دوره 27، شماره 4 - ( دوماهنامه طب جنوب 1403 )
جلد 27 شماره 4 صفحات 318-297 |
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Jamei E, Gallehgiryan M R, Shiravani M, Sadeghi A, Mahdi M, Nekooei M. The Antioxidant and Antitumor Effects of Al-gae from the Persian Gulf: A Systematic Re-view. Iran South Med J 2025; 27 (4) :297-318
URL: http://ismj.bpums.ac.ir/article-1-2094-fa.html
URL: http://ismj.bpums.ac.ir/article-1-2094-fa.html
جامعی عرفان، گلهگیریان محمدرضا، شیروانی معصومه، صادقی علی، مهدی محدثه، نکوئی مریم. اثرات آنتیاکسیدانی و ضدتوموری جلبکهای خلیجفارس: یک مرور نظاممند. مجله طب جنوب. 1403; 27 (4) :297-318
عرفان جامعی1 
، محمدرضا گلهگیریان1 ، معصومه شیروانی1 ، علی صادقی1 ، محدثه مهدی1 ، مریم نکوئی*2
، محمدرضا گلهگیریان1 ، معصومه شیروانی1 ، علی صادقی1 ، محدثه مهدی1 ، مریم نکوئی*2
1- کمیته تحقیقات دانشجویی، دانشگاه علوم پزشکی بوشهر، بوشهر، ایران
2- گروه بیوشیمی، دانشکده پزشکی، دانشگاه علوم پزشکی بوشهر، بوشهر، ایران ،nekooei.maryam@yahoo.com
2- گروه بیوشیمی، دانشکده پزشکی، دانشگاه علوم پزشکی بوشهر، بوشهر، ایران ،
چکیده: (97 مشاهده)
زمینه: در سالهای اخیر، جلبکهای دریایی به دلیل ترکیبات زیست فعال خود، مورد توجه محققان قرار گرفتهاند. با توجه به ذخایر گسترده جلبکهای خلیجفارس، این مطالعه به بررسی خواص آنتیاکسیدانی و ضدتوموری این جلبکها پرداخته است.
مواد و روشها: مطالعات منتشر شده در مجموعهای از پایگاههای معتبر علمی (PubMed، Web of Science، Scopus و Google scholar) به وسیله ترکیبی از عبارات MeSH و Emtree از ابتدا تا سال 2024 جستجو شدند. مطالعات مرتبط با اثرات آنتیاکسیدانی و ضدتوموری جلبکهای خلیجفارس انتخاب و دادههای مربوط به نام علمی جلبک، ترکیبات مؤثر حلالهای استخراج، روشهای سنجش و ترکیبات مؤثر استخراج شده و بهصورت کیفی تحلیل شدند.
یافتهها: تعداد ۹۶ مطالعه در این مرور گنجانده شد. بیشترین تعداد مطالعات به جلبکهای قهوهای اختصاص داشت. در بین آنها، برخی از گونهها بیشترین فعالیت آنتیاکسیدانی را نشان دادند. همچنین، برخی از عصارههای جلبکی، بهویژه عصارههای استخراج شده با حلالهای آلی، قویترین اثرات ضدتوموری را داشتند. متانول و اتانول رایجترین حلالهای مورد استفاده برای استخراج ترکیبات آنتیاکسیدانی از جلبکهای خلیجفارس بودند. علاوه بر این، سایر حلالهای آلی مانند ان- هگزان، اتیل استات و دیکلرومتان، بهطور کلی در فعالیت ضدتوموری عملکرد بهتری نسبت به حلالهای آبی داشتند.
نتیجهگیری: جلبکهای خلیجفارس بهعنوان منبع غنی از ترکیبات زیستفعال، پتانسیل بالایی درمان سرطان و کاهش استرس اکسیداتیو دارند. با اینحال، تحقیقات بیشتری برای بهرهبرداری بهینه از این منابع ضروری در پزشکی و توسعه دارو مورد نیاز است.
