Repository Universitas Pakuan

Detail Karya Ilmiah Dosen

Siti Mahyuni, Tri Rahkma Sofihayati

Judul : Antibacterial Activities Test of Methanol, N-hexane Fraction, and N-hexane Extract from Filicium decipiens Leaf on Staphylococcus aureus and Bacillus subtilis

Abstrak :
The previous study shows ethanol extract of Filicium decipiens leaf possesses a strong antibacterial activity against Staphylococcus aureus, but there have been no studies of the antibacterial activity with different solvents. The purpose of this study was to determine the antibacterial activities of methanol, n-hexane fraction of methanol and n-hexane extract of F. decipiens leaves against S. aureus and Bacillus subtilis bacteria. Extraction was carried out by soxletation method using methanol and n-hexane solvent. The antibacterial activity test was done by measuring the minimum inhibitory concentration (MIC) and Zone of Inhibition. The results showed that methanol extract did not have activity either against S. aureus bacteria or against B. subtilis. N-hexane extract which was fractionated from methanol extract had no activity against B. subtilis but showed moderate activity against S. aureus with 9 mm inhibition diameter at an extract concentration of 40%. N-hexane extract has very strong antibacterial activity against S. aureus with inhibition diameter reaching 21 mm at extract concentration of 30% and showing strong activity against B. subtilis bacteria with inhibition diameter of 10 mm at extract concentration of 30%. It can be concluded that n-hexane extract from F. decipiens has a potent as natural antibiotic material. Keywords: Filicium decipiens; Staphylococcus aureus; Bacillus subtilis; n-hexane extract; methanol extract

Tahun : 2019 Media Publikasi : Jurnal Nasional Terakreditasi B

Kategori : Jurnal No/Vol/Tahun : 5 / 2 / 2020

ISSN/ISBN : 24425257

PTN/S : Universitas Pakuan Program Studi : FARMASI

Bibliography :

Mulholland EK, Adegbola. Bacterial infections - A major cause of death among children in Africa. The New England journal of medicine. 2005; 352 (1):75-7

Farjana A, Zerin N, Kabir Md. S. Antimicrobial activity of medicinal plant leaf extracts against pathogenic bacteria. Asian Pacific Journal of Tropical Disease. 2014; 4(2):, Suppl. 2. P. S920-3

Thiripurasundari N, Vinodhkumar T, Ramanathan G. Antimicrobial potential of medicinal plant extracts against human pathogens. Int. Res J Pharm. App Sci. 2013; 3(4):107-9

Mahyuni S, Sofihidayati S. Kadar saponin dan aktivitas antibakteri ekstrak daun Filicium decipiens (Wight&Arn.) Thwaites terhadap Staphylococcus aureus, Escherichia coli dan Candida albicans. Fitofarmaka Jurnal Ilmiah Farmasi. 2018; 8(2):20-7.

Bahri A. Isolasi dan karakterisasi senyawa metabolit sekunder dari fraksi aktif terhadap antioksidan ekstrak daun kerai payung (Filicium decipiens) (Tesis). Padang Sumatra Barat: Universitas Andalas; 2014

Porto TS, Rangel R, Furtado, de Carvalho TC, Martins CH, Veneziani RC, et al.   Pimarane-type diterpenes: antimicrobial activity against oral pathogens. Molecules. 2009; 14(1): 191-9.

7. Souza AB, Martins HGC, Souza GMM, Furtado AJCN, Furtado, Heleno CGV, et al. Antimicrobial activity of terpenoids from Copaifera langsdorffii Desf. against cariogenic bacteria    Phytother. Res. 2011; 25: 215-20

Anita, E. W. dan A.H. Ratna. 2012. Informasi Singkat Benih. No. 137. Balai Perbenihan Tanaman Holtikultura (BPTH) Sulawesi.

Widagdo, S. 2005. Tanaman elemen lanskap sebagai biofilter untuk mereduksi polusi timbal (Pb) di udara. Makalah Pribadi Falsafah Sains. Sekolah Pascasarjana S3 IPB. Bogor.

Duganath, N., K.N. Reddy, J. Nagasowjanya, S. Sridhar dan K.N. Jayaveera. 2010. Evaluation of phytochemical and in-vitro antioxidant activity of Filicium decipiens. Annals of Biological Research. 1 (1): 134-140.

