Plum Pox Virus (PPV) is the pathogen responsible for Sharka, a highly infectious disease affecting stone fruit trees and causing severe economic damages, which can be only contained through early-detection and frequent monitoring. We propose a bioelectronic PPV biosensor, based on a electrolyte-gated organic field-effect transistor (EGOFET), for the specific detection of PPV in plant extracts with a sub ng/ml detection limit. The sensing unit of the biosensor is based on anti-PPV antibodies, uniformly oriented on the gold gate electrode by using a sub-monolayer of Protein G. The sensitivity and dynamic range of the EGOFET-based biosensor are comparable to those of commercially available platforms for detection of plant pathogens. This novel electronic immunosensor is compatible with low-cost fabrication procedures and can be easily reconfigured into a fully portable device to be operated in greenhouse and in the field orchards.
Label free detection of plant viruses with organic transistor biosensors / Berto, Marcello; Vecchi, Eugenia; Baiamonte, Luca; Condò, Carla; Sensi, Matteo; Di Lauro, Michele; Sola, Marco; De Stradis, Angelo; Biscarini, Fabio; Minafra, Angelantonio; Bortolotti, Carlo Augusto. - In: SENSORS AND ACTUATORS. B, CHEMICAL. - ISSN 0925-4005. - 281:(2019), pp. 150-156. [10.1016/j.snb.2018.10.080]
Label free detection of plant viruses with organic transistor biosensors
Berto, Marcello;BAIAMONTE, LUCA;Condò, Carla;SENSI, MATTEO;Di Lauro, Michele;Sola, Marco;Biscarini, Fabio;Bortolotti, Carlo Augusto
2019
Abstract
Plum Pox Virus (PPV) is the pathogen responsible for Sharka, a highly infectious disease affecting stone fruit trees and causing severe economic damages, which can be only contained through early-detection and frequent monitoring. We propose a bioelectronic PPV biosensor, based on a electrolyte-gated organic field-effect transistor (EGOFET), for the specific detection of PPV in plant extracts with a sub ng/ml detection limit. The sensing unit of the biosensor is based on anti-PPV antibodies, uniformly oriented on the gold gate electrode by using a sub-monolayer of Protein G. The sensitivity and dynamic range of the EGOFET-based biosensor are comparable to those of commercially available platforms for detection of plant pathogens. This novel electronic immunosensor is compatible with low-cost fabrication procedures and can be easily reconfigured into a fully portable device to be operated in greenhouse and in the field orchards.
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