E3S Web of Conf.
Volume 222, 2020International Scientific and Practical Conference “Development of the Agro-lndustrial Complex in the Context of Robotization and Digitalization of Production in Russia and Abroad” (DAIC 2020)
|Number of page(s)||9|
|Section||Modern Directions of Highly Productive Environmentally Friendly Agro- and Water Management, Development and Implementation of Systems for the Rational use of Modern Chemical and Biological Protection of Agricultural Plants and Animals, the Use of New Drugs, Growth Agents, Antidepressants, Immunostimulants, Probiotics and Feed Additives|
|Published online||22 December 2020|
Influence of the size of nanostructured metals on changes in the functional state of the cell and biological activity
1 Ryazan State Agrotechnological University, Road Transport Faculty, Department of Metal Technology and Machine Repair, Kostychev street 1, 390044, Ryazan, Russia
2 Ryazan State Medical University, Faculty of Medicine, Department of General Chemistry, Vysokovoltnaya street 9, 390026, Ryazan, Russia
3 Ryazan State Agrotechnological University, Faculty of Medicine, Kostychev street 1, 390044, Ryazan, Russia
4 Ryazan State Agrotechnological University, Technological Faculty, Department of Selection and Seed Production, Agricultural Chemistry, Forestry and Ecology, Kostychev street 1, 390044, Ryazan, Russia
5 Ryazan State Agrotechnological University, Faculty of Vet Medicine and Biotechnology, Kostychev street 1, 390044, Ryazan, Russia
* Corresponding author: firstname.lastname@example.org
The properties of nanostructured metals differ from the classical ones. The biological activity of nanoparticles is influenced by many factors, but primarily by concentration and size. It is urgent to study their interaction with living organisms, in particular plants, for which the main action is the realization of the genetic orientation of various varieties and hybrids, as well as the enhancement of the biosynthesis of biologically active compounds. The same biological effects are caused by nanoparticles of the same size, although the magnitude of their activity is different. It is assumed that these effects are due to the action of a certain regulatory response signal in biological systems. One of the responses may be changes in the structure of membranes that allow the passage of nanostructured particles, which can contribute to a change in the functional state of the cell. The magnitude of the response signal depends on the concentration of nanoparticles. The aim of this work is to study the effect of the size of nanostructured metals of various concentrations on the change in the functional state of the cell and the manifestation of biocompatibility and bioaccumulation in relation to nanoparticles.
© The Authors, published by EDP Sciences, 2020
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