microscopy
Controlled Grafting Expansion Microscopy
Q&A: Expansion microscopy
Expansion Microscopy combined with Super-Resolution Fluorescence Microscopy
Single-shot 20-fold expansion microscopy
Mechanistic Insights and Improvements in Expansion Microscopy
Combining expansion microscopy with other super-resolution techniques
Expansion Microscopy for Cell Biology Analysis in Fungi
Mapping membrane receptor distribution on resting platelets combining Expansion Microscopy and fluorescence confocal microscopy
Expansion microscopy of neutrophil nuclear structure and extracellular traps
Expansion microscopy applied to mono- and dual-species biofilms
Nanoscale imaging of bacterial infections by sphingolipid expansion microscopy