Protein vibrations and their localization behaviour. A numerical scaling analysis

“…Finally, we conclude our discussion on the multidimensional sound vibrational activity of living systems by moving to a molecular level and briefly mentioning the vibrational properties of proteins. Protein vibrations can cover a wide energy range, from the far infrared (IR) over the THz range (30 cm −1 ) to the near IR, typical for the stretching vibrations of covalently bonded hydrogen atoms [91]. It has long been speculated that protein structural change, which is critical to their function, is mediated by long-range vibrational motions involving dynamic networks that extend throughout the protein [92,93].…”

Sound Matrix Shaping of Living Matter: From Macrosystems to Cell Microenvironment, Where Mitochondria Act as Energy Portals in Detecting and Processing Sound Vibrations

“…Finally, we conclude our discussion on the multidimensional sound vibrational activity of living systems by moving to a molecular level and briefly mentioning the vibrational properties of proteins. Protein vibrations can cover a wide energy range, from the far infrared (IR) over the THz range (30 cm −1 ) to the near IR, typical for the stretching vibrations of covalently bonded hydrogen atoms [91]. It has long been speculated that protein structural change, which is critical to their function, is mediated by long-range vibrational motions involving dynamic networks that extend throughout the protein [92,93].…”

Sound Matrix Shaping of Living Matter: From Macrosystems to Cell Microenvironment, Where Mitochondria Act as Energy Portals in Detecting and Processing Sound Vibrations

A Protein Data Bank survey of multimodal binding of thiocyanate to proteins: Evidence for thiocyanate promiscuity