Jawetz E, Melnick JL, Adelberg EA. 1996. Mikrobiologi Kedokteran. Ed ke-20.   Penerjemah: E. Nugroho dan R.F. Maulany. Buku Kedokteran EGC. Jakarta. Hal 46-50.

Ebrahim, G. J. 2010. Bacterial resistance to antimicrobials. J.Trop.Pediatr. 56:141-143.

Chen, L. F., T. Chopra dan K. Kaye. 2009. Pathogens resistant to antibacterial agents. Infect. Dis. Clin. N. Am. 23: 817-845.

Satish, S., M. P. Raghavendra and K. A. Raveesha. 2008. Evaluation of antibacterial potential of some plants agent human pathogenic bacteria. Advances in Biological Research. 2 (3- 4): 44-48.

Suryana, S., Y.A. Nuraeni dan T. Rostinawati. 2017. Aktivitas antibakteri ekstrak etanol dari lima tanaman terhadap bakteri Staphylococcus epidermidis dengan metode mikrodilusi. Indonesian Journal of Pharmaceutical Science and Technology. Vol. 4 (1).

Kim, N. dan O. Ocy. 1989. Zat-zat toksik yang secara alamiah ada pada tumbuhan nabati. Cermin Dunia Kedokteran. No.58.

Fiore, C., M. Eisenhut dan E. Ragazzi. 2005. A history of the therapeutic use of liquorice in Europe. J. Ethnopharmacol. 99:317–324.

Yoshiki, Y., K. Kudo dan K. Okobo. 1998. Relationship between chemical structure and biological activities of triterpenoid saponin from soybean (Review). Biosience Biotechnology and Biochemistry. 62: 2291-2292.

Sparg, S.G., M.E. Light dan J. Staden. 2004. Biological activities and distribution of plant saponins. J. Ethnopharmacol. 94:219–243.

Sahu, N.P., S. Banerjee, N.B. Mondal dan D. Mandal. 2008. Steroidal saponins. In:    Progress In The Chemistry of Organic Natural Products. Vol 89. Springer, Vienna. Hal 45–141.

Hu, K. dan X. Yao. 2002. The cytotoxicity of protoneodioscin (NSC-698789), a furostanol saponin from the rhizomes of Dioscorea colletti var. hypoglauca, against human cancer cells in vitro. Phytomedicine. 9:560–562.

Sun, Y., T.T. Cai dan X.B. Zhou. 2009. Saikosaponin a inhibits the proliferation and activation of T cells through cell cycle arrest and induction of apoptosis. Intl. Immunopharmacol. 9:978–983.

Harborne JB. 1984. Phytochemical Methods: A Guide to Modern Technique of Plant Analysis. 2nd edition. London (UK); Chapman and Hall: 1984.

Hudzicki J. Kirby-Bauer disk diffusion susceptibility test protocol. American Society for Microbiology. 2016; 1-23

Departemen Kesehatan Republik Indonesia. Parameter standar umum ekstrak tumbuhan obat. Cetakan pertama. 2000. Jakarta (Indonesia). Departemen Kesehatan Republik Indonesia Direktorat Jenderal Pengawasan Obat dan Makanan Direkstorat Pengawasan Obat Tradisional; 2000

Sasikala C, Yajaman Y. Effect of compounds isolated from Filicium decipiens and Ventilago madraspatana against diabetic nephropathy in streptozotocin induced diabetic rats. Indian Journal of Pharmaceutical Education and Research. 2015; 49(2): 147-51

Paramaguru R, Jagadeeshwar K, Mahendra CBK, Armstrong Vinod NAR. Evaluation of anti-inflammatory activity on the leaves of Filicium decipiens in experimental animal models J. Chem. Pharm. Res. 2011; 3(3): 243-7

Bari IN, Hisashi Kato-Noguchi H. Phytotoxic effect of Filicium decipiens leaf extract American-Eurasian J. Agric. & Environ. Sci. 2017; 17(4): 288-92

McDermott SN, Hartley TF. New datum handling methods for the quality control of antibiotic solutions and plates used in the antimicrobial susceptbility test. 1988. Journal of Clinical Microbiology. 1988; 27(8): 1814-1825.

