Prospects of using extremely low doses of physical factors impact in food biotechnology

Author:

Danilchuk Tatiana1,Danilchuk Tatiana1,Ganina Vera2,Ganina Vera2

Affiliation:

1. Moscow State University of Food Production

2. K.G. Razumovsky Moscow State University of technologies and management (First Cossack University)

Abstract

The paper deals with urgent issues of development of resource-saving methods of biotechnological processes intensification. The main purpose of the work is to show the efficiency of using extremely low doses of physical factors impact in food biotechnology. Acoustic and electric treatment was in various modes. Impact capacity did not exceed 10-4 W/kg. The duration of exposure ranged from 5 to 15 min. Barley grains enzymes and lactic acid microorganisms were subjected to treatment. Impact of vibration as a physical factor, its frequency is considered as a priority in controlling growth and biochemical processes in biological objects. Impact frequency in the range of 50–10000 Hz influences the activity of hydrolytic enzymes in bimodal way. It is presented in the article. The coincidence of the frequency ranges of the maximum activity of enzymes in the model reactions with the ones in the grain of barley under the treatment of alternating current and sound is noted. Improvement of all indexes of germinating barley and improvement of the quality of the finished malt were observed in these ranges. Low-intensity acoustic treatment at a frequency of 2000 Hz contributed to an increase in β-galactosidase activity of the CT-95 Str. thermophilus strain. Selected ST-95 Str. thermophilus strain was used in the starter composition for the experimental sample production of fermented melted milk. The fermentation process intensification was observed. The lactose content of this product is 30% less in comparison with the feedstock. The use of traditional starter without a selected strain can reduce the lactose content by an average of 7.5%. The results of biotechnological processes modification by means of the treatment of enzymes and extremely low doses of physical factors impact used in meat technologies are observed. Thus, the prospects of using low-intensity physical effects of vibration in the development of innovative food technologies are substantiated. It is also promising to use these technologies in making absolutely new food products with different qualities.

Publisher

Kemerovo State University

Subject

Food Science

Reference31 articles.

1. Tompkins P. and Berd K. Taynaya zhiznʹ rasteniy [The secret life of plants]. Moscow: Homeopathic Medicine Publ., 2006. 444 p. (In Russ.)., Tompkins P. and Berd K. Taynaya zhiznʹ rasteniy [The secret life of plants]. Moscow: Homeopathic Medicine Publ., 2006. 444 p. (In Russ.).

2. Rogov I.A. Ehlektrofizicheskie metody obrabotki pishchevykh produktov [Electrophysical methods of processing food products]. Moscow: Agropromizdat Publ., 1988. 582 p. (In Russ.)., Rogov I.A. Ehlektrofizicheskie metody obrabotki pishchevykh produktov [Electrophysical methods of processing food products]. Moscow: Agropromizdat Publ., 1988. 582 p. (In Russ.).

3. Betskii O.V., Devyatkov N.D., and Kislov V.V. Low Intensity Millimeter Waves in Medicine and Biology. Critical Reviews in Biomedical Engineering, 2000, vol. 28, no. 1–2, pp. 247–268., Betskii O.V., Devyatkov N.D., and Kislov V.V. Low Intensity Millimeter Waves in Medicine and Biology. Critical Reviews in Biomedical Engineering, 2000, vol. 28, no. 1–2, pp. 247–268.

4. Rogov I.A. Biologicheskie aspekty mikrovolnovykh pishchevykh tekhnologiy [Biological aspects of microwave food technologies]. Electronic processing of materials, 2000, no. 5, pp. 115–125. (In Russ.)., Rogov I.A. Biologicheskie aspekty mikrovolnovykh pishchevykh tekhnologiy [Biological aspects of microwave food technologies]. Electronic processing of materials, 2000, no. 5, pp. 115–125. (In Russ.).

5. Rubin A.B. Fundamentals of Biophysics. Beverly: Scrivener Publ., 2014. 226 p. DOI: https://doi.org/10.1002/9781118842768., Rubin A.B. Fundamentals of Biophysics. Beverly: Scrivener Publ., 2014. 226 p. DOI: https://doi.org/10.1002/9781118842768.

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