مواد و روشها: مطالعات منتشر شده در مجموعهای از پایگاههای معتبر علمی (PubMed، Web of Science، Scopus و Google scholar) به وسیله ترکیبی از عبارات MeSH و Emtree از ابتدا تا سال 2024 جستجو شدند. مطالعات مرتبط با اثرات آنتیاکسیدانی و ضدتوموری جلبکهای خلیجفارس انتخاب و دادههای مربوط به نام علمی جلبک، ترکیبات مؤثر حلالهای استخراج، روشهای سنجش و ترکیبات مؤثر استخراج شده و بهصورت کیفی تحلیل شدند.
یافتهها: تعداد ۹۶ مطالعه در این مرور گنجانده شد. بیشترین تعداد مطالعات به جلبکهای قهوهای اختصاص داشت. در بین آنها، برخی از گونهها بیشترین فعالیت آنتیاکسیدانی را نشان دادند. همچنین، برخی از عصارههای جلبکی، بهویژه عصارههای استخراج شده با حلالهای آلی، قویترین اثرات ضدتوموری را داشتند. متانول و اتانول رایجترین حلالهای مورد استفاده برای استخراج ترکیبات آنتیاکسیدانی از جلبکهای خلیجفارس بودند. علاوه بر این، سایر حلالهای آلی مانند ان- هگزان، اتیل استات و دیکلرومتان، بهطور کلی در فعالیت ضدتوموری عملکرد بهتری نسبت به حلالهای آبی داشتند.
نتیجهگیری: جلبکهای خلیجفارس بهعنوان منبع غنی از ترکیبات زیستفعال، پتانسیل بالایی درمان سرطان و کاهش استرس اکسیداتیو دارند. با اینحال، تحقیقات بیشتری برای بهرهبرداری بهینه از این منابع ضروری در پزشکی و توسعه دارو مورد نیاز است.
نوع مطالعه: مروری |
موضوع مقاله:
بیوتکنولوژی دریا
دریافت: 1403/10/18 | پذیرش: 1403/11/30 | انتشار: 1403/12/20
دریافت: 1403/10/18 | پذیرش: 1403/11/30 | انتشار: 1403/12/20
فهرست منابع
1. Sen S, Chakraborty R, Sridhar C, et al. Free radicals, antioxidants, Diseases and phytomedicines: Current status and Future prospect. Intl J Pharm Sci Rev Res 2010; 3(1): 91-100. [Article]
2. Valko M, Izakovic M, Mazur M, et al. Role of oxygen radicals in DNA damage and cancer incidence. Mol Cell Biochem 2004; 266(1-2): 37-56 [DOI]
3. Valko M, Leibfritz D, Moncol J, et al. Free radicals and antioxidants in normal physiological functions and hu man disease. Int J Biochem Cell Biol 2007; 39(1): 44-84. [DOI]
4. Pham-Huy LA, He H, Pham -Huy C. Free radicals, antioxidants in disease and health. Int J Biomed Sci 2008; 4(2): 89-96. [Article]
5. Mat És JM, P érez - G ómez C, De Castro IN. Antioxidant enzymes and human diseases. Clin Biochem 1999; 32(8): 595-603. [DOI]
6. Noda N, Wakasugi H. Cancer and oxidative stress. Japan Med Assoc J: JMAJ 2001; 44(12): 535-9. [Article]
7. Lee SK, Mbwambo ZH, Chung H, et al. Evaluation of the antioxidant potential of natural products. Comb Chem High Throughput Screen 1998; 1(1) :35-46. [Article]
8. Balakrishnan D, Kandasamy D, Nithyanand P. A review on antioxidant activity of marine organisms. Int J Chem Tech Res 2014; 6(7): 3431-6. [Article]
9. Fahmy NM, El-Din MIG, Salem MM, et al. Enhanced expression of p53 and suppression of PI3K/Akt/mTOR by three red sea algal extracts: insights on their composition by LC-MS-based metabolic profiling and molecular networking. Mar Drugs 2023; 21(7): 404. [DOI]
10. Kandale A, Meena A, Rao M, et al. Marine algae: an introduction, food value and medicinal uses. J Pharm Res 2011; 4(1): 219-21. [Article]
11. Balboa EM, Conde E, Moure A, et al. In vitro antioxidant properties of crude extracts and compounds from brown algae. Food chem 2013; 138(2-3): 1764-85. [DOI]
12. Schwimmer D, Schwimmer M. Algae and medicine. In: Jackson, D.F. (eds) Algae and Man, Louisville, Kentucky: Springer, 1964, 368-412. [Article]
13. Korzeniowska K, G órka B, Lipok J, et al. Algae and their extracts in medical treatment. Algae Biomass: Characteristics and Applications.Towards Algae -based Products 2018; 8: 73-87. [DOI]
