THERMAL SCIENCE

International Scientific Journal

Xiaofan Zhang

,

Shuaiwei Dong

,

Zhiyong Sun

,

Yaoming Wang

,

Xuefeng Luo

,

Bo Chen

,

Guanzhong Yao

,

Yang Gao

,

Chunxia Lv

,

Dongfang Zheng

,

Yong Zhao

,

Ting Wang

,

Shuangxi Yan

,

Wanxi Peng

PYROLYSIS MOLECULE OF CLERODENDRUM TRICHOTOMUM FOR POTENTIAL BIOMEDICINE

ABSTRACT
In this experiment, Fourier transform infrared technology, gas chromatography-mass spectrometry and liquid chromatography-mass spectrometry were used to detect and analyze the extract of Clerodendrum trichotomum root. The results showed that the extract of Clerodendrum trichotomum root contained a large amount of biologically active ingredients and active ingredients. Clerodendrum trichotomum is rich in essential ingredients and has broad application prospects in biopharmaceuticals and fragrances. This study is of great significance for the development of the medicinal potential of Clerodendrum trichotomum and the identification of its value for further development in modern medicine.
KEYWORDS
Clerodendrum trichotomum, biological activity, analysis, experiment, medical
PAPER SUBMITTED: 2019-07-01
PAPER REVISED: 2019-09-06
PAPER ACCEPTED: 2019-09-15
PUBLISHED ONLINE: 2020-02-08
DOI REFERENCE: https://doi.org/10.2298/TSCI190701030Z
CITATION EXPORT: view in browser or download as text file
THERMAL SCIENCE YEAR 2020, VOLUME 24, ISSUE Issue 3, PAGES [1625 - 1631]
REFERENCES
  1. Wang, W. X., et al. Rearranged abietane diterpenoids from the roots of Clerodendrum trichotomum and their cytotoxicities against human tumor cells, Phytochemistry, 89 (2013), 9, pp. 89-95.
  2. Xu, R. L., et al., New cytotoxic steroids from the leaves of clerodendrum trichotomum. Steroids, 78 (2013) 7, pp. 711-716.
  3. Hu, F. Q., et al., Influence of light intensity and soil water content on morphological and growth traits of clerodendrum trichotomum seedling. Journal of Nanjing Forestry University, 33 (2009) 5, pp. 27-31.
  4. Xu, R. L., et al., Diverse terpenoids from the leaves of clerodendrum trichotomum. Chemistry of Natural Compounds, 51 (2015) 5, pp. 1-2.
  5. Wang, W. X., et al., Trichotomone, a new cytotoxic dimeric abietane-derived diterpene from clerodendrum trichotomum. Tetrahedron Letters, 54 (2013) 20, pp. 2549-2552.
  6. Li, L. Z., et al., Abietane diterpenoids and other constituents from clerodendrum trichotomum. Biochemical Systematics & Ecology, 56 (2014), pp. 218-220.
  7. Pandey, K. K. A study of chemical structure of soft and hardwood and wood polymers by ftir spectroscopy. Journal of Applied Polymer Science, 71 (2015) 12, pp. 1969-1975.
  8. Zandomeneghi, G., et al., Ftir reveals structural differences between native beta-sheet proteins and amyloid fibrils. Protein Science, 13 (2010) 12, pp. 3314-3321.
  9. Pfletscher, et al., Polymorphism of hydrogen-bonded star mesogens - a combinatorial dft-d and ft-ir spectroscopy study. RSC Advances, 9 (2019) 15.
  10. Wang, H., et al. In situ FT-IR investigation on the reaction mechanism of visible light photocatalytic NO oxidation with defective g-C_3N_4. Science Bulletin, 2018(2).
  11. Xie, Y. Z., et al., Study on biomolecules in extractives of Camellia oleifera fruit shell by GC-MS. Saudi Journal of Biological Sciences, 25 (2018) 2, PP. 234-236
  12. Levitas, M.P., et al., Discrimination of synthetic cathinones by GC-MS and GC-MS/MS using cold electron ionization. Forensic science international 288 (2018), PP. 107-114.
  13. Wang, X. R., et al., Stability control for breath analysis using GC-MS. Journal of chromatography. B, Analytical technologies in the biomedical and life sciences (2018), PP. 27-34.
  14. Zhang, et al., A sensitive GC/MS detection method for analyzing microbial metabolites short chain fatty acids in fecal and serum samples. Talanta 196 (2019), PP. 249-254.
  15. Ge, S. B., et al., Biological analysis on extractives of bayberry fresh flesh by GC-MS. Saudi Journal of Biological Sciences, 36 (2018) 14, PP. 816-818
