Volume 8, Issue 2, March 2020, Page: 37-42
Phytochemical Study of Rice Hull for Phytin Production
Tashmenov Rakhim, Research Institute “Textile and Food Industry”, M. Auezov South Kazakhstan State University, Shymkent, Kazakhstan
Janpaizova Vassilya, Research Institute “Textile and Food Industry”, M. Auezov South Kazakhstan State University, Shymkent, Kazakhstan
Toksanbayeva Zhanat, Research Institute “Textile and Food Industry”, M. Auezov South Kazakhstan State University, Shymkent, Kazakhstan
Ashirbekova Gulnur, Research Institute “Textile and Food Industry”, M. Auezov South Kazakhstan State University, Shymkent, Kazakhstan
Received: Mar. 10, 2020;       Accepted: Mar. 31, 2020;       Published: Jun. 17, 2020
DOI: 10.11648/j.jfns.20200802.13      View  24      Downloads  9
Currently, great strides have been made in the field of creating highly effective synthetic medical preparations. Nevertheless, preparations derived from plant raw materials occupy a significant place in medical practice and account for about one third of the total number of medicines. The volumes of annual procurements and processing of plant raw materials amount to tens of thousands of tones. At the same time, for more complete satisfaction of the health needs in medical preparations and expansion of the range of highly effective low-toxic drugs, it is necessary to find new sources of natural bioactive compounds and develop technologies based on them for integrated use of raw materials. A particularly important problem is development of modern technologies for production of biologically active substances from available, cultivated and promising drug raw materials in terms of manufacturing application. It is known that introduction of biometal ions into the molecule of a natural biologically active compound can enhance and expand the range of its therapeutic action. Such coordination compounds, in which molecules of natural compounds act as ligands, and transition metal ions (Cu, Co, Fe, Zn, etc.) as complexing compounds, with relatively low toxicity, have a higher and more diverse biological effect compared to the initial compounds. They also compare favorably from synthetic preparations with much lower toxicity, simpler chemical and technological methods for their production, and, consequently, less complex instrumentation for their production.
Rice Hull, Extraction, Inositol Phosphate, Enzyme Preparation, Biopolymers
To cite this article
Tashmenov Rakhim, Janpaizova Vassilya, Toksanbayeva Zhanat, Ashirbekova Gulnur, Phytochemical Study of Rice Hull for Phytin Production, Journal of Food and Nutrition Sciences. Vol. 8, No. 2, 2020, pp. 37-42. doi: 10.11648/j.jfns.20200802.13
Copyright © 2020 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Goldovsky A. M. Theoretical foundations for production of plant oils // М.: Pischepromizdat. – 1953. – 445 p.
Shukhnov А. F. Change in the chemical composition of raw cotton during its processing // Messages and reports of VNIIZ. – 1962. – No. 6. – P. 35.
Anderson A. S. Composition of inositol phosphate. Acid of plants // Sourc. of Biol. Chem. – 1920, 44. – P. 429-432.
Box G. E. P. Multifactor Design of First Order // Biometrica. – 1952. – V. 39. – No. 1. – P. 49.
Bailey G. J. A note on the Vitamin B content of Korean rice // Cereal Chem. – 1960, 37. – No. 1. – P. 103-104.
Ellis Rex., Morris Eugene R. Philpot Constance quantitative determination of phytate in the presence of high inorganic phosphate // Anal. Biochem. – 1977, 77. – No. 2. – P. 536-539.
Fowier H. D. Characterization of phytin in peas // J. Sci. Food a Agic. – 1956. – No. 7. – P. 381-386.
Barazin I. V., Rabinovich M. L., Sinitsyn A. P. Study of possibilities of kinetic spectrophotometric method for determination of glucose // Biochemistry. – 1977. – V. 42. – 1966. – P. 1631.
Gracheva I. M. Technology of enzyme preparations // M.: Food industry. – 1975. – 392 p.
Gryadunova G. P., Kozlova D. M., Litvinova G. P. Guide to laboratory lessons on the factory technology of medicinal forms // Medicine. – 1986. – 272 p.
Kalunyants K. A., Golger L. I. Microbial enzyme preparations // M.: Food industry. – 1979. – 304 p.
Kazakov Ye. D., Kretkevich V. L. Proteins of rice grain // In the book: Biochemistry of grain and products of its processing. – M.: - 1980. – P. 69-71.
Karasusky K. A. Production of phytin in Kharkov // Ukrainian chemical journal. – Kharkov. – 1925. – V. 1. – Issue 1. – P. 11-28.
Kozmina Ye. P., Lamisov Zh. V., Wonnarman Ye. S., Tolstoguzov V. V. Amino acid composition of rice processing products // Scientific and technical abstract collection. – 1976. – Issue 1.
Kursamov A. L. Reversible action of enzymes in a living plant cell // M.: ed. of Academy of Sciences of the USSR. – 1940. – 234 p.
Ladygina Z. Ya. The value of localization of biologically active substances to obtain medical preparations from plant raw materials // In the collection: Materials of All-Russian Sci. Conf. on improvement of production of medical and galena preparations. – Tashkent. – 1962. – P. 192.
Zokhra S. O., Vedeneyev N. A. Method of phytin production // Author’s certificate of the USSR No. 104101. – Bulletin of inventions. – 1955. – No. 9.
Abdumalikov A. Kh., Khassanov Kh. G., Madyarov Sh. R., Rakhimov M. M. Study of activation of amylorizin G10x by silica gel // Applied Biochem. and microbe. – 1977. – V. 13. – No. 5. – P. 692-695.
Tashmenov R. S., Sabirov K. A., Makhkamov S. M. Optimization of phytin extraction process from rice hull grains // In the book: All-Union Scientific Conference. Scientific and technical progress and optimization of technological processes for creation of drugs for venous preparations. Lvov. – 1987. – P. 279.
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