Volume : 08, Issue : 10, October – 2021
Title:
31.SECONDARY METABOLITES AND THEIR BIOACTIVE POTENTIAL ANALYZED BY GC-MS IN STROBILANTHES ALTERNATA (BURM.F.) MOYLAN EX J.R.I.WOOD
Authors :
Karthika Devarajan and *Husssain, K.
Abstract :
Bioactive secondary metabolites in the leaf extracts of Strobilanthes alternata were analysed using GCMS. The alcoholic extract of the leaves contain eight fatty acid methyl esters, five terpenoids and aromatic dicarboxylic acids distributed in varying concentrations. Squalene which occurred very low quantity compared to other molecules is reported to possess antioxidant potential and contribute considerable to the wound healing property. Most of the molecules are known to possess antibacterial, antifungal and anti-inflammatory activities. Many of the biomolecules are characterized by antioxidant potential also. The process of wound healing in which S.alternata known to play a vital role which is discussed in terms of the combined activity of each and every molecules of the leaf extracts possessing antimicrobial, anti-inflammatory and antioxidant activities. Wound healing and antioxidant potential of bioactive molecules are seemed to coexist in S.alternata.
Key Words: Strobilanthes alternate, GCMS, Antioxidant, wound healing, Antimicrobial
Cite This Article:
Please cite this article in press Karthika Devarajan and *Husssain, K, Secondary Metabolites and their Bioactive Potential Analyzed by GC-MS in Strobilanthes Alternata (BURM.F.) Moylan Ex J.R.I.Wood., Indo Am. J. P. Sci, 2021; 08(10).
Number of Downloads : 10
References:
1. Dubey NK, Kumar R, and Tripathi P: Global promotion of herbal medicine:India’s opportunity.Current Science 2004;86:37-41.
2. Rates SMK. Plant sources as drugs.Toxicon. Elsevier 2001;39:603-613.
3. Alviano DS. and Alviano CS. Plant extracts-search for new alternatives to treat microbial diseases. Current Pharm.Biotechnology 2011;10:106-121.
4. Ghosh PK. and Gaba A. Phyto-extracts in wound healing. Journal of pharmacy and pharmaceutical sciences2013;16:760-820.
5. Ghuman S. Ncube B, Finnie JF, McGaw LJ, Njoya EM, Coopoosamy RM. and Staden JV. Antioxidant, Anti-inflammatory and wound healing properties of medicinal plant extracts used to treat wounds and dermatological disorders. South African Journal of Botany 2019; 126:232-240.
6. Phrompittayarat W, Jetiyanon K, Wittaya Areekul S. and Putaloun W. Influence of seasons, different plant parts, and plant growth stages on Saponin quantity and distribution in Bacopa monnieri. Songklanakarin J.Sci.Technol 2011;33:193-199.
7. Singh D and Aeri V. Phytochemical and pharmacological potential of Acanthus ilicifolius. J.Pharm Bioallied Sci 2013;5:17-20.
8. Kuppuswamy KM, Jounalagadda B and Arockiasamy S. GC-MS analysis of chloroform extract of
Croton bonplandianum. Int. J. Pharma. Bio. Sc. 2013; 4:613-617.
9. Abid S and Touqueer S. Antimicrobial and antioxidant activity of Breynia disticha and Vernonia elaeagnifolia. J.App.Pharm 2015;7:178-182.
10. Tamboli FA, Rangari VD, Killedar SG, Jadhar S U,Ghatage TS and Kore VP. Comparative phytochemical evaluation of natural micropropagated plants of Bacopa monnieri (L.) and Marmara. Pharm J. 2018 ; 22:66-73.
11. Yu FR, Lian XZ, Guo HY, McGuire PM, Li RD, Wang R and Yu F H. Isolation and characterization of methyl esters and derivatives from Euphorbia kansui (Euphorbeaceae) and their inhibitory effects on the human SCG-7901 cells.J.Pharm.Pharm Sci 2005;8:528-535.
12. Sermakkani N and Thangapandian V.GC-MS analysis of Cassia italic leaf methanol extract. Asian J of Pharmaceutical and clinical research. 2011;5:90-94.
13. Ryu KR, Choi JY,Chung S and Kim DH. Anti scratching behavioural effect of the essential oil and phytol isolated from Artemisia princeps Pamp. in mice.Planta Med 2011;77:22-26.
14. Al-Owaisi M, Al-Hadiwi N and Khan SA. GCMS analysis, determination of total phenolics, flavonoid content and free radical scavenging activities of various crude extracts of Moringa peregeina(Forssk.)Flori leaves Asian Pacific Journal of Tropical Biomedicine 2014;4:964-970.
15. Igwe KK, Nwankwo PO, Otuokere IE, Ijioma S N and Amaku FM. GCMS analysis of phytocomponents in the methanolic extract of Moringa oleifera leaves. Journal of Research in pharmaceutical science 2015;2:01-06.
16. Igwe KK, Nwankudu ON, Ijoma SN, Madubuike AJ and Achi NK. Screening of secondary metabolites in Huru crepitans bark ethanol extract using GC-MS analysis : A preliminary study approach. Journal of Science and Technology Advances 2016;1:64-71.
