International Scientific Journal


In this paper, Koelreuteria paniculata roots was taken as the research object, and its active substances were analyzed. First, Koelreuteria paniculata roots was crushed, dried, extracted, filtered, and concentrated by rotary evaporation. Then, the active substances of Koelreuteria paniculata roots were extracted with ethanol, benzene/ethanol, and methanol. Finally, Koelreuter was detected by GC-MS, FT-IR, TD-GC-MS, and TG analyses. Data analysis revealed that Koelreuteria paniculata roots contains oleic acid, linoleic acid, Lupinol, retinal, and other active substances that are of great value to medical, chemical, and food industries.
PAPER REVISED: 2019-08-24
PAPER ACCEPTED: 2019-09-05
CITATION EXPORT: view in browser or download as text file
  1. Sutiashvili, M.G., et al., Flavonoid and Cycloartane Glycosides from Seeds of Koelreuteria Paniculata. Chemistry of Natural Compounds, 2013. 49(2).
  2. Huang, Z., et al., Growth and Heavy Metal Accumulation of Koelreuteria Paniculata Seedlings and Their Potential for Restoring Manganese Mine Wastelands in Hunan, China. International Journal of Environmental Research and Public Health, 2015. 12(2).
  3. Khatiashvili, N.S. and E.P. Kemertelidze, Neutral Lipids from Seeds of Cercis Siliquastrum, Sapium Sebiferum, and Koelreuteria Paniculata. Chemistry of Natural Compounds, 2007. 43(4).
  4. Mostafa, A.E., et al., New Triterpenoidal Saponins from Koelreuteria Paniculata. Phytochemistry Letters, 2016. 17.
  5. Wen-Jie, Z., et al., Comparison of Volatile Profiles and Bioactive Components of Sun-Dried Pu-erh Tea Leaves from Ancient Tea Plants on Bulang Mountain Measured by GC-MS and HPLC. Journal of Zhejiang University. Science. B, 2019. 20(7).
  6. Zhang, Y., et al., In Vivo and in Vitro Evaluation of Hair Growth Potential of Cacumen Platycladi, and GC-MS Analysis of the Active Constituents of Volatile Oil. Journal of Ethnopharmacology, 2019. 238.
  7. Tansukh, B., M. Mukesh and S. Kanika, Inhibitory Effects of Leaf Extract of Lawsonia Inermis on Curvularia Lunata and Characterization of Novel Inhibitory Compounds by GC-MS Analysis. Biotechnology reports (Amsterdam, Netherlands), 2019. 23.
  8. Rodríguez, S.D., et al., FT-IR and Untargeted Chemometric Analysis for Adulterant Detection in Chia and Sesame Oils. Food Control, 2019.
  9. Squeo, G., et al., FT-IR Extra Virgin Olive Oil Classification Based on Ethyl Ester Content. Food Control, 2019. 102.
  10. Wilde, A.S., et al., The Feasibility of Applying NIR and FT-IR Fingerprinting to Detect Adulteration in Black Pepper. Food Control, 2019. 100.
  11. Sathya, B., et al., Vibrational Analysis (FT-IR and FT-Raman Spectra) and Molecular Docking Evaluation of MPTB in GABA Receptor. Journal of Cluster Science, 2019. 30(4).
  12. Peng Wanxi*, Wang Lansheng, Xu Qiu, Wu Qingding, Xiang Shilong. TD-GC-MS Analysis on Thermal Release Behavior of Poplar Composite Biomaterial under HighTemperature. Journal of Computational and Theoretical Nanoscience, 9(9): 1431-1433, SEP 2012
  13. Ratiu, I., et al., Discrimination of Chemical Profiles of Some Bacterial Species by Analyzing Culture Headspace Air Samples Using TD-GC/MS. Current Analytical Chemistry, 2014. 10(4).
  14. Lawal, O., et al., Headspace Volatile Organic Compounds from Bacteria Implicated in Ventilator-Associated Pneumonia Analysed by TD-GC/MS. Journal of Breath Research, 2018. 12(2).