14. Sohrabipour J, Rabiei R. The checklist of green algae of the Iranian coastal lines of the Persian Gulf and Gulf of Oman. Iran J Bot 2007; 13(2): 146-9. [Article]
15. J, Rabii R. A list of marine algae of seashores of Persian Gulf and Oman Sea in the Hormozgan Province. Iran Jo Bot 1999; 8(1): 131-62. [Article]
16. Namvar F, Baharara J, Mahdi A. Antioxidant and anticancer activities of selected Persian Gulf al-gae. Indian J Clin Biochem 2014; 29(1): 13-20. [DOI]
17. Ghannadi A, Shabani L, Yegdaneh A. Cytotoxic, an-tioxidant and phytochemical analysis of Gracilaria species from Persian Gulf. Adv Biomed Res 2016; 5(1): 139. [DOI]
18. Niknejad F, Kordjazi M, Asadi Farsani O, et al. Cyto-toxic effects of the fucoidan extracted from Per-sian Gulf brown algae Sargassum ilicifolium in-ducing apoptosis in breast cancer cell line. Jour-nal of Fisheries 2022; 75(1):63-73. (Persian) [DOI]
19. Farasat M, Khavari-Nejad RA, Nabavi SMB, et al. Antioxidant activity, total phenolics and flavonoid contents of some edible green seaweeds from northern coasts of the Persian Gulf. Iran J pharm res: IJPR 2014; 13(1): 163-70. [Article]
20. Saeidnia S, Permeh P, Nasiri M, et al. Biological activity of two red algae, Gracilaria salicornia and Hypnea flagelliformis from Persian Gulf. Pharma-cognosy Res 2009; 1(6): 428-30. [Article]
21. Niamaimandi N, Bahmyari Z, Sheykhsagha N, et al. Species diversity and biomass of macroalgae in different seasons in the northern part of the Per-sian Gulf. Region Stud Marine Sci 2017; 15: 26-30. [DOI]
22. Akhani H, Deil U. First Observations On The Flora And Vegetation Of Three Islands In The NW Per-sian Gulf (Iran). Phyton 2012; 52: 73-99. [Article]
23. Mousavi SE, Hatamipour MS, Yegdaneh A. Ultra-sound-assisted extraction of alginic acid from Sargassum angustifolium harvested from Persian Gulf shores using response surface methodology. Int J Biol Macromol 2023; 226: 660-9. [DOI]
24. Khanavi M, Gheidarloo R, Sadati N, et al. Cytotoxi-city of fucosterol containing fraction of marine al-gae against breast and colon carcinoma cell line. Pharmacogn Mag 2012; 8(29): 60-4. [DOI]
25. Vahdati SN, Lashkari A, Navasatli SA, et al. Bu-tylated hydroxyl-toluene, 2,4-Di-tert-butylphenol, and phytol of Chlorella sp. protect the PC12 cell line against H2O2-induced neurotoxicity. Biomed Pharmacother 2022; 145: 112415. [DOI]
26. Pirian K, Moein S, Sohrabipour J, et al. Antidiabetic and antioxidant activities of brown and red macroalgae from the Persian Gulf. J Apply Phycol 2017; 29. [DOI]
27. Hosseinzadeh S, Afsharmanesh Sh, Hosseini A. The Comparison of Antioxidant Power of Two Ma-rine Algae Species with the Skin of Oak Fruit (Querqus brantii). World J Fish , Marine Sci 2015; 7(4): 237-42. [DOI]
28. Moein S, Moein M, Ebrahimi N, et al. Extraction and determination of protein content and antioxi-dant properties of ten algae from Persian Gulf. Int J Aquatic Sci 2015; 6(2): 29-38. [Article]
29. Ebrahimi S, Babaei S, Naseri M, et al. Polyphenols content, antioxidant and antibacterial activities of seaweeds from the Persian gulf. Environment Engin , Manage J (EEMJ) 2021; 20(7): 1203-11. [DOI]
30. Safari P, Rezaei M, Shaviklo AR. The optimum conditions for the extraction of antioxidant com-pounds from the Persian gulf green algae (Chae-tomorpha sp.) using response surface methodolo-gy. J Food Sci Technol 2014; 52(5): 2974-81. [DOI]
