THERMAL SCIENCE

International Scientific Journal

Yuhao Peng

,

Zhiyong Sun

,

Yaoming Wang

,

Shuaiwei Dong

,

Chunxia Lv

,

Ting Wang

,

Shuangxi Yan

,

Qiuling Zhang

EXTRACTS OF QUERCUS DENTATA LEAF

ABSTRACT
Along with the development of our economic society and the growing demand for wood, the value of the use of Quercus dentata Thunb has also increased year by year. However, the traditional trees used are resources that are cut down, and development primarily uses only the branches, while ignoring the value in using the rest of the trees. Thiscauses a waste of resources. In response, this study uses benzene, an alcohol found in Quercus dentata Thunb leaf extract. Fourier transform infrared spectroscopy (FT-IR) and gas chromatography-mass spectrometry (GC-MS) were used for catalytic cracking products, and the efficient extraction of pyrolysis products were studied. Analysis shows that Quercus dentata Thunb leaf extract species contain a variety of biological active ingredients; and the ingredients in pharmaceutical and chemical production have very high value. For example, the Quercus dentata Thunb leaf of benzyl alcohol extract, Lupeol, has significant anti-cancer, anti-oxidation, and anti-inflammatory effects. The analysis of the chemical composition of the Quercus dentata Thunb leaf provides a new theoretical basis.
KEYWORDS
Quercus dentata Thunb, FT-IR, GC-MS
PAPER SUBMITTED: 2019-05-12
PAPER REVISED: 2019-08-19
PAPER ACCEPTED: 2019-09-08
PUBLISHED ONLINE: 2020-02-08
DOI REFERENCE: https://doi.org/10.2298/TSCI190512037P
CITATION EXPORT: view in browser or download as text file
THERMAL SCIENCE YEAR 2020, VOLUME 24, ISSUE Issue 3, PAGES [1665 - 1671]
REFERENCES
  1. Potenko V V., et al., Genetic Variation and differentiation in population of Japanese emperor oak (Quercus dentata Thunb.) and Mongolian oak (quercus mongolica fisch. ex ledeb.) in the south of the Russian far east. Genetika, 2007, 43(4).
  2. Lee J. H., et al., Variations in the flowering time, pollen morphology and fertility of Quercus dentata Thunb., Q. serrata Thunb., Q. mongolica Fischer var. grosseserrata Rehder et Wilson and their intermediate types. Journal of the Japanese Forestry Society, 1996, 78(4): 452-456.
  3. Bokern M., et al., Trisubstituted hydroxycinnamic acid spermidines from Quercus dentata pollen. Phytochemistry, 1995, 39(6).
  4. Lyu J., et al., Species boundaries between three sympatric oak species: Quercus aliena, Q. dentata, and Q. variabilis at the northern edge of their distribution in China. Frontiers in Plant Science, 2018, 9.
  5. Yang H., et al., Pyrolysis molecules of pinus armandii leaves for potential reuse. Ekoloji 2019, 28(108): 1123-1127
  6. Li C., et al., Preparation and characterization of a novel environmentally friendly phenol-formaldehyde adhesive modified with tannin and urea. International Journal of Adhesion and Adhesives, 2016, 66: 26-32.
  7. Science-Analytical Science; New Findings from Gdansk University of Technology in the Area of Analytical Science Described (Ptr-ms and Gc-ms As Complementary Techniques for Analysis of Volatiles: A Tutorial Review). Science Letter, 2019.
  8. Nešpor J., et al., An HS-SPME-GC-MS method for profiling volatile compounds as related to technology used in cider production. Molecules (Basel, Switzerland), 2019, 24(11).
  9. Zhu Z. Y., et al., Exploration of the effects of pressure on the controllability of extractive distillation for separating pressure-sensitive azeotropes. Separation and Purification Technology, 2019, 227.
  10. Yue X. C., et al., Molecules and functions of Cornus officinalis bark volatiles. Emirates Journal of Food and Agriculture. 2018. 30(10): 828-838
  11. Pralle, R.S., et al., Predicting blood ß-hydroxybutyrate using milk Fourier transform infrared spectrum, milk composition, and producer-reported variables with multiple linear regression, partial least squares regression, and artificial neural network. Journal of Dairy Science, 2018, 101(5).
  12. Qi K., et al., Saliva analysis by Fourier transform infrared spectrum in the enamel decalcification of orthodontic treatment of the teenagers. Shanghai Kouqiang Yixue, 2009, 18(2).
  13. Zhang Y, Wang R. Fabrication of novel polyetherimide-fluorinated silica organic.inorganic composite hollow fiber membranes intended for membrane contactor application. Journal of Membrane Science, 2013, 443(18):170-180.
  14. Synthesis of PDMS-PS IPN Pervaporation Membrane for Pervaporation Recovery of Butanol. Journal of Wuhan University of Technology: English Edition of Materials Science, 2018, 33 (06): 20-26.
  15. Madejová J. FTIR techniques in clay mineral studies. Vibrational Spectroscopy, 2003, 31(1):1-10.
  16. Zandomeneghi G, Krebs M R H, Mccammon M G, et al. FTIR reveals structural differences between native ß-sheet proteins and amyloid fibrils. Protein Science, 2010, 13(12):3314-3321.
  17. Karyakin A, Motiejunas D, Wade R C, et al. FTIR studies of the redox partner interaction in cytochrome P450: The Pdx-P450cam couple. Biochimica Et Biophysica Acta General Subjects, 2007, 1770(3):420-431.
