[R01] Prototyping and demonstration of an ultra-sensitive novel micro-resonator for X-band EPR spectroscopy of diluted and volume-limited samples
Ente: National Institute of General Medical Sciences
Scadenza: 2029-06-30
Importo max: 534.074 EUR
Paese: US
Descrizione
PROJECT SUMMARY / ABSTRACT
Proteins are often used for drug targets. Understanding the structure, function, and reaction
mechanisms of proteins is crucial. Over the last three decades, inductively detected Electron
Paramagnetic Resonance (EPR) has been utilized to elucidate the structure, function, and reaction
mechanisms of enzymes and membrane proteins, as well as to quantify reactive oxygen and nitrogen
species. The EPR is useful because it is a highly sensitive, powerful, and versatile technique. Proteins
such as metalloproteins, membrane proteins, and G-proteins are challenging to purify in sufficient
quantities to obtain measurable signals using standard EPR methods. These proteins, Metalloproteins,
membrane proteins, and G-proteins constitute almost 30% of all drug targets. However, due to the
scarcity of sufficient samples, understanding the structure-function relation using EPR is challenging
and thus poorly understood. This proposal focuses on developing a novel micro-resonator to increase
the sensitivity of the current state-of-the-art X-band EPR spectrometer by an order of magnitude. If
successful, the unprecedented sensitivity for EPR spectroscopy would broaden its applicability to low-
yield biomacromolecular samples whose structures are currently poorly understood due to a lack of
sensitivity. The resonator is at the heart of any EPR spectrometer, which interfaces with the samples
and enhances the signal-to-noise ratio. The ultimate goal of the proposed project is to design, simulate,
build, and demonstrate the proposed novel micro-resonator. The proposed project also focuses on a
resonator design that is easy to manufacture using a standard commercial PCB substrate and
integrates seamlessly with the existing X-band EPR spectrometer. The preliminary simulated result
indicates that the proposed resonator would exhibit ultra-high sensitivity due to its high quality factor (Q
~ 9000), nanoliter fill factor, and highly efficient magnetic field concentration for Electron Paramagnetic
Resonance.
Istituzione: WICHITA STATE UNIVERSITY
PI: Kapildeb Ambal
Progetto: 1R01GM166177-01
Settori: National Institute of General Medical Sciences
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