Robinson T. Kandungan Organik Tumbuhan Tingkat Tinggi (penerjemah: Padmawinata K). Edisi 4. Bandung Jawa Barat; Penerbit ITB: 1995

Lavaud C, Voutqkwne L, Massiot G, Men-oliver LL, Das BC, laprevote O, et al.   saponins from the stem bark of Filicium decipiens. Phytochemistry. 1988; 47(3): 441-9

Kannabiran K, Mohankumar T, Gunaseker V. Evaluation of antimicrobial activity of saponin isolated from Solanum xanthocarpum and Centella asiatica. Int J Natl Eng Sci 2009; 3(1): 25-8.

Ravi,L., Manasvi V, Praveena L. B. Antibacterial and antioxidant activity of saponin from Abutilon indicum leaves. Asian J. of Pharm. and Clin. Res. 2016; 9(9): 344-7

Thanigaiarassu RR, Kannabiran K, Gopieshkhanna V. Antibacterial activity of saponin isolated from the leaves of Solanum trilobatum Linn. J Appl Biol Sci. 2008; 2(3):109-12

Duganath N, Nagachandra KR, Nagasowjanya J, Sridhar S , Sushma S, Jayaveera KN. Evaluation of phytochemical and in-vitro antioxidant activity of Filicium decipiens. Annals of Biological Research 2010; 1(1): 134-140

Mona SM, Osman-Wadah JA, Garelnabi EAE, Osman Z, Osman B, Khalid HS et al. Secondary metabolites as anti-inflammatory agents. The Journal of Phytopharmacology 2014; 3(4): 275-285

Corrêa GM, Da Costa-Abreu VG, De Abreu-Martins DA, Aparecida J, Takahashi T, De Souza- Fontoura H, et al. Anti-inflammatory and antimicrobial activities of steroids and triterpenes isolated from aerial parts of Justicia acuminatissima (Acanthaceae). Int J Pharm Pharm Sci. 2014; 6(6): 75-81

Jayasinghe ULB, Balasooriya BAIS, Bandara AGD, Y. Fujimoto Y. Glycosides from Grewia damine and Filicium decipiens, Natural Product Research 2004; 18(6): 499-502

Muthia A, Santoni A, Darwis D. Spinasterol: steroids from Filicium decipiens stem bark. International Journal of Chemical and Pharmaceutical Analysis 2015; 3(1): 1-5

Dogan A, Otlu S, Celebi O, Aksu-Kilicle P, Gulmez-Saglam A, Nazmi A, et al An investigation of antibacterial effects of steroids. Turk J Vet Anim Sci. 2017; 41: 302-305

Yusuf AJ, Abdullahi MI, Godwin AA, Ibrahim IAA, Alebiosu CO, Yahaya M. Antimicrobial activity of stigmasterol from the stem bark of Neocarya macrophylla. Journal of Medicinal Plants for Economic Development. 2018; 2(1): a38

Madduluri, Suresh. Rao, K.Babu. Sitaram, B. In Vitro Evaluation of Antibacterial Activity of Five Indegenous Plants

Extract Against Five Bacterial Pathogens of Human. International J of PharM and Pharm Sci. 2013; 5(4): 679-684

Ding B, Guan Q, Walsh JP, Boswell JS, Winter TW, Winter ES, et al. Correlation of the antibacterial activities of cationic peptide antibiotics and cationic steroid antibiotics. J. Med. Chem. 2002; 45(3): 663-9.

Polat ZA , Savage PB, Genberg C. In vitro amoebicidal activity of a ceragenin, cationic steroid antibiotic-13, against Acanthamoeba castellanii and its cytotoxic potential. J Ocul. Pharmacol. 2011; 27(1): 1-5