31. Safari P, Rezaei M, Shaviklo AR, et al. In vitro antioxidative activity and total phenolic content determination of two Persian Gulf seaweed species Chaetomorpha sp and Colpomenia sinuosa. J Marine Sci Technol 2015; 14(1): 64-77. (Persian) [DOI]
32. Safari P, Rezaei M, Shaviklo A, et al. Optimization of microwave and ultrasound -assisted extraction of antioxidant extract from Green marine algae (Chaetomopha sp) using response surface methodology (RSM). J Fisheries 2015; 68(4): 555-75. (Persian) [Article]
33. Naghdi S, Babakhani A. Ultrasound assisted extraction of antioxidant compounds from four Persian Gulf seaweed. Aquaculture Sciences 2019; 6(2): 29-38. (Persian) [Article]
34. Taheri A, Ghaffari M, Houshmandi S, et al. Investigation of the anticancer and antioxidant activity of the brown algae (Cystoseira indcancer cells. Feyz Med Sci J 2017; 21(4): 317-25. [Article]
35. Sadati N, Khanavi M, Mahrokh A, et al. Comparison of antioxidant activity and total phenolic contents of some Persian Gulf marine algae. J Med Plants 2011; 10(37): 73-9. [Article]
36. Kokabi M, Yousefzadi M, Feghhi MA, et al. Antioxidant activity of extracts of selected algae from the Persian Gulf, Iran. J Persian Gulf 2013; 4(12): 45-50. [Article]
37. Jassbi AR, Mohabati M, Eslami S, et al. Biological activity and chemical constituents of red and brown agae from the Persian Gulf. Iran J Pharm Res: IJPR 2013; 12(3): 339. [Article]
38. Heidari M, Zolgharnine H, Sakhaei N, et al. Comparisons of anti-radical and antibacterial potential among macro algae from northern coasts of the Persian Gulf. Iran J Fish Sci: IJFS 2015; 24(2): 53-63. (Persian) [Article]
39. Taheri A, Ghaffari M, Attaran Fariman G. Study the Antioxiative Properties of the Marine Algae Cystoseira trinodis extracts from Chabahar Coastal Water. J Shahid Sadoughi Univ Med Sci: JSSUMS 2017; 25(8): 658-69. (Persian) [Article]
40. Heidari M, Zolgharnine H. Antioxidant capacity and phenolic and flavonoid content of macro algae in the northern coasts of the Persian Gulf in Bushehr province. J Mar Sci Technol 2015; 14(1): 45-54. (Persian) [DOI]
41. Karkhaneh Yousefi M, Seyed Hashtroudi M, Mashinchian Moradi A, et al. Seasonal variation of fucoxanthin content in four species of brown seaweeds from Qeshm Island, Persian Gulf and evaluation of their antibacterial and antioxidant activities. Iran J Fish Sci 2020; 19(5): 2394-408. [Article]
42. Arman M, Pirian K, Khosheghbal F, et al. Evaluation of the content and bioactivity of four macroalgae species from the Persian Gulf. Feyz Med Sci J 2020; 24(5): 525-35. [Article]
43. Akbari V, Abedi M, Yegdaneh A. Bioassay -guided isolation of glycolipidscorticata. Res Pharm Sci 2020; 15(5): 473-80. [DOI]
44. Heydari M, Zolgharnein H, Sakhaei N, et al. Antibacterial and antioxidant activities of hydro-alcoholic extracts of some marine algal species from Persian Gulf coastal waters in Booshehr province. Aquatic Physiology and Biotechnology 2013; 1(1): 49-62. (Persian) [Article]
45. Khezri M, Rezaei M, Rabiey S, et al. Antioxidant and antibacterial activity of three algae from Persian gulf and Caspian sea. Ecopersia 2016; 4(2): 1425-35. [Article]
46. Zandi K, Tajbakhsh S, Nabipour I, et al. In vitro an-titumor activity of Gracilaria corticata (a red alga) against Jurkat and molt-4 human cancer cell lines. Afr J Biotechnol 2010; 9(40): 6787-90. [Article]
47. Ebrahimzadeh MA, Khalili M, Dehpour AA. Antioxi-dant activity of ethyl acetate and methanolic ex-tracts of two marine algae, Nannochloropsis ocu-lata and Gracilaria gracilis-an in vitro assay. Bra-zilian Journal of Pharmaceutical Sciences 2018; 54(01): e17280. [Article]
