Seaweeds are a rich source of highly potential bioactive compounds in the pharmaceutical industry. To date, many chemically unique compounds of marine origin with various biological activities have been isolated and some of them are under investigation and to develop new pharmaceuticals. The phytochemical screening will be limited to the determination of alkaloids, flavonoids, saponins, tannins and terpenoids using two organic solvents such as ethanol and methanol. The result of the phytochemical test proves that there is a difference in the capacity of different solvents to extract active compounds. In methanol extracts tannins and terpenoids are present in Ulva reticulate in moderate amount. Terpenoids are slightly present in Sargassum cristaefolium and terpenoids and saponins are slightly present in Halymenia durvillei. In methanol extracts Ulva reticulata contains coumarins and saponins in moderate amount and terpenoids is only slightly present. Also, the methanol extract of Sargassum cristaefolium and Halymenia durvillei, contain terpenoids in moderate amount. It can be deduced from the screening test that terpenoids is the dominant constituents present in the three algal samples. Both ethanol and methanol seaweed extracts showed that alkaloids, flavonoids and xanthoprotein were absent in the three seaweed extracts of U. reticulata, S. cristaefolium and H. durvillei. An absence of alkaloid in U. reticulata in present study is due to effect of the geographical location and seasons of collection. Differences can be attributed to solubility of active component in different solvents used. Methods of extraction were possible sources of variation for chemical composition and extracted for bioactivity reaction. Indeed, there is no doubt that more terpenoids identified from marine algae will become available and will be used in food industry and will be utilized as source of natural antioxidant and clinical drugs that will play a significant role in human disease treatment in the future.
| Published in | American Journal of Applied Chemistry (Volume 9, Issue 4) |
| DOI | 10.11648/j.ajac.20210904.11 |
| Page(s) | 97-101 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Phytochemical Screening, Macro-algae, Seaweeds, Bioactive, Algal Extraction
| [1] | ANANTHARAMAN P., K. MANIVANNAN, G. KARTHIKAIDEVI and G. THIRUMARAN. 2009. Element composition of certain seaweeds from Gulf of Mannar Marine Biosphere Reserve, Southeast Coast of India. World Journal of Dairy and Food Sciences 4: 1-46. |
| [2] | APOSTOLIDIS, E., and C. M. LEE. 2010. In-vitro potential of Ascophyllum nodosum phenolic antioxidant-mediated alpha-glucosidase and alpha-amylase inhibition. Journal Food Science 75 (3): 97-102. |
| [3] | ASHOUR, MOHAMED; WINK, MICHAEL; GERSHENZON, JONATHAN (2010). "Biochemistry of Terpenoids: Monoterpenes, Sesquiterpenes and Diterpenes". Biochemistry of Plant Secondary Metabolism. pp. 258–303. 55. |
| [4] | ATMANI D, NASSIMA C, DINA A, MERIEM B, NADJET D, HANIA B, 2009. Flavonoids in Human Health: From Structure to Biological Activity Current Nutrition & Food Science, 5: 225-237. |
| [5] | BHAT, S. V., B. A. NAGASAMPAGI, and M. SIVAKUMAR. 2005. Chemistry of Natural Products. Narosa Publishing House, India. |
| [6] | CHEMISTRY, INTERNATIONAL UNION OF PURE AND APPLIED. IUPAC Compendium of Chemical Terminology. IUPAC. doi: 10.1351 /goldbook. T06279. |
| [7] | DE BRUYNE T, PIETERS L, DEELSTRA H, VLIETINCK A. 1999 Condensed vegetables tannins: biodiversity in structure and biological activities. Biochemical System Ecology; 27: 445–59. |
| [8] | DOLARA P, LUCERI C, DE FILIPPO C, FEMIA AP, GIOVANNELLI L, CARDERNI G, CECCHINI C, SILVI S, ORPIANESI C, CRESCI 2005. A. Red wine polyphenols influence carcinogenesis, intestinal microflora, oxidative damage and gene expression profiles of colonic mucosa in F344 rats. Mutation Research,; 591: 237–46. |
| [9] | EKPO M. A. and P. C. ETIM. 2009. Antimicrobial activity of ethanolic and aqueous extracts of Sida acuta on microorganisms from skin infections. Journal of Medicinal Plants Research 3: 621- 624. |
| [10] | FELIX M. T. 1982. Medicinal Microbiology. Churchill Livingstone: London, U. K. 848 pp. |
| [11] | FINLEY, J. W. AND P. GIVEN JR. Technological necessity of antioxidants in the food industry. 1986. Food and chemical toxicology. Vol 2, Issues 10-11, pp. 997-1255. |
| [12] | FIRN R (2010). Nature's Chemicals. Oxford: Biology. |
