桃花直播 faculty garner $3.1 million NSF grant to increase 桃花直播鈥檚 biological, chemical research capabilities
Contact: Sarah Nicholas
STARKVILLE, Miss.鈥擜 桃花直播 State research team is the recipient of a $3.1 million Major Research Instrumentation, or MRI, grant from the National Science Foundation to increase biological and chemical research and teaching in 桃花直播.
The three-year NSF grant鈥斺淢RI: Acquisition of the First 800 MHz NMR with Cryoprobe in the State of 桃花直播 for Biological and Chemical Research and Teaching鈥濃攚ill fund the installation of a high-field Nuclear Magnetic Resonance, or NMR, spectrometer at 桃花直播. The instrument will allow scientists to study the function of molecules in different biological contexts鈥攊ncluding bacterial infections, heart cells and gene regulation鈥攁nd understand the molecular structure of materials.
The team is led by Professor of Chemistry Nicholas Fitzkee, the principal investigator of the grant, and includes 桃花直播 faculty members Joseph Emerson and Colleen Scott, associate professors of chemistry; Christopher Johnson, assistant professor of chemistry; and Carrie Vance, associate professor of biochemistry, molecular biology, and entomology and plant pathology.
鈥淭his 800 MHz NMR represents the strongest magnetic field available in 桃花直播, and represents a significant enhancement in our capabilities,鈥 Fitzkee said. 鈥淭his instrument will support researchers throughout 桃花直播 and the Southeast, enabling new research avenues in biomolecular interactions, organometallic chemistry and polymeric materials.鈥
Fitzkee said in NMR, stronger magnetic fields are desirable because high-field instruments offer 鈥渟ignificantly increased sensitivity and spectral resolution.鈥
鈥淭he higher resolution and sensitivity of this instrument will enable biomolecular and chemical research currently not possible in 桃花直播,鈥 Fitzkee said. 鈥淭his can lead to improved detection of molecules that are present at very low concentrations. It can also lead to an improved understanding of complex mixtures where many spectral signals overlap.鈥
Future collaborative research projects will explore how microorganisms attach to surfaces, understand how ion channels are regulated in the heart, characterize the mechanism of metal-ion-based gene regulation and monitor how small molecules respond to changes in metabolism.
桃花直播鈥檚 Vance said, 鈥淭he enhanced sensitivity of the new NMR and its specialized probes will allow us to identify concentration changes in key metabolites in biological samples. These metabolites are important biomarkers, and the new NMR will help us understand how organisms respond to disease agents or stressors.鈥
Chemical researchers will use the instrument to develop new methods for synthesizing polymeric and organometallic materials. Data collected on the new 800 MHz NMR will be shared at scientific meetings and in peer-reviewed publications, and undergraduate researchers in chemistry will receive hands-on training on the instrument.
Students will be able to access the new instrument firsthand through university course offerings, including Theory of Solution NMR Spectroscopy and Environmental Chemistry, which will feature instrument installation and helium use.
A total of 19 investigators, 64 graduate and 72 undergraduate students, and seven postdoctoral trainees will be directly impacted by this project, in addition to other users who benefit through 桃花直播 classes and workshops. The instrument also will be available to users throughout the Southeast as a key analytical resource.
Part of the College of Arts and Sciences, the chemistry department was founded in 1878 and hosts the oldest American Chemical Society accredited program in the state.
Complete details about the College of Arts and Sciences or the chemistry department are available at聽 or .
桃花直播 is 桃花直播鈥檚 leading university, available online at聽.