Affiliation
a Undergraduate, Siberian Federal University
b Associate Professor of the Department of Technology and Organization Catering, Siberian Federal University, docent, candidate of technical sciences
c Professor of the Department of Technology and Organization Catering, Siberian Federal University, docent, doctor of technical sciences
Copyright ©Kazina et al. This is an open access article distributed under the terms of the Creative Commons Attribution 4.0. (
http://creativecommons.org/licenses/by/4.0/), allowing third parties to copy and redistribute the material in any medium or format and to remix, transform, and build upon the material for any purpose, even commercially, provided the original work is properly cited and states its license.
Abstract
Different grain raw materials are used to enrich products. Wheat juice is a source of nutrients, vitamins, macro- and microelements, enzymes, amino acids, including irreplaceable ones. Green sprouts of wheat grain were taken as a research object. The juice pressing was made using juice extractors with various operating principles. Organoleptic, physicochemical and microbiological properties of wheat sprouts juice were determined. Wheat sprouts juice was packed into vacuum packages and packages for ice, intensively cooled and frozen respectively to prevent the product from spoilage during storage. Quality control was carried out considering three control points during 10 days of storage. Organoleptic and microbiological indicators of wheat sprouts juice were determined in these points. The author developed a production technology of juice obtained from wheat sprouts which germinated in a steam convection apparatus up to 10cm length. Screw juice extractor and intensive cooling machine were used. The author determined storage modes and periods: in vacuum packing at humidity of 75%, 4±2 °C it can be stored for 5 days; in packages for ice at humidity of 75%, −18±2 °C – for 7 days. Consumption of 100g of wheat sprouts juice satisfies daily nutrient requirement for sugar – 1.5–1.74%, vitamin C – 5.6%, B2 – 38.8%, B9 – 20%, K – 6.3%, in calcium – 0.8%, iron – 2.8–5.1%, magnesium – 0.75%, potassium – 20.1%, sodium – 0.38%. That demonstrates high nutritional value of a product.
Keywords
Wheat sprouts juice,
juice production technological modes,
intensive cooling device,
vacuum packing
REFERENCES
- Khan A.A. ed. The Physiology and biochemistry of seed dormancy and germination. 1st ed. Amsterdam, North-Holland, 1977. 478 p. (Russ. ed.: Nikolaeva M.G., Obrucheva N.V. Fiziologiya i biokhimiya pokoya i prorastaniya semyan. Moscow, Kolos Publ., 1982. 496 p.).
- Kazakova T.D., Karpilenko G.P. Biokhimiya zerna i khleboproduktov [Biochemistry of grain and grain products]. St.Petersburg: GIORD Publ., 2005, pp. 332–345.
- Kazakov E.D. Osnovnyye svedeniya o zerne [Basic information about grain]. Moscow: Spetstekhnika Publ., 1997. 144 p.
- Kazakov E.D. Ot zerna k khlebu [From grain to bread]. Moscow: Agropromizdat Publ., 1975. 208 p.
- Biryukova I.A. Prorostki – pishcha zhizni [Sprouts – food for life]. Pensioner, 2008, no. 3, pp. 17–20.
- Egner P.A., Wang J.B., Zhu Y.R., et al. Chlorophyllin intervention reduces aflatoxin-DNA adducts in individuals at high risk for liver cancer. Proceedings of the National Academy of Sciences, 2001, vol. 98(25), pp. 14601–14606. https://doi.org/10.1073/pnas.251536898.
- Guo D., Schut H.A., Davis C.D., et al. Protection by chlorophyllin and indole-3-carbinol against 2-amino-1-methyl-6-phenylimidazo 4,5-b, pyridine (PhIP) – induced DNA adducts and colonic aberrant crypts in the F344 rat. Carcinogenesis, 1995, vol. 16(12), pp. 2931–2937. https://doi.org/10.1093/carcin/16.12.2931.
- Pratt M.M., Reddy A.P., Hendricks J.D., et al. The importance of carcinogen dose in chemoprevention studies: quantitative interrelationships between, dibenzo[a,l] pyrene dose, chlorophyllin dose, target organ DNA adduct biomarkers and final tumor outcome. Carcinogenesis, 2007, vol. 28(3), pp. 611–624. https://doi.org/10.1093/carcin/bgl174.
- Sarkar D., Sharma A., Talukder G. Chlorophyll and chlorophyllin as modifiers of genotoxic effects. Mutation Research. 1994, vol. 318(3), pp. 239–247. https://doi.org/10.1016/0165-1110(94)90017-5.