17. Mercurio I, Melai P, Capan D, Ceraso G, Carlini L and Bacci M. GCMS analysis of morning glory seeds freely in commerce:Can they be considered “herbal highs”? Egyptian Journal of Forensic sciences 2017; 7:1-6.
18. Balogun OS, Ajayi OS and Adeleke AJ . Hexahydrofarnesyl acetone rich extractives from Hildegardia barteri. Journal of herbs, spices and medicinal plants 2017;10:1049-6475.
19. Roy SJ , Baruah PS, Lahikar L, Gurung L , Saikia D and Tanti B. Phytochemical analysis and antioxidant activities of Homolomena aromatic Schott. Journal of Pharmacognosy and Phytochemistry 2019;8: 1379-1385.
20. Subramoniam A, Evans DA, Rajasekharan S and Nair GS. Effect of Hemigraphis colorata (Blume) H.G.Hallier leaf on wound healing and inflammation in mice. Int.Journal of Pharmacology 2001;33:283-285.
21. Bhargavi CHS, Kumar NVSPP and Babu VR. Ancient and modern view of wound healing: Therapeutic Treatments.RJPBCS 2011;2:474-479.
22. Pawar RS and Toppo FA.Plants that heal wounds:A review. Herba polonica 2012;58.
23. Anitha VT,Antonisamy JM and Jeeva S. Antibacterial studies on Hemigraphis colorata ( Blume) H.G.Hallier and Elephantopus scaber L. Asian Pac J Trop Med 2012; 5:52-57.
24. Megha MA, Unnma U, Rameshpathy M, Karikalan K,Vickram S,KumaRSV,Sridharan B. Formulation of nano-encapsulated poly herbal ointment for anti-inflammation.Der Pharmacia Lettre 2013;5:164- 170.
25. Akhil, P. and Prabhu, P. (2013). Evaluation of antioxidant, anti-inflammatory and cytotoxicity potential of Hemigraphis colorata. IJPSR. 2013;4:3477-3483.
26. Goswami U and Nazarine F. Bioactivity of methyl palmitate obtained from mangrove plant Salvadora persica L. US Patent 2003;6: 638,546.
27. Wang YN, Wang HX, Shen ZJ, Zhao LL, Clarke SR, Sun JH, Du YY and Shi GL. Methyl palmitate, an acaricidal compound occurring in green walnut husks. Jorunal of economic entomology 2009; 102: 196-202.
28. VenketaRaman B, Samuel LA , Pardhasaradhi M, NarashimhaRao B, Nagavamskrishna A, Sudhakar M and Radhakrishnan TM. Antibacterial,antioxidant activity and GCMS analysis of Eupatorium odoratum. Asian J. Pharm Clin Res 2012; 5:99-106.
29. Ryu KR,Choi JY,Chung S and Kim DH. Anti scratching behavioural effect of the essential oil and phytol isolated from Artemisia princeps Pamp. in mice.Planta Med 2011;77:22-26.
30. Santos CCMP, Salvadori MS, Mota VG, Costa LM and Almeida AACO. Antinociceptive and antioxidant activities of phytol invivo and invitro models. Neurosci J. 2013;Article ID 949452.
31. Ukwubile CA, Ahmed A, Katsayal UA, Ya UJ and Mejida S..GCMS analysis of bioactive compounds from Melastomastrum capitatum(Vahl) Fern leaf methanol extract:an anticancer plant. Scientific African. 2019;3:e0059.
32. Pinto MEA, Araujo SG, Morais MI, Sa,NP, Lima CM, Rosa CA, Siqueria EP, Johann S and Lima LARS. Antifungal and antioxidant activity of fatty acid methyl esters from vegetable oils. Anals da Academia Brasileira de ciencias 2017; 89:1671-1681.
33. Shetty S, Udupa S and Udupa L. Evaluation of antioxidant and wound healing effects of alcoholic and aqueous extract of Ocimum sanctum Linn in rats. Advance Access Publication 2007; 5:95-101.
34. Suntar I, Akkol EK, Nahar L and Sarker SD. Wound healing and antioxidant properties: do they coexist in plants ? Free Rad.Antiox 2012;2:1-7.
35. Houghton PJ, Hylands PJ, Mensah AY, Hensel A and Deters AM. Invitro tests and ethnopharmacological investigations. Wound healing as an example. Journal of Ethanopharmacology 2005;100:100-107.
36. Mishra M, Botto, Geddo F, Antoniotti S, Bertea CM, Levi R, Gallo MP and Querio G. Squalene: More than a stem toward sterols. Antioxidants 2020; 9:688.
37. Lozano-Grande M, Gorinstein S, Espitia-Rangel E, Davila-Ortiz G and Martinez-Ayala Al. Plant sources, extraction methods and uses of squalene. International journal of Agronomy 2018; ID 1829160:13.
38. Aioi A, Shimizu T, and Kuriyama K. Effect of squalene on superoxide anion generation induced by a skin irritant, lauroylsarcosine. Int J Pharm 1995; 113:159-164.
39. Dissemond J, Goos M and Wagner SN. The role of oxidative stress in the pathogenesis and therapy of chronic wounds. Hautarzt 2002; 53:718-23.