Yasmin Geiger scite author profile

Smart materials are created in nature at interfaces between biomolecules and solid materials. The ability to probe the structure of functional peptides that engineer biogenic materials at this heterogeneous setting can be facilitated tremendously by use of DNP-enhanced solid-state NMR spectroscopy. This sensitive NMR technique allows simple and quick measurements, often without the need for isotope enrichment. Here, it is used to characterize a pentalysine peptide, derived from a diatom's silaffin protein. The peptide accelerates the formation of bioinspired silica and gets embedded inside the material as it is formed. Two-dimensional DNP MAS NMR of the silica-bound peptide and solution NMR of the free peptide are used to derive its secondary structure in the two states and to pinpoint some subtle conformational changes that the peptide undergoes in order to adapt to the silica environment. In addition, interactions between abundant lysine residues and silica surface are identified, and proximity of other side chains to silica and to neighboring peptide molecules is discussed.

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Understanding the roles of functional peptides in designing apatite and silica nanomaterials biomimetically using NMR techniques

Iline-Vul

Adiram-Filiba

Matlahov

et al. 2018

Current Opinion in Colloid & Interface Science

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Biosilica and bioinspired silica studied by solid-state NMR

Ravera

Martelli

Geiger

et al. 2016

Coordination Chemistry Reviews

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Trapping RNase A on MCM41 pores: effects on structure stability, product inhibition and overall enzymatic activity

Matlahov

Geiger

Goobes

2014

Phys. Chem. Chem. Phys.

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Catalytic activity of enzymes can be drastically modified by immobilization on surfaces of different materials. It is particularly effective when the dimensions of the biomolecules and adsorption sites on the material surfaces are commensurate. This can be utilized to hinder the biological activity of degradation enzymes and switch off undesired biological processes. Ribonucleases are particularly attractive targets for complete sequestration being efficient at disintegrating viable RNA molecules. Here we show that efficient quenching of ribonuclease A activity can be achieved by immobilization on the surface of MCM41 porous silica. Electron microscopy, isothermal titration calorimetry, differential scanning calorimetry and adsorption isotherm measurements of ribonuclease A on the MCM41 surface are used to demonstrate that the enzyme adsorbs on the external surface of the porous silica through electrostatic interactions that overcome the unfavorable entropy change as the protein gets trapped on the surface, and that immobilization shifts up its denaturation temperature by 20-25 °C. Real-time kinetic measurements, using single injection titration calorimetry, demonstrate that enzymatic activity towards hydrolysis of cyclic nucleotides is lowered by nearly two orders of magnitude on MCM41 and that active inhibition by the formed product is much less effective on the surface than in solution.

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Yasmin Geiger

Studying the Conformation of a Silaffin-Derived Pentalysine Peptide Embedded in Bioinspired Silica using Solution and Dynamic Nuclear Polarization Magic-Angle Spinning NMR

Understanding the roles of functional peptides in designing apatite and silica nanomaterials biomimetically using NMR techniques

Biosilica and bioinspired silica studied by solid-state NMR

Trapping RNase A on MCM41 pores: effects on structure stability, product inhibition and overall enzymatic activity

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