| [13] | GEORGE, T. W., E. PATERSON, S. WAROONPHAN, M. H. GORDON and J. A. LOVEGROVE. 2012. Effects of chronic consumption of fruit and vegetable puree-based drinks on vasodilation, plasma oxidative stability and antioxidant status. Journal on Human Nutrition and Dietetics 25 (5): 477-487. |
| [14] | HANSON, J. R. 2003. Natural products the secondary metabolites. The Royal Society of Chemistry 1-27. Cambridge, UK. |
| [15] | HOUGHTON, P. J., A. Y. MENSAH, N. IESSA, and L. Y. HONG. 2003. Terpenoids in Buddleja: relevance to chemosystematics, chemical ecology and biological activity. Phytochemistry 64: 385-393. |
| [16] | KITTAKOOP, P., C. MAHIDOL, and S. RUCHIRAWAT. 2014. Alkaloids as important scaffolds in therapeutic drugs for the treatments of cancer, tuberculosis, and smoking cessation. Current Top Medical Chemistry 14 (2): 239. |
| [17] | LIU, H. 2011. Extraction and Isolation of Compounds from Herbal Medicines. In: J. Willow and H. Liu (eds.) Traditional Herbal Medicine Research Methods. John Wiley and Sons, Inc. |
| [18] | LORENT, JOSEPH H.; QUETIN-LECLERCQ, JOËLLE; MINGEOT-LECLERCQ, MARIE-PAULE (2014). "The amphiphilic nature of saponins and their effects on artificial and biological membranes and potential consequences for red blood and cancer cells". Organic and Bio-molecular Chemistry. Royal Society of Chemistry. 12 (44). |
| [19] | SAPRA BHARTI, SUBHEET JAIN, A. K TIWARY. 2008. |
| [20] | Percutaneous permeation enhancement by terpenes: Mechanistic view. The AAPS Journal, Vol. 10, issue 1 pp 120-1. |
| [21] | SARKER, S. D. and L. NAHAR. 2005. Hyphenated techniques. In: S. D. Sasker, Z. Latif, and A. T. Gray (Eds). Natural Products Isolation, 2nd Ed. Totowa, Humana Press. |
| [22] | SEENIVASANRAO, REKHA. M, INDU, H, AND GEETHA S. 2012. Antibacterial activity and phytochemical analysis of selected seaweeds from Mandapam coast India. Journal of Applied Pharmaceutical Science 2 (10): 159-169. |
| [23] | SERRANO J, PUUPPONEN-PIMIA R, DAUER A, AURA A, SAURA-CALIXTO F. 2009 Tannins: current knowledge of food sources, intake, bioavailability and biological effects. Molecular Nutrition Food Research, 53: S310 29. |
| [24] | SUN, HONG-XIANG; XIE, YONG; YE, YI-PING (2009). "Advances in saponin-based adjuvants". Vaccine. 27 (12). |
| [25] | TAPAS AR, SAKARKAR DM, KAKDE RB. 2008. Flavonoids as Nutraceuticals: A Review. Tropical Journal of Pharmaceutical Research, 7: 1089-1099. |
| [26] | TREASE GE, EVANS WC. PHARMACOGNOSY. 2002. 15th Ed. London: Saunders Publishers; pp. 42– 44. 221–229, 246–249, 304–306, 331–332, 391–393. |
| [27] | VARGHESE, J. G., A. A. KITTUR, P. S. RACHIPUDI and M. Y. KARIDURAGAN-AVAR. 2010. Synthesis, characterization and per Evaporation performance of chitosan-g- polyaniline membranes for the dehydration of isopropanol. Journal of Membrane Science 364 (1-2): 10. |
| [28] | WINK M, SCHMELLER T, LATZ-BRIINING B. 1998. Modes of action of all chemical alkaloids: Interactions with neuroreceptors, DNA and other molecular targets. Journal of chemical Ecology, 24: 1888- 1937. |
APA Style
Maribelle Tambihul Hanani. (2021). Phytochemical Constituents of Three Species of Marine Macro- Algae from Sitio Usadda, Pangutaran, Sulu, Philippines. American Journal of Applied Chemistry, 9(4), 97-101. https://doi.org/10.11648/j.ajac.20210904.11
ACS Style
Maribelle Tambihul Hanani. Phytochemical Constituents of Three Species of Marine Macro- Algae from Sitio Usadda, Pangutaran, Sulu, Philippines. Am. J. Appl. Chem. 2021, 9(4), 97-101. doi: 10.11648/j.ajac.20210904.11
AMA Style
Maribelle Tambihul Hanani. Phytochemical Constituents of Three Species of Marine Macro- Algae from Sitio Usadda, Pangutaran, Sulu, Philippines. Am J Appl Chem. 2021;9(4):97-101. doi: 10.11648/j.ajac.20210904.11
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Download@article{10.11648/j.ajac.20210904.11,
author = {Maribelle Tambihul Hanani},
title = {Phytochemical Constituents of Three Species of Marine Macro- Algae from Sitio Usadda, Pangutaran, Sulu, Philippines},
journal = {American Journal of Applied Chemistry},
volume = {9},
number = {4},
pages = {97-101},
doi = {10.11648/j.ajac.20210904.11},
url = {https://doi.org/10.11648/j.ajac.20210904.11},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajac.20210904.11},