48. Zarei Jeliani Z, Yusef Zadi M, Sohrabipour J, et al. Antioxidant and antibacterial assay of two red ma-rine macro-alga of Bandar Abbas coastal. J Ma-rine Sci Technol 2018; 17(2): 58-69. (Persian) [DOI]
49. Garmsiri E RM, Safari P, Babakhani A. Determina-tion of Antioxidant activities of two red algae (Hypnea hamulosa and Gracilaria corticata) from Persian Gulf. J Fisheries Sci Technol: JFST 2017; 6(3): 131-45. (Persian) [Article]
50. Fu P, Akhoundian M. Evaluation of in vitro Antioxi-dant Activities and Antibacterial Potentials of Two Brown Algae Extracts; Lyengaria stellata and Padina boergesenii Inhabiting the Persian Gulf, Iran. Plant, Algae, and Environment 2022; 6(1): 776-94. [Article]
51. Jami F, Taheri A. Antioxidant properties of Sargassum tenerrimum brown algae and Valoniopsis pachynema green algae from Chabahar coasts. J Utiliz Cultivat Aquatics 2023; 12(1): 128-41. (Persian) [Article]
52. Permeh P, Gohari A, Saeidnia S, et al. Alpha amylase inhibitory and Antioxidant activity of Padina boergesenii (Allander and Kraft) from Persian Gulf. Planta Med 2013; 79(13): PA31. [Article]
53. Shirani Bidabadi K, Safaeian S, Mousavi Nadushan R, et al. Identification of Bioactive Compounds in the Extracts of Brown Algae Sargassum (Sargas-sum angustifulium) and Padina) Padina distro-matic (and Evaluation of Antimicrobial, Antioxidant and Enzymatic Properties. Iran Food Sci Technol Res J 2023; 19(2): 259-77. (Persian) [DOI]
54. Shirani bidabadi K, Safaeian S, Mousavi Nadushan R, et al. Evaluation of different extraction methods (maceration and ultrasound) on antioxidant, anti-Alzheimer's and antimicrobial properties of Padina distromatic extract. Mdrsjrns 2022; 19(122): 199-209. (Persian) [Article]
55. Vardizadeh F, Babaei S, Naseri M, et al. Characterization of fucoidan extracted from brown macroal-gae Padina sp. and Sargassum sp. Fisheries Sci Technol 2020; 9(4): 271-84. (Persian) [Article]
56. Babaei Mahani Nejad S, yousefzadi M, Soleimani S. Phlorotannins extracted from macroalgae as a new antioxidant source. Aquatic Physiology and Biotechnology 2020; 8(1): 69-94. [Article]
57. Pirian K, Piri K, Moien S, et al. Evaluation of antioxidant and a-amylase inhibitory activity of two species Sargassum angostifolium and Palisada perforata. Cellular and Molecular Research (Iran J Biol) 2018; 31(2): 158-71. [Article]
58. Abolhasani MH, Safavi M, Goodarzi MT, et al. Identification and anti-cancer activity in 2D and 3D cell culture evaluation of an Iranian isolated marine microalgae Picochlorum sp. RCC486. Daru 2018; 26(2): 105-16. [DOI]
59. Etemadian Y, Shabanpour B, Ramzanpour Z, et al. Nutritional and functional properties of two dried brown seaweeds Sirophysalis trinodis and Polycladia myrica. J Aquatic Food Product Technol 2018; 27(2): 219-35. [DOI]
60. Khanavi M, Nabavi M, Sadati N, et al. Cytotoxic activity of some marine brown algae against cancer cell lines. Biol Res 2010; 43(1): 31-7. [Article]
61. Vaseghi G, Sharifi M, Dana N, et al. Cytotoxicity of Sargassum angustifolium partitions against breast and cervical cancer cell lines. Adv Biomed Res 2018; 7(1): 43. [DOI]
62. Hodhodi A, Babakhani A, Rostamzad H. Extraction of brown alga Sargassum angustifolium and evaluation of its phlorotannin compounds and antioxidant properties. Fisheries Sci Technol 2020; 9(3): 156-69. (Persian) [Article]
