Nanomechanical biosensors based on atomic force microscopy (AFM) cantilevers have garnered considerable attention. AFM cantilevers are devices that can detect a target either via a surface functionalization process based on immobilization through molecular adsorption, or through the selective chemical binding of a speci¯c molecule, transforming the device into a speci¯c biosensor. In this study, we demonstrate that functionalized AFM cantilevers could be used, in a process involving self-assembling layers, to create a homogeneous surface layer of the widely used herbicide mesotrione. Controlled experiments to evaluate its detection were performed, and binding between mesotrione and its target molecule, 4-hydroxyphenylpyruvate dioxygenase (HPPD), was evaluated using de°ection curves of functionalized cantilevers interacting with mesotrione. The cantilevers worked as nanomechanical sensors inside a°uid cell device, under di®erent ¶ Corresponding author.
1750079-1NANO: Brief Reports and Reviews Vol. 12, No. 7 (2017) concentrations of HPPD diluted in PBS. After evaluating increasing concentrations of HPPD, the de°ection curves showed a clear, dose-dependent pattern. The homogeneous dispersion of mesotrione on the cantilevers was assessed by confocal microscopy, and this corroborated the functionalization method. Thus, the results obtained by this functionalized cantilever presented a high e±ciency in detecting binding between HPPD and mesotrione molecules at concentrations as low as 17 ng mL À1 . In this way, as a preliminary step for a future environmental contaminants nanosensor development, the described detection method showed a suitable capability for molecular recognition at the nanoscale.
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