abstract = {Seaweeds are a rich source of highly potential bioactive compounds in the pharmaceutical industry. To date, many chemically unique compounds of marine origin with various biological activities have been isolated and some of them are under investigation and to develop new pharmaceuticals. The phytochemical screening will be limited to the determination of alkaloids, flavonoids, saponins, tannins and terpenoids using two organic solvents such as ethanol and methanol. The result of the phytochemical test proves that there is a difference in the capacity of different solvents to extract active compounds. In methanol extracts tannins and terpenoids are present in Ulva reticulate in moderate amount. Terpenoids are slightly present in Sargassum cristaefolium and terpenoids and saponins are slightly present in Halymenia durvillei. In methanol extracts Ulva reticulata contains coumarins and saponins in moderate amount and terpenoids is only slightly present. Also, the methanol extract of Sargassum cristaefolium and Halymenia durvillei, contain terpenoids in moderate amount. It can be deduced from the screening test that terpenoids is the dominant constituents present in the three algal samples. Both ethanol and methanol seaweed extracts showed that alkaloids, flavonoids and xanthoprotein were absent in the three seaweed extracts of U. reticulata, S. cristaefolium and H. durvillei. An absence of alkaloid in U. reticulata in present study is due to effect of the geographical location and seasons of collection. Differences can be attributed to solubility of active component in different solvents used. Methods of extraction were possible sources of variation for chemical composition and extracted for bioactivity reaction. Indeed, there is no doubt that more terpenoids identified from marine algae will become available and will be used in food industry and will be utilized as source of natural antioxidant and clinical drugs that will play a significant role in human disease treatment in the future.},
year = {2021}
}
TY - JOUR T1 - Phytochemical Constituents of Three Species of Marine Macro- Algae from Sitio Usadda, Pangutaran, Sulu, Philippines AU - Maribelle Tambihul Hanani Y1 - 2021/07/13 PY - 2021 N1 - https://doi.org/10.11648/j.ajac.20210904.11 DO - 10.11648/j.ajac.20210904.11 T2 - American Journal of Applied Chemistry JF - American Journal of Applied Chemistry JO - American Journal of Applied Chemistry SP - 97 EP - 101 PB - Science Publishing Group SN - 2330-8745 UR - https://doi.org/10.11648/j.ajac.20210904.11 AB - Seaweeds are a rich source of highly potential bioactive compounds in the pharmaceutical industry. To date, many chemically unique compounds of marine origin with various biological activities have been isolated and some of them are under investigation and to develop new pharmaceuticals. The phytochemical screening will be limited to the determination of alkaloids, flavonoids, saponins, tannins and terpenoids using two organic solvents such as ethanol and methanol. The result of the phytochemical test proves that there is a difference in the capacity of different solvents to extract active compounds. In methanol extracts tannins and terpenoids are present in Ulva reticulate in moderate amount. Terpenoids are slightly present in Sargassum cristaefolium and terpenoids and saponins are slightly present in Halymenia durvillei. In methanol extracts Ulva reticulata contains coumarins and saponins in moderate amount and terpenoids is only slightly present. Also, the methanol extract of Sargassum cristaefolium and Halymenia durvillei, contain terpenoids in moderate amount. It can be deduced from the screening test that terpenoids is the dominant constituents present in the three algal samples. Both ethanol and methanol seaweed extracts showed that alkaloids, flavonoids and xanthoprotein were absent in the three seaweed extracts of U. reticulata, S. cristaefolium and H. durvillei. An absence of alkaloid in U. reticulata in present study is due to effect of the geographical location and seasons of collection. Differences can be attributed to solubility of active component in different solvents used. Methods of extraction were possible sources of variation for chemical composition and extracted for bioactivity reaction. Indeed, there is no doubt that more terpenoids identified from marine algae will become available and will be used in food industry and will be utilized as source of natural antioxidant and clinical drugs that will play a significant role in human disease treatment in the future. VL - 9 IS - 4 ER -
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