146

The paper presents the data of the developed technology for the processing of
medicinal plants. As a result of the new technology, it became possible to preserve the quality of
dried raw materials and obtain medicinal tea. There were comparative works of plants Chinese
Camellia and fireweed plant. They are both rich in polyphenols and enzymes that accelerate the
oxidative transformation of the former. The original most bioactive monomeric units in black tea
almost do not remain, and its therapeutic antitumor properties, respectively, are lower than
those of green tea. Independent transformations of epoetin B in fresh fireweed, on the contrary,
lead to a qualitatively similar composition of pharmaceutical fireweed and fireweed.
Dependences describing the effect of fermentation temperature on organoleptic indicators were
studied. This technology makes it possible to preserve the antioxidant properties of the resulting
final product in maximum quantities.
 

  • Internet ҳавола
  • DOI
  • UzSCI тизимида яратилган сана 25-04-2023
  • Ўқишлар сони 146
  • Нашр санаси 20-04-2023
  • Мақола тилиIngliz
  • Саҳифалар сони52-58
English

The paper presents the data of the developed technology for the processing of
medicinal plants. As a result of the new technology, it became possible to preserve the quality of
dried raw materials and obtain medicinal tea. There were comparative works of plants Chinese
Camellia and fireweed plant. They are both rich in polyphenols and enzymes that accelerate the
oxidative transformation of the former. The original most bioactive monomeric units in black tea
almost do not remain, and its therapeutic antitumor properties, respectively, are lower than
those of green tea. Independent transformations of epoetin B in fresh fireweed, on the contrary,
lead to a qualitatively similar composition of pharmaceutical fireweed and fireweed.
Dependences describing the effect of fermentation temperature on organoleptic indicators were
studied. This technology makes it possible to preserve the antioxidant properties of the resulting
final product in maximum quantities.
 

Муаллифнинг исми Лавозими Ташкилот номи
1 Sultanova S.A. teacher TSTU
2 Safarov J.E. functionary TSTU
3 Mambetsheripova A.A. teacher Karakalpak State university
4 Afanaseva N.A. teacher Belarusian National Technical University
Ҳавола номи
1 V.V. Fozilova. Development and research of consumer properties of tea drinks based on fireweed angustifolia. “Dissertation for the degree of candidate of technical sciences”, 2014.
2 S. Kauppinen., B. Galambosi. Ivan-tea, black chokeberry – joint research for the benefit of growing herbs and herbs Luonnonvarakeskus”, 2016. 163.
3 Y. Yashin., B.V. Nemzer., E. Combet. Determination of the chemical composition of tea by chromatographic methods: “Review journal of food research”, 2015. 56.
4 A.S. Sadovsky., I.A. Sokolov. Tea doubles. “Chemistry and life”, 2013. 34
5 V. Kaškoniene., M. Stankevicius., T. Drevinskas. Evaluation of phytochemical composition of fresh and dried raw material of introduced Chamerion angustifolium L. using chromatographic, spectrophotometric and chemometric techniques. “Phytochemistry”, 2015. 184.
6 M. Karonen., J. Parker., A. Agrawal. First evidence of hexameric and heptameric ellagitannins in plants detected by liquid chromatography. “Electrospray ionization mass spectrometry rapid commun. mass spectrum”, 2010. 3151.
7 N. Baert., J. Kim., M. Karonen. Inter-population and inter-organ distribution of the main polyphenolic compounds of Epilobium angustifolium. “Phytochemistry”, 2016.
8 V.F. Korsun., E.V. Korsun., K.A. Treskunov. On the history of the "unscientific" phytotherapy in oncology (Published in the materials of the All-Russian conference with international participation. “Accompanying phototherapy in oncology”, 2015.
9 A.S. Sadovsky. Men's tea: the view of an aged chemist. “Chemistry and life”, 2014. 34
10 Z. Xinhua. Green tea and the risk of prostate cancer. “A systematic review and metaanalysis. Medicine”, 2017. 64
11 R.I. Valov. Pharmacognostic study of the aerial part of chamaenerion angustifolium (L.) Scop. “Dissertation for the degree of candidate of pharmaceutical sciences. Ulan-Ude”, 2012.
12 A.S. Sadovsky. Tea surrogates: fireweed, goldenrod and company. “Chemistry and life-XXI century”, 2004. 60.
13 I.A. Schepetkin., A.G. Ramstead., L.N. Kirpotina. Therapeutic potential of polyphenols from epilobium angustifolium (fireweed). phytother. “Published online in wiley online library”, 2016.
14 N.A. Spiridonov. “Cytotoxicity of some Russian ethnomedicinal plants and plant compounds”, 2005. 428.
15 J.P. Piwowarski., B. Bobrowska-Korczak., I. Stanisławska. Evaluation of the effect of epilobium angustifolium aqueous extract on LNCaP cell proliferation. “In Vitro and In Vivo Models. Planta Med”, 2017
16 B. Nicolas. Effects of oligomeric ellagitannins on ruminal fermentation in vitro: Bigger is not always better. “Conference paper in joint natural products conference”, 2016.
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