- Solodnikov, S.Yu. Otsenka biologicheskikh svoystv soka iz rostkov pshenitsy. Razrabotka tekhnologii ego polucheniya [Assessment of biological properties of wheat grass juice. technology development for its production]. Tekhnika i tekhnologiya pishchevykh proizvodstv [Food Processing: Techniques and Technology], 2015, no. 3, pp. 62–68.
- Lai C.N., Dabney B., Shaw C. Inhibition of in vitro metabolic activation of carcinogens by wheat sprout extracts. Nutrition and Cancer, 1978, vol. 1(1), pp. 27–30. https://doi.org/10.1080/01635587809513598.
- Lai C.N. Chlorophyll: The active factor in wheat sprout extract inhibiting the metabolic activation of carcinogens in vitro. Nutrition and Cancer, 1979, vol. 1(3), pp. 19–21. https://doi.org/10.1080/01635587909513623.
- Chiu L.C., Kong C.K., Ooi V.E. The Chlorophyllin induced cell cycle arrest and apoptosis in human breast cancer MCF 7 cells isassociated with ERK deactivation and Cyclin D1 depletion. International Journal of Molecular Medicine, 2005, vol. 16(4), pp. 735–740.
- Payal Ch., Davinder K., Sunaina, et al. Wheat grass: a review on pharmacognosy and pharmacological aspects. International Journal of Phytopharmacology, 2015, vol. 6(2), pp. 80–85.
- Chauhan M. A pilot study on wheat grass juice for its phytochemical, nutritional and therapeutic potential on chronic diseases. International Journal of Chemistry Studies, 2014, vol. 2(4), pp. 27–34.
- Strannik A.A. Sposob polucheniya napitka iz proroshchennykh zeren pshenitsy i napitok, poluchennyy etim sposobom [Method for drink production from wheat sprouts and drink obtained using the method]. Patent RF, no. 2008141333/13, 2010.
- Bibik I.V., Khizhnyak A.A. Sposob polucheniya proroshchennogo zerna pshenitsy [Wheat sprouts production method]. Patent RF, no. 2010118417/13, 2011.
- Ul’ko N.V., Dubovoy B.L., Sochinskaya O.N., et al. Sposob prorashchivaniya zerna zlakovykh [Cereal grains sprouting method]. Patent RF, no. 2007123918/13, 2009.
- Zlobina E.Yu., Osadchenko I.M., Gorlov I.F., et al. Sposob polucheniya zelenogo gidroponnogo korma [Green hydroponic fodder production method]. Patent RF, no. 2012112762/13, 2013.
- Tsutsiyev R.A., Archegova K.M., Gazdanov A.U., et al. Sposob polucheniya zelenykh kormov [Green fodder production method]. Patent RF, no. 2006138395/12, 2008.
- Kazina V.V. Opredeleniye optimal’nykh rezhimov prorashchivaniya zelenykh rostkov pshenitsy v parokonvektsionnom apparate [Determination of wheat sprouting optimum conditions in the steam-convection apparatus.]. Sbornik materialov II Vserossiyskoy nauchno-prakticheskoy konferentsii s mezhdunarodnym uchastiyem “Problemy razvitiya rynka tovarov i uslug: perspektivy i vozmozhnosti sub”yektov RF” [Proceedings of 2nd All-Russian international applied research conference “Issues of goods and services market development: perspectives and possibilities for Russian regions”]. Krasnoyarsk, 2016, pp. 134–140.
- Kazina V.V. Razrabotka resursosberegayushchey tekhnologii prorashchivaniya zerna pshenitsy do zelenykh rostkov [Development of resource saving technology for wheat sprouting up to green sprouts]. Materialy nauchnoy konferentsii, posvyashchennoy Godu obrazovaniya v Sodruzhestve Nezavisimykh Gosudarstv “Prospekt Svobodnyy-2016. Innovatsionnyye tekhnologii industrii pitaniya” [Prospekt Svobodnyy–2016. Innovative technologies in food industry: proceedings of the scientific conference devoted to the Year of Education in CIS]. Krasnoyarsk, 2016, pp. 24–25.
- Shnekovaya sokovyzhimalka BORK S 600. Sokovyzhimalka premium [Screw juice extractor BORK S 600. Premium class juice extractor]. Available at: http://www.sokovyzhimalka-premium.ru/modelnyj-rjad/bork/bork-s600.html. (accessed 15 January 2018).
- Sokovyzhimalka professional’naya Robot Coupe J 80 Ultra: tekhnicheskiye parametry [Professional juice extractor Robot Coupe J 80 Ultra: specifications]. CoolExpert. Available at: https://coolexpert.ru/shop/index.php?action=show_info&id_goods=1430. (accessed 15 January 2018).
- USDA Food Composition Databases. Available at: https://ndb.nal.usda.gov/ndb. (accessed 13 January 2018).