YERQALAMPIR O‘SIMLIGINING MAKRO VA MIKROELEMENT TARKIBINI O‘RGANISH
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Annotatsiya
Ushbu maqolada Farg‘ona viloyatida o‘sadigan yerqalampirning barglari va gullari tarkibidagi makro va mikroelementlarning sifat va miqdoriy tarkibini induktiv bog‘langan plazmali mass spektrometriya usuli bilan tadqiq qilish natijalari keltirilgan. Tahlil natijalariga ko‘ra yerqalampirning barglari va gullari tarkibida 61 ta elementning miqdori aniqlangan. Yerqalampirning barglarida aniqlangan makro va mikroelementlarning miqdori gullariga nisbatan 2,5 marta ko‘proq ekanligi aniqlandi. Kalsiy, kaliy, magniy, natriy va fosfor kabi makroelementlarning miqdori aniqlanib, kaltsiy va kaliy barglarida makroelementlarning 87% hamda gullarida 80% ni tashkil etishi aniqlandi. Aniqlangan mikroelementlardan temir, strontsiy, alyuminiy, marganets, bor, rux, bariy, mis, titan, rubidiy, litiy, molibden, nikel, kobalt va xrom elementlarining miqdori nisbatan ko‘proq ekanligi namoyon bo‘lib, temir barglarida mikroelementlarning 70% va gullarida 50% ni tashkil etishi aniqlandi.Olib borilgan tahlillarga ko‘ra yerqalampirning bargini kalsiy, kaliy, magniy, natriy, fosfor va temir elementlariga boy ekanligi ko‘rsatib o‘tildi hamda turli biologik faol qo‘shimchlar tayyorlash uchun tavsiya etildi.
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Foydalaniladigan adabiyotlar
Sampliner D., Miller A.(2009). Ethnobotany of Horseradish (Armoracia rusticana, Brassicaceae) and Its Wild Relatives(Armoracia spp.): Reproductive Biology and Local Uses in Their Native Ranges. Economic Botany, 63(3), 303-313.
Sarli G., De Lisi A., Agneta R., Grieco R. Ierardi G., Montemurro F., Negro D., Montesano V. (2012). Collecting horseradish (Armoracia rusticana, Brassicaceae): Local uses and morphological characterization in Basilicata (Southern Italy). Genet Resour Crop Evol, 59(9), 889–899.
Буш Н. А.Род 588. (1939) Хрен-Armoracia // Флора СССР. В 30 т. / гл.ред. В. Л. Комаров. Ред. тома Н. А. Буш.. М.; Л. Изд-во АН СССР, Т.VIII, 142-143.
Agneta R., Möllers C., Rivelli A.R. (2013). Horseradish (Armoracia rusticana), a neglected medical and condiment species with a relevant glucosinolate profile: A review. Genet. Resour. Crop. Evol., 60, 1923–1943.
Wedelsback Bladh K, Olsson K.M. (2011). Introduction and use of horseradish (Armoracia rusticana) as food and medicine from antiquity to the present: emphasis on the Nordic countries. J Herbs Spices Med Plants, 17(3), 197–213.
Pieroni A., Gray C. (2008). Herbal and food folk medicines of the Russland deutschen living in Ku¨nzelsau/Tala¨cker, South-Western Germany. Phytother Res, 22, 889–890.
Segneanu A.-E., Vlase G., Chirigiu L., Herea D.D., Pricop M.-A., Saracin P.-A., Tanasie Ș.E. (2023). Romanian Wild-Growing Armoracia rusticana L.Untargeted Low-Molecular Metabolomic Approach to a Potential Antitumoral Phyto-Carrier System Based on Kaolinite. Antioxidants,12(6), 1268.
Anam Y., Qayyum F., Ahmad Mugha A., Amjad O. (2020). Phytochemical and biological investigation of Armoracia rusticana. Int. J.Pharm. Integr. Health Sci, 1(1), 58.
Nguyen N.M., Gonda S., Vasas G. (2013). A Review on the Phytochemical Composition and Potential Medicinal Uses of Horseradish (Armoracia rusticana). Root. Food Rev. Int, 29(3), 261–275.
Zhao Q., Luan X., Zheng M., Tian X.-H., Zhao J., Zhang W.-D., Ma B.-L. (2020). Synergistic mechanisms of constituents in herbal extracts during intestinal absorption: Focus on natural occurring nanoparticles. Pharmaceutics, 12(2), 128.
Hussein R.A., El-Anssary A.A. (2019). Plants Secondary Metabolites: The Key Drivers of the Pharmacological Actions of Medicinal Plants. In Herbal Medicine; Builders, P.F., Ed.; Intech Open: London. UK.
Murillo G, Mehta R. (2001). Cruciferous vegetables and cancer prevention. Nutr Cancer, 41, 17–28.
Balasinska B, Nicolle C, Gueux E, Majewska A, Demigne C, Mazur A. (2005). Dietary horseradish reduces plasma cholesterol in mice. Nutr Res, 25(10), 937–945.
Redovnikovic I.R., Glivetic T., Delonga K., Vorkapic-Furac J. (2008). Glucosinolates and their potential role in plant. Periodicum Biologorum, 110(4), 297–309.
Tedeschi P., Leis M., Pezzi M., Civolani S., Maietti A., Brandolini V. (2011). Insecticidal activity and fungitoxicity of plant extracts and components of horseradish (Armoracia rusticana) and garlic (Allium sativum). J Environ Sci Health B, 46(6), 486–490.
Hara M., Oda M., Yogo T., Sumi T., Arai R., Kuboi T., Etoh H. (2008). Detection of horseradish (Armoracia rusticana) myrosinase genes in samples containing horseradish. Food Sci Technol Res, 14(4), 389–394.
Weil M.J., Zhang Y., Nair M.G. (2005). Tumor cell proliferation and cyclooxygenase inhibitory constituents in horseradish (Armoracia rusticana) and wasabi (Wasabia japonica). J Agric Food Chem, 53(5), 1440–1444.
Komolova M., Nazarov O., Mamajanova I. (2023). Investigation of the elemental composition of the plant Prunus cerasus L. by ICP-MS. Scientific Journal of the Fergana State University, 2, 132.
Mirzabdullaeva D., Nazarov O. (2023). Investigation of the mineral composition of the plant Prúnus armeníaca L. inductively coupled plasma mass spectrometry. Scientific Journal of the Fergana State University, 1, 126.
Nazarova N., Nazarov O. (2023). Investigation of the composition of macro- and microelements of plum fruits and kernels of the stones by inductively coupled plasma mass spectrometry. Scientific Journal of the Fergana State University, 2, 131.
Сборник важнейших официальных материалов по санитарным и противоэпидемическим вопросам. В семи томах. Под об. ред. В.М.Подольского.(1992). Санитарные правила и нормы (СанПиН), гигиенические нормативы и перечень методических указаний и рекомендаций по гигиене питания. М., МП “Papor”, Т.V, 355-356.