Phytochemical and Antioxidant Activity of Akway (Drymis piperita Hook f.) Stem Bark Ethanol Extract
DOI:
https://doi.org/10.26877/asset.v6i3.598Keywords:
Akway bark, bioactive extraction, antioxidant activity, bioactive compoundAbstract
The amount of solvent affects the effectiveness of the extraction, so the chemical components are extracted entirely from the plant. This study investigated the best ratio of Akway bark : solvent (ethanol) to produce Akway extract with the highest antioxidant activity. Extraction with the treatment of Akway skin: ethanol ratio of 1:2; 1:4; 1:6 (b/v) was carried out and then the results were tested for total phenolic and flavonoid content and antioxidant activity. The best Akway bark:ethanol ratio was obtained at 1:4 (b/v) ratio with 9.54% extract yield, 289.57 mg GAE/g total phenolic content, 185.47 mg eq quercetin/g total flavonoids. Akway bark extract has potential as a source of antioxidants as indicated by its high antioxidant activity with DPPH free radical scavenging and ferric reducing activity of 50% (IC50) at extract concentrations of 16.59 µg/mL extract and 60.93 µg/mL extract, and carotene bleaching inhibition activity of 85.76%. There are 4 types of phenolic compounds and 4 types of flavonoid compounds identified with the highest percentage of components, namely Pereniporin B (57%).
References
G. N. Cepeda, M. M. Lisangan, and I. Silamba, “Aktivitas Antibakteri Ekstrak Kulit Kayu Akway (Drimys piperita Hook f.) Terhadap Bakteri Patogen", J. Agritech, vol. 35, no. 02, pp. 170–177, 2015.
J. Hutapea, F., “Tumbuhan Obat Endemik Asal Papua,” FORPRO, vol. 3, no. 1, pp. 14–19, 2014.
G. N. Cepeda, M. M. Lisangan, I. Silamba, N. Nilawati, and E. Syartika, “Aktivitas Antibakteri Ekstrak Etilasetat Kulit Kayu Akway (Drimys piperita Hook f.) pada Bakso Daging Sapi Selama Penyimpanan,” J. Apl. Teknol. Pangan, vol. 9, no. 2, pp. 50–56, 2020.
M. Syakir, N. Bermawie, H. Agusta, and N. Paisey, E., “Karakterisasi Sifat Morfologi dan Penyebaran Kayu Akway (Drymis sp.) di Papua Barat,” J. Penelit. Tanam. Ind., vol. 17, no. 4, pp. 169–173, 2020.
E. K. Paisey, “Kajian Kimia Kayu Akway (Drymis sp.) sebagai afrodiak endemik Papua,” Agrotek, vol. 1, no. 6, pp. 16–22, 2009.
N. Cepeda, G., B. Santoso, M. Lisangan, M., and I. Silamba, “Komposisi Kimia Minyak Atsiri Kulit Kayu Akway (Drymis piperita hook F.),” Bionatura - J. Ilmu-ilmu Hayati dan Fis., vol. 13, no. 2, pp. 118–124, 2011.
G. N. Cepeda, M. M. Lisangan, and I. Silamba, “Aktivitas Antibakteri Minyak Atsiri Kulit Kayu Akway (Drimys piperita Hook. f.) pada Beberapa Tingkat Konsentrasi, Keasaman (pH) dan Kandungan Garam,” J. Apl. Teknol. Pangan, vol. 8, no. 4, p. 149, 2019.
Imran, L. Agusu, L. O. Kadidae, Y. Arisanti, and L. A. Kadir, “Development of Microwave Maceration Method for the Extraction of Organic Constituents of Buton Bajakah ( Kakatola ) Root and Test of its Activity as an Antioxidant,” Adv. Sustain. Sci. Eng. Technol., vol. 6, no. 1, pp. 0240102201–02401022010, 2024.
A. Noviyanty, C. A. Salingkat, and Syamsiar, “Pengaruh Rasio Pelarut Terhadap Ekstraksi Dari Kulit Buah Naga Merah (Hylocereus polyrhizus),” KOVALEN, vol. 5, no. 3, pp. 280–289, 2019.
E. Indrasari and Buanasari, “The Effect of Solvent Ratio and Extraction Time on Antioxidant Activity and Flavonoid Concentration of Kedawung Leaf (Parkia Biglobosa) Through Microwave Assisted Extraction,” J. Bahan Alam Terbarukan, vol. 11, no. 1, pp. 17–22, 2022.
N. C. Predescu et al., “The Influence of Solid-to-Solvent Ratio and Extraction Method on Total Phenolic Content , Flavonoid Content and Antioxidant Properties of Some Ethanolic Plant Extracts,” Rev. Chim., vol. 67, no. 10, pp. 1922–1927, 2016.
