Direct spectroscopic evidence for competition between thermal molecular agitation and magnetic field in a tetrameric protein in aqueous solution

• Published in: Physics letters. A Vol. 382; no. 21; pp. 1389 - 1394
• Main Authors: Calabrò, Emanuele, Magazù, Salvatore
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 31.05.2018
• Subjects: Brownian motion; FTIR spectroscopy; Hemoglobin; Static magnetic field; Thermal molecular agitation; Brownian motion; Hemoglobin; Thermal molecular agitation; Static magnetic field; FTIR spectroscopy
• ISSN: 0375-9601; 1873-2429
• DOI: 10.1016/j.physleta.2018.03.038

•FTIR spectroscopy allows to obtain information about secondary structure of proteins.•Electromagnetic field induces alignment of α-helix structure of proteins.•Increasing of temperature is in competition with the alignment of a macromolecule. Samples of a typical tetrameric protein, the hemoglobin, at the concentration of 150 mg/ml in bidistilled water solution, were exposed to a uniform magnetic field at 200 mT at different temperatures of 15∘C, 40∘C and 65∘C. Fourier Transform Infrared Spectroscopy was used to analyze the response of the secondary structure of the protein to both stress agents, heating and static magnetic field. The most relevant result which was observed was the significant increasing in intensity of the Amide I band after exposure to the uniform magnetic field at the room temperature of 15∘C. This result can be explained assuming that protein's α-helices aligned along the direction of the applied magnetic field due to their large dipole moment, inducing the alignment of the entire protein. Increasing of temperature up to 40∘C and 65∘C induced a significant reduction of the increasing in intensity of the Amide I band. This effect may be easily explained assuming that Brownian motion of the protein in water solution caused by thermal molecular agitation increased with increasing of temperature, contrasting the effect of the torque of the magnetic field applied to the protein in water solution.