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Forecasting of functional properties of the soya protein based on the molecular dynamics method

Forecasting of functional properties of the soya protein based on the molecular dynamics method

One of the global problems of the food industry is to find the new protein source that could be used for high quality and nutrients balanced foodstuffs production. Soya isolates and concentrates as well as soya flour are widely used in meat industry. From the technological point of view, the new met...

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Päätekijät: Borisenko, A. A., Борисенко, А. А., Bratsikhin, A. A., Брацихин, А. А., Saricheva, L. A., Сарычева, Л. А., Kostenko, K. V., Костенко, К. В.
Aineistotyyppi: Статья
Kieli:English
Julkaistu: Consulting and Training Center - KEY 2018
Aiheet:
Anolyte
Catholyte
Electrostatic potential
Molecular modeling
Quantum and chemical calculation
Soya globulin
Linkit:https://www.scopus.com/record/display.uri?eid=2-s2.0-85038569918&origin=resultslist&sort=plf-f&src=s&nlo=&nlr=&nls=&sid=6a89af2ab3ca3dce2c15c37a7aec1380&sot=aff&sdt=sisr&sl=145&s=AF-ID%28%22North+Caucasus+Federal+University%22+60070541%29+OR+AF-ID%28%22%5bNo+Affiliation+ID+found%5d%22+60070961%29+OR+AF-ID%28%22%5bNo+Affiliation+ID+found%5d%22+60026323%29&ref=%28Forecasting+of+functional+properties+of+the+soya+protein+based+on+the+molecular+dynamics+method%29&relpos=0&citeCnt=0&searchTerm=
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spelling ir-20.500.12258-26452020-07-06T13:24:14Z Forecasting of functional properties of the soya protein based on the molecular dynamics method Borisenko, A. A. Борисенко, А. А. Bratsikhin, A. A. Брацихин, А. А. Saricheva, L. A. Сарычева, Л. А. Borisenko, A. A. Борисенко, А. А. Kostenko, K. V. Костенко, К. В. Anolyte Catholyte Electrostatic potential Molecular modeling Quantum and chemical calculation Soya globulin One of the global problems of the food industry is to find the new protein source that could be used for high quality and nutrients balanced foodstuffs production. Soya isolates and concentrates as well as soya flour are widely used in meat industry. From the technological point of view, the new method of functional properties regulation of plant protein should consider the water-binding capacity, emulsifying and gel-forming capabilities development. Functional and technological properties could be controlled by activated liquid systems made by electrochemical treatment and cavitational disintegration. The goal of research was to study the soya protein (11S-globulin) behavior in different medium by the method of the molecular modeling. Molecular modeling and quantum chemical calculations were provided by special computer programs complex VMD and NAMD. It was established that significant changes in electrostatic potential distribution of 11S-globulin molecule were observed in electrochemical activated water (EAW) rather than in water. Total amount of positive charged parts of molecule was 1.2 times as much in anolyte, and total negative charged parts was 1.7 times as much in catholyte. It was established that amount of neutral parts of protein was reduced by 3.63% in anolyte and by 14.77% in catholyte in relation to the total square surface of the protein. Results of molecular modeling could be used for methods of soya protein modification developing by activated liquids using instead of drinking water 2018-07-31T14:08:38Z 2018-07-31T14:08:38Z 2017 Статья Borisenko, A.A., Bratsikhin, A.A., Saricheva, L.A., Borisenko, A.A., Kostenko, K.V. Forecasting of functional properties of the soya protein based on the molecular dynamics method // Journal of Hygienic Engineering and Design. - 2017. - Volume 20. - Pages 82-85 https://www.scopus.com/record/display.uri?eid=2-s2.0-85038569918&origin=resultslist&sort=plf-f&src=s&nlo=&nlr=&nls=&sid=6a89af2ab3ca3dce2c15c37a7aec1380&sot=aff&sdt=sisr&sl=145&s=AF-ID%28%22North+Caucasus+Federal+University%22+60070541%29+OR+AF-ID%28%22%5bNo+Affiliation+ID+found%5d%22+60070961%29+OR+AF-ID%28%22%5bNo+Affiliation+ID+found%5d%22+60026323%29&ref=%28Forecasting+of+functional+properties+of+the+soya+protein+based+on+the+molecular+dynamics+method%29&relpos=0&citeCnt=0&searchTerm= http://hdl.handle.net/20.500.12258/2645 en Journal of Hygienic Engineering and Design application/pdf Consulting and Training Center - KEY