63. Hodhodi A, Babakhani A, Rostamzad H. Effect of different extraction conditions on phlorotannin content and antioxidant activity of extract from brown algae (Sargassum angustifolium). J Food Process Preserv 2022; 46(3): e16307. [DOI]
64. Rastian Z, Mehranian M, Vahabzadeh F, et al. Antioxidant activity of extract from a brown alga, Sargassum boveanum. Afr J Biotechnol 2007; 6(24). [Article]
65. Savaghebi D, Barzegar M, Mozafari MR. Manufacturing of nanoliposomal extract from Sargassum boveanum algae and investigating its release behavior and antioxidant activity. Food sci Nut 2020; 8(1): 299-310. [DOI]
66. Taheri A, Ghaffari M, Bavi Z, et al. Cytotoxic effect of the extract of seaweed Sargassum glaucescens against breast (MCF -7) and colorectal (HT -29) cancer cell lines. Feyz Med Sci J 2018; 22(3): 292-301. [Article]
67. Zandi K, Ahmadzadeh S, Tajbakhsh S, et al. Anticancer activity of Sargassum oligocystum water extract against human cancer cell lines. Eur Rev Med Pharmacol Sci 2010; 14(8): 669-73. [Article]
68. Noshadi A, Khaledi H, Khodadadi A, et al. The effect of Sargassum tenerrimum seaweed extracts on WT1 gene expression in K562 leukemia cancer cell line. J Oceanography 2023; 14(54): 112-21. (Persian) [Article]
69. Movahedinia A, Heydari M, editors. Antioxidant Activity and Total Phenolic Content in Two Alga Species from the Persian Gulf in Bushehr Province; Iran. Int J Sci Res 2014; 3(5): 954-8. [Article]
70. Ahadifar M, Ojagh SM, Hoseinifar H, et al. Evaluation of antioxidant properties of aqueous extract of brown Sargassum vulgare macroalgae collected from qeshm coast. J Utiliz Cultivat Aquatics 2021; 10(3): 49-63. (Persian) [Article]
71. Rastian Z, Mehranian M, Vahabzadeh F, et al. Antioxidant activity of brown algae Sargassum vulgar and Sargassum angustrifolum. J Aquatic Food Product Technol 2007; 16(2): 17-26. [DOI]
72. Mazraavi F, Moradi F, Aghamaali MR. Evaluation of anti -cancer effect of biosynthetic silver nanoparticles by Spirogyra sp. green algae extract on MDA -MB -231 breast cancer cell line. Aquatic Physiology and Biotechnology 2023; 11(3): 69-91. (Persian) [Article]
73. Esmaeili A, Khakpoor M. Biological activities and chemical composition of solvent extracts of Stoechospermum marginatum (C. Agardh). Acta Biochimica Polonica 2012; 59(4): 581-5. [DOI]
74. Akbary P, Ajdari A, Dutta S. Dietary effect of Artemia urmiana enriched with a brown macroalgae premix (Padina australis, Sargassum ilicifolium, and Stoechospermum marginatum) on the growth performance, nutritional value, phytochemical, and antioxidant properties of Litopenaeus vannamei. Iran J Fish Sci 2024; 23(1): 109-32. [Article]
75. Pirian K, Piri K, Sohrabipour J, et al. Evaluation of chemical components and physicochemical properties of two green macroalgae species Ulva intestinalis and Ulva linza from Persian Gulf. Iranian J Med Aromatic Plants Res 2017; 33(1): 62-72. [DOI]
76. Gharekhan Taghar Tapeh R, Kordjazi M, Ahmad Nasrollahi S, et al. Investigation of antioxidant properties and antibacterial activity of alginate and fucoidan extracted from Sargassum boveanum algae collected from the Persian Gulf coast. Aquaculture Sciences. 2020; 7(2): 64-76. (Persian) [Article]
77. Pereira AG, Otero P, Echave J, et al. Xanthophylls from the Sea: Algae as Source of Bioactive Carotenoids. Mar Drugs 2021; 19(4): 188. [Article]
