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The promise of graphene-based transistors for democratizing multiomics studies

Hsiang‐Wei Lu, Alexander A. Kane, Jonathan Parkinson, Yingning Gao, Reza Hajian, Michael Heltzen, Brett Goldsmith, Kiana Aran

2021Biosensors and Bioelectronics41 citationsDOIOpen Access PDF

Abstract

As biological research has synthesized genomics, proteomics, metabolomics, and transcriptomics into systems biology, a new multiomics approach to biological research has emerged. Today, multiomics studies are challenging and expensive. An experimental platform that could unify the multiple omics approaches to measurement could increase access to multiomics data by enabling more individual labs to successfully attempt multiomics studies. Field effect biosensing based on graphene transistors have gained significant attention as a potential unifying technology for such multiomics studies. This review article highlights the outstanding performance characteristics that makes graphene field effect transistor an attractive sensing platform for a wide variety of analytes important to system biology. In addition to many studies demonstrating the biosensing capabilities of graphene field effect transistors, they are uniquely suited to address the challenges of multiomics studies by providing an integrative multiplex platform for large scale manufacturing using the well-established processes of semiconductor industry. Furthermore, the resulting digital data is readily analyzable by machine learning to derive actionable biological insight to address the challenge of data compatibility for multiomics studies. A critical stage of systems biology will be democratizing multiomics study, and the graphene field effect transistor is uniquely positioned to serve as an accessible multiomics platform.

Topics & Concepts

NanotechnologySystems biologyComputational biologyComputer scienceData scienceBiologyMaterials scienceAdvanced biosensing and bioanalysis techniquesElectrochemical sensors and biosensorsAnalytical Chemistry and Sensors
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