institution СКФУ
collection Репозиторий
language English
topic Anolyte
Catholyte
Electrostatic potential
Molecular modeling
Quantum and chemical calculation
Soya globulin
spellingShingle Anolyte
Catholyte
Electrostatic potential
Molecular modeling
Quantum and chemical calculation
Soya globulin
Borisenko, A. A.
Борисенко, А. А.
Bratsikhin, A. A.
Брацихин, А. А.
Saricheva, L. A.
Сарычева, Л. А.
Borisenko, A. A.
Борисенко, А. А.
Kostenko, K. V.
Костенко, К. В.
Forecasting of functional properties of the soya protein based on the molecular dynamics method
description One of the global problems of the food industry is to find the new protein source that could be used for high quality and nutrients balanced foodstuffs production. Soya isolates and concentrates as well as soya flour are widely used in meat industry. From the technological point of view, the new method of functional properties regulation of plant protein should consider the water-binding capacity, emulsifying and gel-forming capabilities development. Functional and technological properties could be controlled by activated liquid systems made by electrochemical treatment and cavitational disintegration. The goal of research was to study the soya protein (11S-globulin) behavior in different medium by the method of the molecular modeling. Molecular modeling and quantum chemical calculations were provided by special computer programs complex VMD and NAMD. It was established that significant changes in electrostatic potential distribution of 11S-globulin molecule were observed in electrochemical activated water (EAW) rather than in water. Total amount of positive charged parts of molecule was 1.2 times as much in anolyte, and total negative charged parts was 1.7 times as much in catholyte. It was established that amount of neutral parts of protein was reduced by 3.63% in anolyte and by 14.77% in catholyte in relation to the total square surface of the protein. Results of molecular modeling could be used for methods of soya protein modification developing by activated liquids using instead of drinking water
format Статья
author Borisenko, A. A.
Борисенко, А. А.
Bratsikhin, A. A.
Брацихин, А. А.
Saricheva, L. A.
Сарычева, Л. А.
Borisenko, A. A.
Борисенко, А. А.
Kostenko, K. V.
Костенко, К. В.
author_facet Borisenko, A. A.
Борисенко, А. А.
Bratsikhin, A. A.
Брацихин, А. А.
Saricheva, L. A.
Сарычева, Л. А.
Borisenko, A. A.
Борисенко, А. А.
Kostenko, K. V.
Костенко, К. В.
author_sort Borisenko, A. A.
title Forecasting of functional properties of the soya protein based on the molecular dynamics method
title_short Forecasting of functional properties of the soya protein based on the molecular dynamics method
title_full Forecasting of functional properties of the soya protein based on the molecular dynamics method
title_fullStr Forecasting of functional properties of the soya protein based on the molecular dynamics method
title_full_unstemmed Forecasting of functional properties of the soya protein based on the molecular dynamics method
title_sort forecasting of functional properties of the soya protein based on the molecular dynamics method
publisher Consulting and Training Center - KEY
publishDate 2018
url https://www.scopus.com/record/display.uri?eid=2-s2.0-85038569918&origin=resultslist&sort=plf-f&src=s&nlo=&nlr=&nls=&sid=6a89af2ab3ca3dce2c15c37a7aec1380&sot=aff&sdt=sisr&sl=145&s=AF-ID%28%22North+Caucasus+Federal+University%22+60070541%29+OR+AF-ID%28%22%5bNo+Affiliation+ID+found%5d%22+60070961%29+OR+AF-ID%28%22%5bNo+Affiliation+ID+found%5d%22+60026323%29&ref=%28Forecasting+of+functional+properties+of+the+soya+protein+based+on+the+molecular+dynamics+method%29&relpos=0&citeCnt=0&searchTerm=
https://dspace.ncfu.ru/handle/20.500.12258/2645
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