  16. Chen, J. T., GC-MS explores the health care components in the extract of Pterocarpus pedatus Pierre. Saudi Journal of Biological Sciences,25 (2018), pp. 1183-1188
  17. Iwamoto, N., et al., Fully validated LCMS bioanalysis of Bevacizumab in human plasma using nano-surface and molecular-orientation limited (nSMOL) proteolysis. Drug metabolism and pharmacokinetics, 31 (2016), pp. 46-50.
  18. Novak, T. J. et al., LCMS using a hybrid quadrupole time of flight mass spectrometer for impurity identification during process chemical development of a novel integrase inhibitor. Journal of pharmaceutical and biomedical analysis 51 (2010), pp. 78-83.
  19. Olalere, O. A., et al., Mineral element determination and phenolic compounds profiling of oleoresin extracts using an accurate mass LC-MS-QTOF and ICP-MS. Journal of King Saud University - Science (2018).
  20. Rentsch, K. M., Knowing the unknown - State of the art of LCMS in toxicology. TrAC Trends in Analytical Chemistry 84 (2016), pp. 88-93.
  21. Stobinski, L., et al., Multiwall carbon nanotubes purification and oxidation by nitric acid studied by the ftir and electron spectroscopy methods. Journal of Alloys & Compounds, 501 (2015) 1, pp. 0-84.
  22. Camacho, N. P., et al., Ftir microscopic imaging of collagen and proteoglycan in bovine cartilage. Biopolymers, 62 (2015) 1, pp. 1-8.
  23. Sills, D. L., Gossett, J. M., Using ftir to predict saccharification from enzymatic hydrolysis of alkali-pretreated biomasses. Biotechnology & Bioengineering, 109 (2015) 2, pp. 353-362.
  24. Liang, C. Y., et al., Effect of dendrobium officinale on d-galactose-induced aging mice. Chinese Journal of Integrative Medicine, (2017), pp. 1-9.
  25. Kaviani, E., et al., Protective effect of atorvastatin on d-galactose-induced aging model in mice. Behavioural Brain Research, 21 (2018) 1, pp.19-25.
  26. Sousa, M. D., et al., Covalent functionalization of graphene oxide with d-mannose: Evaluating the hemolytic effect and protein corona formation. Journal of Materials Chemistry B, 6 (2018) 18.
  27. Wang, S., et al., Heat capacities and thermodynamic functions of d -ribose and d-mannose. Journal of Thermal Analysis & Calorimetry 7 (2018), pp. 1-11.
  28. Mandlaa, S. Z., et al., Enhanced 2-keto-l-gulonic acid production by applying l-sorbose-tolerant helper strain in the co-culture system. Amb Express, 8 (2018) 1.
  29. Kalami, S., et al., Replacing 100% of phenol in phenolic adhesive formulations with lignin. Journal of Applied Polymer Science, 134 (2017) 30.
  30. Devaki, P., et al., Wall properties and slip consequences on peristaltic transport of a casson liquid in a flexible channel with heat transfer. Applied Mathematics & Nonlinear Sciences, 3 (2018), 1, pp. 277-290.
  31. Esteban, M., et al., Bifurcation analysis of hysteretic systems with saddle dynamics. Applied Mathematics & Nonlinear Sciences, 2 (2017), 2, pp. 449-464.
  32. Mahiwal, K., et al., Synthesis, antimicrobial evaluation, ot-qsar and mt-qsar studies of 2-amino benzoic acid derivatives. Medicinal Chemistry Research, 21 (2012) 3, pp. 293-307.
  33. Ledeti, I., et al., Study of kinetic characteristics of 6-ethyl chenodeoxycholic acid and deoxycholic acid decomposition in non-isothermal conditions. Journal of Thermal Analysis and Calorimetry (2018).
  34. Wang, X., et al., Crocetin attenuates spared nerve injury-induced neuropathic pain inmice. Journal of Pharmacological Sciences, 135(2017) 4, 141-147.
  35. Moradzadeh, M., et al., Anti-tumor effects of crocetin and related molecular targets. Journal of Cellular Physiology, 233 (2018) 3.
PDF VERSION [DOWNLOAD]
Pyrolysis molecule of Clerodendrum trichotomum for potential biomedicine

© 2024 Society of Thermal Engineers of Serbia. Published by the Vinča Institute of Nuclear Sciences, National Institute of the Republic of Serbia, 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