78. Garmsiri E. Antioxidant Activity and Total Phenolic Contents of Persian Gulf Red Algae,(Hypnea hamulosa). J Utilization and Cultivation of Aquatics 2013; 2(3): 37-48. (Persian) [Article]
79. Mohammadi E, Shabanpour B, Kordjazi M. Evaluation of antioxidant and antibacterial activity of brown seaweed Iyengaria stellata collected from Persian Gulf. Aquatic Physiol Biotechnol 2016; 4(3): 43-57. [Article]
80. Babakhani Lashkan A. Optimization of antioxidant compounds extraction from brown algae Sargassum angustifolium in heating reflux methods using Taguchi design. J Utiliz Cultivat Aquatics 2016; 5(3): 1-13. (Persian) [Article]
81. Veeragurunathan V, Vijay Anand KG, Grace PG, et al. Marine macro algal products 2022; 126-47. [Article]
82. Taheri A, Moradi S. Antioxidative properties of Colpomenia sinuosa Organic extract. J Mazandaran Univ Med Sci 2018; 28(160): 151-5. (Persian) [Article]
83. Khosravani AR, Akbarzadeh S, Movahed A, et al. The Anticancer Effects of Sargassum Boveanum Hydroalcoholic Extract in Human Colorectal Cancer Cell Lines. Iran S Med J 2022; 25(3): 198-209. (Persian) [Article]
84. Heidari M, Movahedinia a, Hosseini S. Assessment of antiradical and antioxidant potentials in two red and brown algae from Persian Gulf in Booshehr province in comparison with leaf of mangrove (Avicennia marina). J Environmental Sci Technol 2017; 5(19): 179-89. (Persian) [Article]
85. Pirian K, Jeliani ZZ, Sohrabipour J, et al. Nutritional and Bioactivity Evaluation of common seaweed species from the Persian Gulf. Iran J Sci Technol, Transac A: Sci 2018; 42: 1795-804. [DOI]
86. Kokilam G, Vasuki S, Sajitha N. Biochemical composition, alginic acid yield and antioxidant activity of brown seaweeds from Mandapam region, Gulf of Mannar. J apply pharma Sci 2013; 3(11): 099-104. [Article]
87. Vaseghi G, Zakeri N, Mazloumfard F, et al. Evaluation of the Anti -tuberculosis and Cytotoxic Potential of the Seaweed Padina australis: Antituberculosis and cytotoxic potential of the seaweed Padina australis. Iran J Pharm Sci 2019; 15(1): 29-38. [DOI]
88. Sajjadi SE, Ghobeishavi S, Yegdaneh A. Cytotoxic Sulfoquinovosyl Glycerols from the Seaweed Sargassum Angustifolium from Persian Gulf. Adv Biomed Res 2024; 13(1): 22. [DOI]
89. Do QD, Angkawijaya AE, Tran -Nguyen PL, et al. Effect of extraction solvent on total phenol content, total flavonoid content, and antioxidant activity of Limnophila aromatica. J Food and Drug Analysis 2014; 22(3): 296-302. [DOI]
90. Heffernan N, Smyth TJ, FitzGerald RJ, et al. Antioxidant activity and phenolic content of pressurised liquid and solid–liquid extracts from four Irish origin macroalgae. Int J Food Sci Technol 2014; 49(7): 1765-72. [DOI]
91. Monteiro M, Santos RA, Iglesias P, et al. Effect of extraction method and solvent system on the phenolic content and antioxidant activity of selected macro- and microalgae extracts. J Appl Phycol 2020; 32(1): 349-62. [DOI]
92. Mashjoor S, Yousefzadi M, Esmaeili MA, et al. Cytotoxicity and antimicrobial activity of marine macro algae (Dictyotaceae and Ulvaceae) from the Persian Gulf. Cytotechnology 2016; 68(5): 1717-26. [Article]
93. Schwimmer D, Schwimmer M. Algae and medicine. In: Jackson, D.F. editors. Algae and Man. Louisville, Kentucky: Springer; 1964, 368-41. [Article]
94. Sadeghi A, Rajabiyan A, Meygoli Nezhad N, et al. A review on Persian Gulf brown algae as potential source for anticancer drugs. Algal Res 2024; 79: 103446. [DOI]
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