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公开(公告)号:US12098215B2
公开(公告)日:2024-09-24
申请号:US16307621
申请日:2017-06-06
Applicant: NORTHWESTERN UNIVERSITY
Inventor: Milan Mrksich , Justin A. Modica
CPC classification number: C07K16/46 , A61P19/02 , A61P35/00 , A61P37/00 , C07K16/32 , C12N9/18 , C12Y301/01074 , A61K2039/505 , C07K2317/24 , C07K2317/55 , C07K2317/565 , C07K2317/73 , C07K2317/92 , C07K2317/94 , C07K2319/00 , C07K2319/61 , C12Y201/01037 , C12Y301/21002 , C12Y302/01021 , C12Y304/11018 , C12Y304/24024 , C12Y305/02006
Abstract: The disclosure provides constructs comprising a first fusion protein, a second fusion protein, and a linker, wherein the first fusion protein and the second fusion protein each include an affinity reagent and a reactive enzyme, and the linker includes a first and second functional groups specific for irreversibly inhibiting the first and second fusion protein reactive enzymes. The disclosure further provides a method including (a) contacting a first fusion protein including an affinity reagent and a reactive enzyme with a linker including a functional group specific for irreversibly inhibiting the first fusion protein reactive enzyme thereby coupling the first fusion protein and the linker, and (b) contacting a second fusion protein including an affinity reagent and a reactive enzyme with the linker, the linker including a functional group specific for irreversibly inhibiting the second fusion protein reactive enzyme thereby coupling the second fusion protein and the linker.
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公开(公告)号:US20190161556A1
公开(公告)日:2019-05-30
申请号:US16307621
申请日:2017-06-06
Applicant: NORTHWESTERN UNIVERSITY
Inventor: Milan Mrksich , Justin A. Modica
Abstract: The disclosure provides constructs comprising a first fusion protein, a second fusion protein, and a linker, wherein the first fusion protein and the second fusion protein each include an affinity reagent and a reactive enzyme, and the linker includes a first and second functional groups specific for irreversibly inhibiting the first and second fusion protein reactive enzymes. The disclosure further provides a method including (a) contacting a first fusion protein including an affinity reagent and a reactive enzyme with a linker including a functional group specific for irreversibly inhibiting the first fusion protein reactive enzyme thereby coupling the first fusion protein and the linker, and (b) contacting a second fusion protein including an affinity reagent and a reactive enzyme with the linker, the linker including a functional group specific for irreversibly inhibiting the second fusion protein reactive enzyme thereby coupling the second fusion protein and the linker.
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公开(公告)号:US20250059301A1
公开(公告)日:2025-02-20
申请号:US18805059
申请日:2024-08-14
Applicant: NORTHWESTERN UNIVERSITY
Inventor: Milan Mrksich , Justin A. Modica
Abstract: The disclosure provides constructs comprising a first fusion protein, a second fusion protein, and a linker, wherein the first fusion protein and the second fusion protein each include an affinity reagent and a reactive enzyme, and the linker includes a first and second functional groups specific for irreversibly inhibiting the first and second fusion protein reactive enzymes. The disclosure further provides a method including (a) contacting a first fusion protein including an affinity reagent and a reactive enzyme with a linker including a functional group specific for irreversibly inhibiting the first fusion protein reactive enzyme thereby coupling the first fusion protein and the linker, and (b) contacting a second fusion protein including an affinity reagent and a reactive enzyme with the linker, the linker including a functional group specific for irreversibly inhibiting the second fusion protein reactive enzyme thereby coupling the second fusion protein and the linker.
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公开(公告)号:US11530404B2
公开(公告)日:2022-12-20
申请号:US16306563
申请日:2017-05-25
Applicant: Northwestern University
Inventor: Omar K. Farha , Peng Li , Justin A. Modica , Milan Mrksich , Joseph T. Hupp
IPC: C12N11/02 , C12N11/14 , C12P9/00 , A62D3/02 , C12N9/16 , C12N9/18 , A62D101/02 , A62D101/26
Abstract: Enzyme-immobilizing MOFs and methods for their use in enzymatically catalyzed reactions are provided. The MOFs are channel-type MOFs that present a hierarchical pore structure comprising a first set of large channels sized for enzyme immobilization and a second set of smaller channels running alongside of the large channels that remain enzyme-free and allow for reactant delivery to the enzymes and product expulsion from the larger channels.
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