  18. Jackson M, Mantsch H H. The Use and Misuse of FTIR Spectroscopy in the Determination of Protein Structure. Crc Critical Reviews in Biochemistry, 2008, 30(2):95-120.
  19. Rehman I, Bonfield W. Characterization of hydroxyapatite and carbonated apatite by photo acoustic FTIR spectroscopy. Journal of Materials Science Materials in Medicine, 1997, 8(1):1-4.
  20. Nicolet Y, De A L, Vernède X, et al. Crystallographic and FTIR spectroscopic evidence of changes in Fe coordination upon reduction of the active site of the Fe-only hydrogenase from Desulfovibrio desulfuricans. Journal of the American Chemical Society, 2001, 123(8):1596-601.
  21. Ashraf M A., et al., Design, preparation and evaluation of a high performance sensor for formaldehyde based on a novel hybride nonocomposite ZnWO3/rGO. Analytica Chimica Acta, 2019, 1051: 120-128
  22. Lam S S., et al., Microwave pyrolysis valorization of used baby diaper. Chemosphere, 2019, 230: 294-302
  23. Dars G H. Climate Change Impacts on Precipitation Extremes over the Columbia River Basin Based on Downscaled CMIP5 Climate Scenarios. Dissertations & Theses - Gradworks, 2013.
  24. Sung J H, et al., A Projection of Extreme Precipitation Based on a Selection of CMIP5 GCMs over North Korea. Sustainability, 2019, 11.
  25. Schofield R V, Kirkby M J. Application of salinization indicators and initial development of potential global soil salinization scenario under climatic change. Global Biogeochemical Cycles, 2003, 17(3):-.
  26. Kammoun M, et al., An efficient approach to modeling the topographic control of surface hydrology for regional and global climate modeling. Journal of Climate, 1997, 10(1):118--137.
  27. Thickett D, et al., Using non-invasive non-destructive techniques to monitor cultural heritage objects. Insight - Non-Destructive Testing and Condition Monitoring, 2017, 59(5):230-234.
  28. Chan D D, Neu C P. Transient and Microscale Deformations and Strains Measured under Exogenous Loading by Noninvasive Magnetic Resonance. Plos One, 2012, 7(3):e33463.
  29. Wang L S., et al., Molecules effect of rosewood: Dalbergia cochinchinensis. Ekoloji 2019, 28(108): 1015-1019
  30. Chen H. L., et al., Pyrolysis molecule of Torreya grandis bark for potential biomedicine. Saudi Journal of Biological Sciences, 2019, 26(4): 808-815.
  31. Kumar Lekshmi R.G., et al., Chitosan-Whey protein as efficient delivery system for squalene: Characterization and functional food application. International Journal of Biological Macromolecules, 2019, 135.
  32. Mollmann S. H., et al., The stability of insulin in solid formulations containing melezitose and starch. effects of processing and excipients. Drug Development and Industrial Pharmacy, 2006, 32(6).
  33. Felices M. J., et al., LPS-squalene interaction on D-galactose intestinal absorption. Journal of Physiology and Biochemistry, 2019.
  34. Science-Food Science; Reports from NDRI Advance Knowledge in Food Science (Physico-chemical Properties of Khoa Prepared from Lactose Hydrolyzed Buffalo Milk). Food Weekly News, 2019.
  35. Pavithra P S, et al., Synergistic interaction of ß-caryophyllene with aromadendrene oxide 2 and phytol induces apoptosis on skin epidermoid cancer cells. Phytomedicine: International Journal of Phytotherapy and Phytopharmacology, 2018, 47.
  36. Lin Y. L., et al., Effects of bok choy on the dissipation of dibutyl phthalate (DBP) in mollisol and its possible mechanisms of biochemistry and microorganisms. Ecotoxicology and Environmental Safety, 2019, 181.
  37. Nakagawa Y, et al., Molecular basis of mannose recognition by pradimicins and their application to microbial cell surface imaging. Cell Chemical Biology, 2019.
  38. Technology-Food Technology; Researchers from SRM University Describe Findings in Food Technology (Influence of Sucrose Concentration On Electric Conductivity of Banana Pulp During Ohmic Heating). Food Weekly News, 2019.
  39. Chen H. H., et al., Effects of triethylamine on the expression patterns of two G3PDHs and lipid accumulation in Dunaliella tertiolecta. Enzyme and Microbial Technology, 2019, 127.
  40. Saini M., et al., Design, Synthesis and In-Vitro Antitumor Activity of Lupeol Derivatives via Modification at C-3 and C-30 Positions. ChemistrySelect, 2019, 4(5).
  41. Atash A A, Bellehaj H S. Applications of the generalized kummer's summation theorem to transformation formulas and generating functions. Applied Mathematics & Nonlinear Sciences, 2018, 3(2): 331-338.
  42. Sudhakar S, et al., Odd mean labeling for two star graph. Applied Mathematics & Nonlinear Sciences, 2017, 2(1): 195-200.
  43. Chen H. G., et al., Self-assembled monolayers of n-hexadecanoic Acid and a-hydroxyl n-hexadecanoic acid on titanium surfaces. Chinese Journal of Chemistry, 2002(12): 1467-1471+1459.
  44. Li C, et al., Structural properties and copolycondensation mechanism of valonea tannin-modified phenol-formaldehyde resin. Journal of Polymers and the Environment, 2017, 26(3), 1297-1309.
  45. Bednarczyk-Cwynar B., et al., Cytotoxic activity of some lupeol derivatives. Natural Product Communications, 2016, 11(9): 1237-1238.
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Extracts of Quercus dentata leaf

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