Cecilia A. Prator scite author profile

Metasurfaces are engineered nanostructured interfaces that extend the photonic behavior of natural materials, and they spur many breakthroughs in multiple fields, including quantum optics, optoelectronics, and biosensing. Recent advances in metasurface nanofabrication enable precise manipulation of light–matter interactions at subwavelength scales. However, current fabrication methods are costly and time‐consuming and have a small active area with low reproducibility due to limitations in lithography, where sensing nanosized rare biotargets requires a wide active surface area for efficient binding and detection. Here, a plastic‐templated tunable metasurface with a large active area and periodic metal–dielectric layers to excite plasmonic Fano resonance transitions providing multimodal and multiplex sensing of small biotargets, such as proteins and viruses, is introduced. The tunable Fano resonance feature of the metasurface is enabled via chemical etching steps to manage nanoperiodicity of the plastic template decorated with plasmonic layers and surrounding dielectric medium. This metasurface integrated with microfluidics further enhances the light–matter interactions over a wide sensing area, extending data collection from 3D to 4D by tracking real‐time biomolecular binding events. Overall, this work resolves cost‐ and complexity‐related large‐scale fabrication challenges and improves multilayer sensitivity of detection in biosensing applications.

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Metabolic Strategies Shared by Basement Residents of the Lost City Hydrothermal Field

Brazelton

McGonigle

Motamedi

et al. 2022

Appl Environ Microbiol

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The Lost City hydrothermal field is an iconic example of a microbial ecosystem fueled by energy and carbon from Earth’s mantle. Uplift of mantle rocks into the seafloor can trigger a process known as serpentinization that releases molecular hydrogen (H 2 ) and creates unusual environmental conditions where simple organic carbon molecules are more stable than dissolved inorganic carbon.

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Vector Transmission of Grapevine Leafroll-Associated Viruses

Herrbach

Alliaume

Prator

et al. 2017

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Venom Variation during Prey Capture by the Cone Snail, Conus textile

2014

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Observations of the mollusc-hunting cone snail Conus textile during feeding reveal that prey are often stung multiple times in succession. While studies on the venom peptides injected by fish-hunting cone snails have become common, these approaches have not been widely applied to the analysis of the injected venoms from mollusc-hunters. We have successfully obtained multiple injected venom samples from C. textile individuals, allowing us to investigate venom compositional variation during prey capture. Our studies indicate that C. textile individuals alter the composition of prey-injected venom peptides during single feeding events. The qualitative results obtained by MALDI-ToF mass spectrometry are mirrored by quantitative changes in venom composition observed by reverse-phase high performance liquid chromatography. While it is unclear why mollusc-hunting cone snails inject prey multiple times prior to engulfment, our study establishes for the first time a link between this behavior and compositional changes of the venom during prey capture. Changes in venom composition during hunting may represent a multi-step strategy utilized by these venomous animals to slow and incapacitate prey prior to engulfment.

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Infection and Colonization of Nicotiana benthamiana by Grapevine leafroll-associated virus 3

et al. 2017

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Cecilia A. Prator

Tunable Fano‐Resonant Metasurfaces on a Disposable Plastic‐Template for Multimodal and Multiplex Biosensing

Metabolic Strategies Shared by Basement Residents of the Lost City Hydrothermal Field

Vector Transmission of Grapevine Leafroll-Associated Viruses

Venom Variation during Prey Capture by the Cone Snail, Conus textile

Infection and Colonization of Nicotiana benthamiana by Grapevine leafroll-associated virus 3

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