Synthetic Silica Nano‐Organelles for Regulation of Cascade Reactions in Multi‐Compartmentalized Systems
Abstract: In eukaryotic cells, enzymes are compartmentalized into specific organelles so that different reactions and processes can be performed efficiently and with a high degree of control. In this work, we show that these features can be artificially emulated in robust synthetic organelles constructed using an enzyme co‐compartmentalization strategy. We describe an in situ encapsulation approach that allows enzymes to be loaded into silica nanoreactors in well‐defined compositions. The nanoreactors can be combined into integrated systems to produce a desired reaction outcome. We used the selective enzyme co‐compartmentalization and nanoreactor integration to regulate competitive cascade reactions and to modulate the kinetics of sequential reactions involving multiple nanoreactors. Furthermore, we show that the nanoreactors can be efficiently loaded into giant polymer vesicles, resulting in multi‐compartmentalized microreactors.
- 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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Synthetic Silica Nano‐Organelles for Regulation of Cascade Reactions in Multi‐Compartmentalized Systems ; day:27 ; month:12 ; year:2021 ; extent:7
Angewandte Chemie ; (27.12.2021) (gesamt 7)
- Creator
- DOI
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10.1002/ange.202113784
- URN
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urn:nbn:de:101:1-2021122814120157445049
- Rights
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Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
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15.08.2025, 7:33 AM CEST
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Associated
- Jiang, Shuai
- Caire da Silva, Lucas
- Ivanov, Tsvetomir
- Mottola, Milagro
- Landfester, Katharina
Other Objects (12)
Synthetic Silica Nano‐Organelles for Regulation of Cascade Reactions in Multi‐Compartmentalized Systems
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An Artificial Compartmentalized Biocatalytic Cascade System Constructed With Enzyme‐Caged Reticulate Nanoporous Membranes
Enzyme immobilization in compartmentalized microfluidic devices for serial and parallel multi-enzymatic cascade reactions
Multicompartment Polymer Vesicles with Artificial Organelles for Signal‐Triggered Cascade Reactions Including Cytoskeleton Formation
Compartmentalized Ras signaling in lymphocytes
Nano structure of silica in biological systems
Nano-structural and nano-constraint behavior of mortar containing silica aggregates
Quantum cascade laser light propagation through hollow silica waveguides
Metabolic signalling between organelles
An Artificial Compartmentalized Biocatalytic Cascade System Constructed With Enzyme‐Caged Reticulate Nanoporous Membranes (Adv. Mater. Interfaces 17/2023)
Synthetic Silica Nano‐Organelles for Regulation of Cascade Reactions in Multi‐Compartmentalized Systems
Confining the Sol‐Gel Reaction at the Water/Oil Interface: Creating Compartmentalized Enzymatic Nano‐Organelles for Artificial Cells
Confining the Sol‐Gel Reaction at the Water/Oil Interface: Creating Compartmentalized Enzymatic Nano‐Organelles for Artificial Cells
An Artificial Compartmentalized Biocatalytic Cascade System Constructed With Enzyme‐Caged Reticulate Nanoporous Membranes
Enzyme immobilization in compartmentalized microfluidic devices for serial and parallel multi-enzymatic cascade reactions
Multicompartment Polymer Vesicles with Artificial Organelles for Signal‐Triggered Cascade Reactions Including Cytoskeleton Formation
Compartmentalized Ras signaling in lymphocytes
Nano structure of silica in biological systems
Nano-structural and nano-constraint behavior of mortar containing silica aggregates
Quantum cascade laser light propagation through hollow silica waveguides
Metabolic signalling between organelles
An Artificial Compartmentalized Biocatalytic Cascade System Constructed With Enzyme‐Caged Reticulate Nanoporous Membranes (Adv. Mater. Interfaces 17/2023)
Synthetic Silica Nano‐Organelles for Regulation of Cascade Reactions in Multi‐Compartmentalized Systems
Confining the Sol‐Gel Reaction at the Water/Oil Interface: Creating Compartmentalized Enzymatic Nano‐Organelles for Artificial Cells
Confining the Sol‐Gel Reaction at the Water/Oil Interface: Creating Compartmentalized Enzymatic Nano‐Organelles for Artificial Cells
An Artificial Compartmentalized Biocatalytic Cascade System Constructed With Enzyme‐Caged Reticulate Nanoporous Membranes
Enzyme immobilization in compartmentalized microfluidic devices for serial and parallel multi-enzymatic cascade reactions
Multicompartment Polymer Vesicles with Artificial Organelles for Signal‐Triggered Cascade Reactions Including Cytoskeleton Formation
Compartmentalized Ras signaling in lymphocytes
Nano structure of silica in biological systems
Nano-structural and nano-constraint behavior of mortar containing silica aggregates
Quantum cascade laser light propagation through hollow silica waveguides
Metabolic signalling between organelles