Y. Hung, C. and C. Yen, G., “Antioxidant of phenolic compounds isolated from Mesona procumbens hemsil,” J. Agric. Food Chem., vol. 50, pp. 2993–2997, 2002.
M. K. Roy, L. R. Juneja, S. Isobe, and T. Tsushida, “Steam processed broccoli ( Brassica oleracea) has higher antioxidant activity in chemical and cellular assay systems,” Food Chem., vol. 114, pp. 263–269, 2009.
A. Lfitat et al., “Comparative assessment of total phenolics content and in vitro antioxidant capacity variations of macerated leaf extracts of Olea europaea L. And Argania spinosa (L.) Skeels,” Mater. Today Proc., vol. 45, pp. 7271–7277, 2021.
U. P. Nyayiru Kannaia et al., “Phytochemical composition and antioxidant activity of coconut cotyledon,” Heliyon, vol. 6, no. 2, p. 03411, 2020.
S. P. Patil, “Proton NMR and HR-LC/MS based phytochemical analysis of methanolic fraction of Alectra parasitica A. Rich. rhizomes,” Heliyon, vol. 6, no. 1, p. e03171, 2020.
A. Kumoro, A., S. Retnowati, D., and S. Budiyati, C., “Effect of Time and Solvent/Feed Ratio on the Extraction of Mannan from Aloe Vera Leaf Pulp,” Int. Rev. Chem. Eng., vol. 3, no. 1, pp. 55–60, 2011.
A. Ullah et al., “Important Flavonoids and Their Role as a Therapeutic Agent,” molecules, vol. 25, pp. 1–39, 2020.
Y. Matsumura et al., “Dietary Phenolic Compounds : Their Health Benefits and Association with the Gut Microbiota,” Antioxidants, vol. 12, no. 880, pp. 1–41, 2023.
G. N. Cepeda et al., “Aktivitas Penangkalan Radikal Bebas dan Kemampuan Reduksi Ekstrak Kulit Kayu Akway (Drimys piperita Hook. f.),” J. Apl. Teknol. Pangan, vol. 7, no. 4, pp. 168–173, 2019.
D. R. Sari, S. B. Husodo, and Mutakim, “Fitokimia dan Bioaktifitas Tumbuhan Akway dari Distrik Anggi Kaupaten Pegunungan Arfak,” Kehutan. Papuasia, vol. 8, no. 1, pp. 102–113, 2022.
P. Montoro et al., “Stability and antioxidant activity of polyphenols in extracts of Myrtus communis L . berries used for the preparation of myrtle liqueur,” J. Pharm. Biomed. Anal., vol. 41, pp. 1614–1619, 2006.
F. Nurdyansyah and D. A. Widyastuti, “Comparison of Antioxidant Activity of Ethanolic, Methanolic, n-Hexan, and Aqueous Extract of Parkia speciosa Peel based on Half -Maximal Inhibitory Concentration Through Free Radical Inhibition,” Adv. Sustain. Sci. Eng. Technol., vol. 2, no. 2, pp. 1–7, 2020,.
D. K. Membri, A. Yudistira, and S. S. Abdullah, “Uji Aktivitas Antioksidan Ekstrak Etanol Sons Liosina padaroxa yang Dikoleksi dari Pulau Mantehage,” PHARMACON, vol. 10, no. 2, pp. 774–779, 2021.
D. M. Kasote et al., “Significance of Antioxidant Potential of Plants and its Relevance to Therapeutic Applications,” Int. J. Biol. Sci., vol. 11, no. 8, pp. 982–991, 2015.
D. L. Madhavi, S. S. Deshpande, and D. K. Salunke, Food Antioxidants : Technological, Toxicology and Health Perspectives. Madison Avenue, New York: Marcel Dekker, Inc., 1996.
R. A. A. Lelono, S. Tachibana, and K. Itoh, “In vitro Antioxidative Activities and Polyphenol Content of Eugenia polyantha Wight Grown in Indonesia,” Pakistan J. Biol. Sci., vol. 12, no. 24, pp. 1564–1570, 2009.
M. A. O. Abdelfattah et al., “Antioxidant and anti-aging effects of Warburgia salutaris bark aqueous extract : Evidences from in silico , in vitro and in vivo studies,” J. Ethnopharmacol., vol. 292, p. 115187, 2022.
B. J. M. Jansen and A. De Groot, “Occurrence , biological activity and synthesis of drimane sesquiterpenoids,” Nat. Prod. Rep., vol. 21, no. 4, pp. 449–477, 2004.
A. Russo et al., “Chemico-Biological Interactions Antigrowth activity and induction of apoptosis in human melanoma cells by Drymis winteri forst extract and its active components,” Chem. Biol. Interact., vol. 305, pp. 79–85, 2019.