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Detail Karya Ilmiah Dosen

Siti Mahyuni, Tri Rahkma Sofihayati

Judul	:	Antibacterial Activities Test of Methanol, N-hexane Fraction, and N-hexane Extract from Filicium decipiens Leaf on Staphylococcus aureus and Bacillus subtilis
Abstrak	:	The previous study shows ethanol extract of Filicium decipiens leaf possesses a strong antibacterial activity against Staphylococcus aureus, but there have been no studies of the antibacterial activity with different solvents. The purpose of this study was to determine the antibacterial activities of methanol, n-hexane fraction of methanol and n-hexane extract of F. decipiens leaves against S. aureus and Bacillus subtilis bacteria. Extraction was carried out by soxletation method using methanol and n-hexane solvent. The antibacterial activity test was done by measuring the minimum inhibitory concentration (MIC) and Zone of Inhibition. The results showed that methanol extract did not have activity either against S. aureus bacteria or against B. subtilis. N-hexane extract which was fractionated from methanol extract had no activity against B. subtilis but showed moderate activity against S. aureus with 9 mm inhibition diameter at an extract concentration of 40%. N-hexane extract has very strong antibacterial activity against S. aureus with inhibition diameter reaching 21 mm at extract concentration of 30% and showing strong activity against B. subtilis bacteria with inhibition diameter of 10 mm at extract concentration of 30%. It can be concluded that n-hexane extract from F. decipiens has a potent as natural antibiotic material. Keywords: Filicium decipiens; Staphylococcus aureus; Bacillus subtilis; n-hexane extract; methanol extract
Tahun	:	2019	Media Publikasi	:	Jurnal Nasional Terakreditasi B
Kategori	:	Jurnal	No/Vol/Tahun	:	5 / 2 / 2020
ISSN/ISBN	:	24425257
PTN/S	:	Universitas Pakuan	Program Studi	:	FARMASI
Bibliography	:	Mulholland EK, Adegbola. Bacterial infections - A major cause of death among children in Africa. The New England journal of medicine. 2005; 352 (1):75-7 Farjana A, Zerin N, Kabir Md. S. Antimicrobial activity of medicinal plant leaf extracts against pathogenic bacteria. Asian Pacific Journal of Tropical Disease. 2014; 4(2):, Suppl. 2. P. S920-3 Thiripurasundari N, Vinodhkumar T, Ramanathan G. Antimicrobial potential of medicinal plant extracts against human pathogens. Int. Res J Pharm. App Sci. 2013; 3(4):107-9 Mahyuni S, Sofihidayati S. Kadar saponin dan aktivitas antibakteri ekstrak daun Filicium decipiens (Wight&Arn.) Thwaites terhadap Staphylococcus aureus, Escherichia coli dan Candida albicans. Fitofarmaka Jurnal Ilmiah Farmasi. 2018; 8(2):20-7. Bahri A. Isolasi dan karakterisasi senyawa metabolit sekunder dari fraksi aktif terhadap antioksidan ekstrak daun kerai payung (Filicium decipiens) (Tesis). Padang Sumatra Barat: Universitas Andalas; 2014 Porto TS, Rangel R, Furtado, de Carvalho TC, Martins CH, Veneziani RC, et al. Pimarane-type diterpenes: antimicrobial activity against oral pathogens. Molecules. 2009; 14(1): 191-9. 7. Souza AB, Martins HGC, Souza GMM, Furtado AJCN, Furtado, Heleno CGV, et al. Antimicrobial activity of terpenoids from Copaifera langsdorffii Desf. against cariogenic bacteria Phytother. Res. 2011; 25: 215-20 Anita, E. W. dan A.H. Ratna. 2012. Informasi Singkat Benih. No. 137. Balai Perbenihan Tanaman Holtikultura (BPTH) Sulawesi. Widagdo, S. 2005. Tanaman elemen lanskap sebagai biofilter untuk mereduksi polusi timbal (Pb) di udara. Makalah Pribadi Falsafah Sains. Sekolah Pascasarjana S3 IPB. Bogor. Duganath, N., K.N. Reddy, J. Nagasowjanya, S. Sridhar dan K.N. Jayaveera. 2010. Evaluation of phytochemical and in-vitro antioxidant activity of Filicium decipiens. Annals of Biological Research. 