GENETICALLY CONTROLLED NANOSCOPY CONTRAST-GENERATING UNITS, GENETICALLY CONTROLLED STRUCTURAL ELEMENTS, GENETICALLY CONTROLLED SCAFFOLDS, NANOBIOMATERIAL BASED THEREON, AND USE THEREOF IN NANOSOCOPY METHODS

The present invention relates to a genetically controlled nanoscopy contrast-generating unit comprising a metal interactor, wherein the metal interactor is compatible with nanoscopy fixation protocols, nanoscopy post-fixation protocols, and nanoscopy metal staining protocols and wherein the metal in...

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Hauptverfasser:	SIGMUND, Felix, BEREZIN, Oleksandr, ELGAMACY, Mohammad, WESTMEYER, Gil Gregor, ARMBRUST, Niklas, PIOVESAN, Alberto, TRUONG, Dong-Jiunn Jeffery
Format:	Patent
Sprache:	eng ; fre ; ger
Schlagworte:	CHEMISTRY INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIRCHEMICAL OR PHYSICAL PROPERTIES MANUFACTURE OR TREATMENT OF NANOSTRUCTURES MEASUREMENT OR ANALYSIS OF NANOSTRUCTURES MEASURING METALLURGY NANOTECHNOLOGY ORGANIC CHEMISTRY PEPTIDES PERFORMING OPERATIONS PHYSICS SPECIFIC USES OR APPLICATIONS OF NANOSTRUCTURES TESTING TRANSPORTING
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creator	SIGMUND, Felix BEREZIN, Oleksandr ELGAMACY, Mohammad WESTMEYER, Gil Gregor ARMBRUST, Niklas PIOVESAN, Alberto TRUONG, Dong-Jiunn Jeffery
description	The present invention relates to a genetically controlled nanoscopy contrast-generating unit comprising a metal interactor, wherein the metal interactor is compatible with nanoscopy fixation protocols, nanoscopy post-fixation protocols, and nanoscopy metal staining protocols and wherein the metal interactor is a molecule to which metal ions can bind to or react with. The metal interactor is not a ferroxidase and is not an enzymatic product from an exogenous substrate. The present invention also relates to a genetically controlled structural element, wherein said genetically controlled structural element organizes the genetically controlled nanoscopy contrast-generating unit. The present invention also relates to a genetically controlled scaffold, wherein said genetically controlled scaffold spatially organizes the genetically controlled structural elements. The present invention also relates to the use of such genetically controlled nanoscopy contrast-generating unit, such genetically controlled structural element, and/or such genetically controlled scaffold for nanoscopy detection methods. The present invention also relates to a nanobiomaterial consisting of the isolated genetically controlled structural elements, and/or genetically controlled scaffolds. The present invention also relates to vectors comprising a nucleic acid encoding a genetically controlled nanoscopy contrast-generating unit, a genetically controlled structural element, and/or a genetically controlled scaffold.
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The metal interactor is not a ferroxidase and is not an enzymatic product from an exogenous substrate. The present invention also relates to a genetically controlled structural element, wherein said genetically controlled structural element organizes the genetically controlled nanoscopy contrast-generating unit. The present invention also relates to a genetically controlled scaffold, wherein said genetically controlled scaffold spatially organizes the genetically controlled structural elements. The present invention also relates to the use of such genetically controlled nanoscopy contrast-generating unit, such genetically controlled structural element, and/or such genetically controlled scaffold for nanoscopy detection methods. The present invention also relates to a nanobiomaterial consisting of the isolated genetically controlled structural elements, and/or genetically controlled scaffolds. 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The metal interactor is not a ferroxidase and is not an enzymatic product from an exogenous substrate. The present invention also relates to a genetically controlled structural element, wherein said genetically controlled structural element organizes the genetically controlled nanoscopy contrast-generating unit. The present invention also relates to a genetically controlled scaffold, wherein said genetically controlled scaffold spatially organizes the genetically controlled structural elements. The present invention also relates to the use of such genetically controlled nanoscopy contrast-generating unit, such genetically controlled structural element, and/or such genetically controlled scaffold for nanoscopy detection methods. The present invention also relates to a nanobiomaterial consisting of the isolated genetically controlled structural elements, and/or genetically controlled scaffolds. 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The metal interactor is not a ferroxidase and is not an enzymatic product from an exogenous substrate. The present invention also relates to a genetically controlled structural element, wherein said genetically controlled structural element organizes the genetically controlled nanoscopy contrast-generating unit. The present invention also relates to a genetically controlled scaffold, wherein said genetically controlled scaffold spatially organizes the genetically controlled structural elements. The present invention also relates to the use of such genetically controlled nanoscopy contrast-generating unit, such genetically controlled structural element, and/or such genetically controlled scaffold for nanoscopy detection methods. The present invention also relates to a nanobiomaterial consisting of the isolated genetically controlled structural elements, and/or genetically controlled scaffolds. The present invention also relates to vectors comprising a nucleic acid encoding a genetically controlled nanoscopy contrast-generating unit, a genetically controlled structural element, and/or a genetically controlled scaffold.</abstract><oa>free_for_read</oa></addata></record>
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language	eng ; fre ; ger
recordid	cdi_epo_espacenet_EP4479749A1
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subjects	CHEMISTRY INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIRCHEMICAL OR PHYSICAL PROPERTIES MANUFACTURE OR TREATMENT OF NANOSTRUCTURES MEASUREMENT OR ANALYSIS OF NANOSTRUCTURES MEASURING METALLURGY NANOTECHNOLOGY ORGANIC CHEMISTRY PEPTIDES PERFORMING OPERATIONS PHYSICS SPECIFIC USES OR APPLICATIONS OF NANOSTRUCTURES TESTING TRANSPORTING
title	GENETICALLY CONTROLLED NANOSCOPY CONTRAST-GENERATING UNITS, GENETICALLY CONTROLLED STRUCTURAL ELEMENTS, GENETICALLY CONTROLLED SCAFFOLDS, NANOBIOMATERIAL BASED THEREON, AND USE THEREOF IN NANOSOCOPY METHODS
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