Jessica I. Kelz scite author profile

We present a unique approach combining biological manipulation with advanced imaging tools to examine silica cell wall synthesis in the diatom Thalassiosira pseudonana. The innate capabilities of diatoms to form complex 3D silica structures on the nano- to micro-scale exceed current synthetic approaches because they use a fundamentally different formation process. Understanding the molecular details of the process requires identifying structural intermediates and correlating their formation with genes and proteins involved. This will aid in development of approaches to controllably alter structure, facilitating the use of diatoms as a direct source of nanostructured materials. In T. pseudonana, distinct silica morphologies were observed during formation of different cell wall substructures, and three different scales of structural organization were identified. At all levels, structure formation correlated with optimal design properties for the final product. These results provide a benchmark of measurements and new insights into biosilicification processes, potentially also benefiting biomimetic approaches.

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Design and construction of a quadruple-resonance MAS NMR probe for investigation of extensively deuterated biomolecules

Collier

Sengupta

Espinosa

et al. 2017

Journal of Magnetic Resonance

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Extensive deuteration is frequently used in solid-state NMR studies of biomolecules because it dramatically reduces both homonuclear (H-H) and heteronuclear (H-C and H-N) dipolar interactions. This approach greatly improves resolution, enables low-power rf decoupling, and facilitates H-detected experiments even in rigid solids at moderate MAS rates. However, the resolution enhancement is obtained at some cost due the reduced abundance of protons available for polarization transfer. Although deuterium is a useful spin-1 NMR nucleus, in typical experiments the deuterons are not directly utilized because the available probes are usually triple-tuned to H,C and N. Here we describe aH/C/H/N MAS ssNMR probe designed for solid-state NMR of extensively deuterated biomolecules. The probe utilizes coaxial coils, with a modified Alderman-Grant resonator for the H channel, and a multiply resonant solenoid forC/H/N. A coaxial tuning-tube design is used for all four channels in order to efficiently utilize the constrained physical space available inside the magnet bore. Isolation among the channels is likewise achieved using short, adjustable transmission line elements. We present benchmarks illustrating the tuning of each channel and isolation among them and the magnetic field profiles at each frequency of interest. Finally, representative NMR data are shown demonstrating the performance of both the detection and decoupling circuits.

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3D-printed dissolvable inserts for efficient and customizable fabrication of NMR transceiver coils

Kelz

Kelly

Martin

2019

Journal of Magnetic Resonance

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Jessica I. Kelz

Nanoscale control of silica morphology and three-dimensional structure during diatom cell wall formation

Design and construction of a quadruple-resonance MAS NMR probe for investigation of extensively deuterated biomolecules

3D-printed dissolvable inserts for efficient and customizable fabrication of NMR transceiver coils

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