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Graphene Biosensor Programming with Genetically Engineered Fusion Protein Monolayers. | LitMetric

AI Article Synopsis

  • This research presents a novel label-free biosensor that uses specific receptor modules for selective detection of targeted analyte molecules and employs a graphene field effect transistor for charge sensing.
  • The receptor modules are created from fusion proteins where hydrophobin proteins help to anchor the receptor to the sensor, allowing for a single-step process of sensor functionalization.
  • The biosensor can be easily reconfigured to detect different analytes, has a stable shelf life, and shows high sensitivity and quick response times when tested with various molecules.

Article Abstract

We demonstrate a label-free biosensor concept based on specific receptor modules, which provide immobilization and selectivity to the desired analyte molecules, and on charge sensing with a graphene field effect transistor. The receptor modules are fusion proteins in which small hydrophobin proteins act as the anchor to immobilize the receptor moiety. The functionalization of the graphene sensor is a single-step process based on directed self-assembly of the receptor modules on a hydrophobic surface. The modules are produced separately in fungi or plants and purified before use. The modules form a dense and well-oriented monolayer on the graphene transistor channel and the receptor module monolayer can be removed, and a new module monolayer with a different selectivity can be assembled in situ. The receptor module monolayers survive drying, showing that the functionalized devices can be stored and have a reasonable shelf life. The sensor is tested with small charged peptides and large immunoglobulin molecules. The measured sensitivities are in the femtomolar range, and the response is relatively fast, of the order of one second.

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Source
http://dx.doi.org/10.1021/acsami.6b00123DOI Listing

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