References
- Burlakova, E. B., Konradov, A. A., Maltseva, E. L. (2003). Effect of supersmall doses of biological active substances and low-intensity physical factors. J. Adv. Chem. Phys. 2:140–162
- Burlakova, E. B., Konradov, A. A., Maltseva, E. L. (2004). Effect of extremely weak chemical and physical stimuli on biological systems. Biophysics 49:522–534
- Chasovskaya, T. E., Mal'tseva, E. L., Palmina, N. P. (2013a). Effect of potassium phenosan on structure of plasma membranes of mice liver cells in vitro. Biophysics 58:78–85
- Chasovskaya, T. E., Plashchina, I. G., Pal'mina, N. P. (2013b). Physicochemical alterations in liposomes induced by low concentrations of synthetic antioxidant potassium phenosan. Doklady Biochem. Biophys. 449:94–97
- Del Giudice, E., Vitiello, G. (2006). Role of the electromagnetc field in the formation of domains in the process of symmetry–breaking phase transitions. Phys. Rev. A 74. 022105:1–9
- Erokhin, V. N., Kremenzova, A. V., Semenov, V. A., Burlakova, E. B. (2007). The effect of antioxidant 4-hydroxi-3,5-ditret-butylphenil propionic acid (phenozan) on the development of malignant new growths. Izvestiya RAN. Biol. Ser. (Russ.). 5:583–590
- Ershov, V. V., Nikiforov, G. A., Volod'kin, A. A. (1972). Space Hampered Phenols. Moscow: Khimiya. (Russ.)
- Jost, P., Libertini, L. P., Hebert, V. C., et al. (1971). Lipid spin labels in lecithin multilayers: A study of motion along fatty acid chains. J. Mol. Biol. 59:77–98
- Kuznetsov, A. N. (1976). Method of Spin Probe. Moscow: Nauka
- Khamzin, A. A., Nigmatullin, R. R. (2014). Thermodynamic and magnetic properties of the finite spin complexes of the Ising type. Physica B. 440:138–144
- Konovalov, A. I., Ryzhkina, I. S. (2014). Nanoassociates formation is key for understanding physicochemical and biological properties of highly diluted aqueous solutions. Russ. Chem. Bull. 1:1–8
- Lowry, O. H., Rosebrough, N. J., Farr, A. L., et al. (1951). Protein measurement with the Folin reagent. J. BioI. Chem. 193:265–275
- Mattson, M. P., Calabrese, E. J. (2009). Hormesis: A Revolution in Biology, Toxicology and Medicine. New York: Springer
- Palmina, N. P., Chasovskaya, T. E., Belov, V. V., Maltseva, E. L. (2012). Dose dependences of lipid microviscosity of biological membranes induced by synthetic antioxidant potassium phenosan salt. Doklady Biochem. Biophys. 443:511–515
- Pershin, S. M. (2014). Konovalov effect in low concentration aqueous solutions: The role of ortho/para spin isomers of water. Doklady Phys. Chem. 455:37–40
- Ryzhkina, I. S., Murtazina, L. I., Kiseleva, Yu. V., et al. (2009a). Properties of supramolecular nanoassociates formed in aqueous solutions of biologically active compounds in low or ultra-low concentrations. Doklady Phys. Chem. 428:196–200
- Ryzhkina, I. S., Murtazina, L. I., Kiseleva, Yu. V., et al. (2009b). Supramolecular systems based on amphiphilic derivatives of biologically active phenols: Self-assembly and reactivity over a broad concentration range. Doklady Phys. Chem. 428:201–205
- Ryzhkina, I. S., Murtazina, L. I., Sherman, E. D., et al. (2010). Low-concentration aqueous solutions of macrocyclic pyridine–pyrrole compound: Relationship between the parameters, physicochemical properties, and physiological activity of supramolecularnanosized associates. Doklady Phys. Chem. 433:142–146
- Ryzhkina, I. S., Murtazina, L. I., Nemtarev, A. V., et al. (2011a). Self-association of a phosphate receptor along and with a lipidomimetic in water: Effect of receptor low concentrations on the catalytic activity of mixed systems. Chem. Phys. Lett. 511:247–250
- Ryzhkina, I. S., Kiseleva, Yu. V., Zheltukhina, G. A., et al. (2011b). Relationship between self-organization, physicochemical properties, and biological activity of aqueous solutions of hemin derivatives. Doklady Phys. Chem. 438:98–102
- Ryzhkina, I. S., Murtazina, L. I., Sherman, E. D., et al. (2011c). Physicochemical substantiation of the hormetic response of biosystems for wastewater treatment to the action of solutions of N,N-diphenylguanidiniumBis(hydroxymethyl)phosphinate. Doklady Phys. Chem. 438:109–113
- Ryzhkina, I. S., Murtazina, L. I., Konovalov, A. I. (2011d). Action of the external electromagnetic field is the condition of nanoassociate formation in highly diluted aqueous solutions. Doklady Phys. Chem. 440:157–161
- Ryzhkina, I. S., Kiseleva, Yu. V., Murtazina, L. I., et al. (2011e). Effect of α-tocopherol concentrations on the self-organization, physicochemical properties of solutions, and the structure of biological membranes. Doklady Phys. Chem. 440:201–204
- Ryzhkina, I. S., Kiseleva, Yu. V., Murtazina, L. I., Konovalov, A. I. (2012a). Effect of ultralow concentrations and electromagnetic fields. Doklady Phys. Chem. 446:153–157
- Ryzhkina, I. S., Murtazina, L. I., Masagutova, E. M., et al. (2012b). Self-organization of sodium chloride solutions in the absence and presence of a biologically active substance of low concentration under common and hypoelectromagnetic conditions. Doklady Phys. Chem. 446:184–189
- Ryzhkina, I. S., Kiseleva, Yu. V., Timosheva, A. P., et al. (2012c). Low-concentration aqueous solutions of an amphiphilic calix[4] resorcinarene derivative: Self-organization, physicochemical properties, and biological activity under common and hypoelectromagnetic conditions. Doklady Phys. Chem. 447:193–199
- Ryzhkina, I. S., Kiseleva, Yu. V., Murtazina, L. I., et al. (2012d). Comparative study of self-organization and physicochemical properties of highly diluted aqueous solutions of phenol bioantioxidants. Doklady Phys. Chem. 447:203–206
- Whittaker, V. P. (1972). Methods Neurochemistry. New York: Marcel Dekker. pp. 1–52
- Zhernovkov, V. E., Roshchina, I. A., Zubareva, G. M., et al. (2010). The study of thyrotropin-Releasing Hormone effect in a wide concentration range on the aquifer system by IR-spectroscopy method. Water. 2:58–68