  15. Oluwasola, L., et al., Headspace Volatile Organic Compounds from Bacteria Implicated in Ventilator-Associated Pneumonia Analysed by TD-GC/MS. Journal of Breath Research, 2018. 12(2).
  16. Eva, G., et al., Outdoor Air 1,3-butadiene Monitoring near a Petrochemical Industry (Tarragona Region) and in Several Catalan Urban Areas Using Active Multi-Sorbent Bed Tubes and Analysis through TD-GC/MS. The Science of the Total Environment, 2018. 618.
  17. Yuan, Z., et al., Characterization of Moxa Floss Combustion by TG/DSC, TG-FTIR and IR. Bioresource Technology, 2019. 288.
  18. Rojek, B. and M. Wesolowski, FTIR and TG Analyses Coupled with Factor Analysis in a Compatibility Study of Acetazolamide with Excipients. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2018.
  19. Mlonka-Mędrala, A., et al., Laboratory Studies on the Influence of Biomass Particle Size on Pyrolysis and Combustion Using TG GC/MS. Fuel, 2019. 252.
  20. Cheng, L., et al., Complexation Process of Amylose under Different Concentrations of Linoleic Acid Using Molecular Dynamics Simulation. Carbohydrate Polymers, 2019. 216.
  21. Lilin, C., et al., Complexation Process of Amylose under Different Concentrations of Linoleic Acid Using Molecular Dynamics Simulation. Carbohydrate Polymers, 2019. 216.
  22. Pires, Q.M., et al., Effect of Conjugated Linoleic Acid on Memory and Reflex Maturation in Rats Treated During Early Life. Frontiers in Neuroscience, 2019. 13.
  23. Khatal, L. and H. More, Development and Validation of a Liquid Chromatography-Tandem Mass Spectrometry Method for Quantification of Lupeol in Plasma and Its Application to Pharmacokinetic Study in Rats. Journal of Chromatography B, 2019. 1121.
  24. Arif, M., et al., In Silico and in Vitro Studies of Lupeol and Iso-Orientin as Potential Antidiabetic Agents in a Rat Model. Drug Design, Development and Therapy, 2019. 13.
  25. Pereira, B.F., et al., Lupeol, a Dietary Triterpene, Enhances Wound Healing in Streptozotocin-Induced Hyperglycemic Rats with Modulatory Effects on Inflammation, Oxidative Stress, and Angiogenesis. Oxidative Medicine and Cellular Longevity, 2019. 2019.
  26. Magdalena, M., et al., New Lupeol Esters as Active Substances in the Treatment of Skin Damage. PloS one, 2019. 14(3).
  27. Sofia, G., et al., Linoleic acid Metabolic Pathway Allows for an Efficient Increase of Intramuscular Fat Content in Pigs. Journal of Animal Science and Biotechnology, 2019. 10.
  28. Leal-Orta, E., et al., Role of PI3K/Akt on Migration and Invasion of MCF10A Cells Treated with Extracellular Vesicles from MDA-MB-231 Cells Stimulated with Linoleic Acid. Journal of Cell Communication and Signaling, 2019. 13(2).
  29. Malviya, P.S., et al., Acousto-optic Modulation in Ion Implanted Semiconductor Plasmas Having SDDC. Applied Mathematics & Nonlinear Sciences, 2018. 3(1): p. 303-310.
  30. López, J.C.C., et al., Computing the two first probability density functions of the random Cauchy-Euler differential equation: Study about regular-singular points. Applied Mathematics & Nonlinear Sciences, 2017. 2(1): p. 213-224.
  31. Doguizi, S., et al., Central Retinal Artery Occlusion with Double Cilioretinal Artery Sparing. Retinal Cases & Brief Reports, 2019. 13(1).
  32. Maruko, I., et al., Choroidal Blood Vessels in Retinal Pigment Epithelial Atrophy Using Optical Coherence Tomography Angiography. Retinal Cases & Brief Reports, 2019. 13(1).

© 2020 Society of Thermal Engineers of Serbia. Published by the Vinča Institute of Nuclear Sciences, Belgrade, Serbia. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International licence