Identifikasi Senyawa Aktif Ekstrak Daun Pulutan (Urena lobata L) dengan GC-MS
Identification of Active Compound in Pulutan (Urena lobata L) Leaf extract using GC-MS
Keywords:
Daun Pulutan (Urena lobata L), GC-MS, Senyawa AktifAbstract
References
Biofarmaka Research Center IPB. 2015. Herbal plants collection of biopharmaca conservation and cultivation station. [diunduh 2018 Des 12]. Tersedia pada : http://biofarmaka.ipb.ac.id/biofarmaka/2015/BCCS%20Herbal%20Plants%20Collections%20Temulawak.pdf.
Ali MS, Kazi OF, Aziz ARM, Hossain MA. 2013. Antioxidant and cytotoxic activities of methanol extract of Urena lobata(L) leaves. The Pharma Innovation –Journal. 2:9-14.
Shruti M, Srinivas B, Alfiha M. 2016. Exploring the pharmacognostic characteristics and antimicrobial potential of Urena lobata Linn. International Research Journal of Pharmacy. 7 (11) : 31-37. doi: 10.7897/2230-8407.0711124.
Gao XL, Ying L, Jie W, Xiao-Yan L, Kai Z, Yi-Na H, Hong G, Bo G, Zheng-Jun X. 2015. Discovery of a potent anti-yeast triterpenoid saponin, clematoside-s from Urena lobata L. International Journal of Molecular Sciences. 16 : 4731-4743. doi:10.3390/ijms16034731
Fagbohun ED, Asare RR, Egbebi AO. 2012. Chemical composition and antimicrobial activities of Urena lobataL.(Malvaceae). Journal of Medicinal Plants Research. pp. 2256-2260. doi: 10.5897/JMPR10.233.
Pieme CA, Ngoganga J, Marietta C. 2012. In vitro anti proliferative and anti-oxidant activities of methanol extracts of Urena lobata and Viscum album against breast cancer cell lines. Toxicological and Environmental Chemistry. doi: 10.1080/02772248.2012.674135.
Su C, Bowen Q, Juan W, Ning D, Yun W, Xiao-Ping S, Zhi-Xiang Z, Xiao L, Xiao-Hui W, Jiao Z, Peng-Fei T, She-Po S. 2018. Megastigmane glycosides from Urena lobata. Fitoterapia. 127:123-128. Doi :10.1016/j.fitote.2018.02.017.
Sharifi N, Shabnam M, Massoud A. 2017. Comparison of different methods in quercetin extraction from leaves of Rapharus sativus L. Pharmaceutical Sciences59-65 doi:10.15171/PS.2017.09.
Ardiyanti A, Kusnadi J. 2014. Ekstraksi antibakteri dari daun berenuk (Crescentia cujete Linn.) menggunakan metode ultrasonic. Jurnal Pangan dan Agroindustri. p.28-35.
Novitasari MR, Lizma F, Risna A, Agung R, Rolan R. 2016. Analisis GC-MS Senyawa Aktif Antioksidan Fraksi Etil Asetat Daun Libo (Ficus variegata Blume.). Jurnal Sains dan Kesehatan. Vol 1. No 5.p-ISSN: 2303-0267.
[BTBRD] Balai Teknologi Bahan Bakar dan Rekayasa Disain. GC MS [Internet]. [diunduh tanggal 16 Mei 2019]. Tersedia pada : https://btbrd.bppt.go.id/index.php/gcms
Tiwari P, Bimlesh K, Mandeep K, Gurpreet K, Harleen K. 2011. Phytochemical screening and Extraction: A Review. Internationale Pharmaceutica Sciencia. Vol 1. Issue 1.
Ghaidaa JM, Mohammad JA, Imad HH. 2016. Anti-bacterial, Antifungal Activity and Chemical Analysis of Punica grantanum (Pomegranate peel) Using GC-MS and FTIR Spectroscopy. International Journal of Pharmacognosy and Phytochemical Research. 8(3); 480-494. ISSN: 0975-4873.
Sogandi G, Darma WST, Jannah R. 2019.Potential of Antibacterial Compounds from Sweet Root Extract (Glycyrrhiza glabra L) on Bacillus cereus. Jurnal Kimia Sains Dan Aplikasi, 22(4), 105.doi:10.14710/jksa.22.4.105-111.
Conforti F, Statti GA,Menichini F. 2007. Chemical and biological variability of hot pepper fruits (Capsicum annuum var. acuminatum L.) in relation to maturity stage. Food Chem. 102:1096–1104
Ban JO, Hwang IG, Kim TM, Hwang BY, Lee US, Jeong HS, Yoon YW, Kim DJ, Ban JTHJ. 2007. Anti-proliferate and pro-apoptotic effects 0f 2,3-dihydro-3,5-dihydroxy-6-methyl-4H-pryranone through inaction of NF-kB in Human Colon Cancer Cells. Arch Pharm ResVol. 30 No. 11:1455-1463. doi:10.1007/BF02977371.
Jeong JB, Se CH, Hyung JJ, Jin SK. 2011. Anti-inflammatory Effect of 2-Methoxy-4-Vinylphenol via the Suppression of NF-κB and MAPK Activation, and Acetylation of Histone H3. Arch Pharm ResVol 34, No 12, 2109-2116. doi 10.1007/s12272-011-1214-9.
Yang JF, Yang CH, Liang MT, Gao ZJ, Wu YW, Chuang LY. 2016. Chemical Composition, Antioxidant, and Antibacterial Activity of Wood Vinegar from Litchi chinensis Molecules 21, 1150; doi:10.3390/molecules21091150