1 (1): 134-140. Jawetz E, Melnick JL, Adelberg EA. 1996. Mikrobiologi Kedokteran. Ed ke-20. Penerjemah: E. Nugroho dan R.F. Maulany. Buku Kedokteran EGC. Jakarta. Hal 46-50. Ebrahim, G. J. 2010. Bacterial resistance to antimicrobials. J.Trop.Pediatr. 56:141-143. Chen, L. F., T. Chopra dan K. Kaye. 2009. Pathogens resistant to antibacterial agents. Infect. Dis. Clin. N. Am. 23: 817-845. Satish, S., M. P. Raghavendra and K. A. Raveesha. 2008. Evaluation of antibacterial potential of some plants agent human pathogenic bacteria. Advances in Biological Research. 2 (3- 4): 44-48. Suryana, S., Y.A. Nuraeni dan T. Rostinawati. 2017. Aktivitas antibakteri ekstrak etanol dari lima tanaman terhadap bakteri Staphylococcus epidermidis dengan metode mikrodilusi. Indonesian Journal of Pharmaceutical Science and Technology. Vol. 4 (1). Kim, N. dan O. Ocy. 1989. Zat-zat toksik yang secara alamiah ada pada tumbuhan nabati. Cermin Dunia Kedokteran. No.58. Fiore, C., M. Eisenhut dan E. Ragazzi. 2005. A history of the therapeutic use of liquorice in Europe. J. Ethnopharmacol. 99:317–324. Yoshiki, Y., K. Kudo dan K. Okobo. 1998. Relationship between chemical structure and biological activities of triterpenoid saponin from soybean (Review). Biosience Biotechnology and Biochemistry. 62: 2291-2292. Sparg, S.G., M.E. Light dan J. Staden. 2004. Biological activities and distribution of plant saponins. J. Ethnopharmacol. 94:219–243. Sahu, N.P., S. Banerjee, N.B. Mondal dan D. Mandal. 2008. Steroidal saponins. In: Progress In The Chemistry of Organic Natural Products. Vol 89. Springer, Vienna. Hal 45–141. Hu, K. dan X. Yao. 2002. The cytotoxicity of protoneodioscin (NSC-698789), a furostanol saponin from the rhizomes of Dioscorea colletti var. hypoglauca, against human cancer cells in vitro. Phytomedicine. 9:560–562. Sun, Y., T.T. Cai dan X.B. Zhou. 2009. Saikosaponin a inhibits the proliferation and activation of T cells through cell cycle arrest and induction of apoptosis. Intl. Immunopharmacol. 9:978–983. Harborne JB. 1984. Phytochemical Methods: A Guide to Modern Technique of Plant Analysis. 2nd edition. London (UK); Chapman and Hall: 1984. Hudzicki J. Kirby-Bauer disk diffusion susceptibility test protocol. American Society for Microbiology. 2016; 1-23 Departemen Kesehatan Republik Indonesia. Parameter standar umum ekstrak tumbuhan obat. Cetakan pertama. 2000. Jakarta (Indonesia). Departemen Kesehatan Republik Indonesia Direktorat Jenderal Pengawasan Obat dan Makanan Direkstorat Pengawasan Obat Tradisional; 2000 Sasikala C, Yajaman Y. Effect of compounds isolated from Filicium decipiens and Ventilago madraspatana against diabetic nephropathy in streptozotocin induced diabetic rats. Indian Journal of Pharmaceutical Education and Research. 2015; 49(2): 147-51 Paramaguru R, Jagadeeshwar K, Mahendra CBK, Armstrong Vinod NAR. Evaluation of anti-inflammatory activity on the leaves of Filicium decipiens in experimental animal models J. Chem. Pharm. Res. 2011; 3(3): 243-7 Bari IN, Hisashi Kato-Noguchi H. Phytotoxic effect of Filicium decipiens leaf extract American-Eurasian J. Agric. & Environ. Sci. 2017; 17(4): 288-92 McDermott SN, Hartley TF. New datum handling methods for the quality control of antibiotic solutions and plates used in the antimicrobial susceptbility test. 1988. Journal of Clinical Microbiology. 1988; 27(8): 1814-1825. Robinson T. Kandungan Organik Tumbuhan Tingkat Tinggi (penerjemah: Padmawinata K). Edisi 4. Bandung Jawa Barat; Penerbit ITB: 1995 Lavaud C, Voutqkwne L, Massiot G, Men-oliver LL, Das BC, laprevote O, et al. saponins from the stem bark of Filicium decipiens. Phytochemistry. 1988; 47(3): 441-9 Kannabiran K, Mohankumar T, Gunaseker V. Evaluation of antimicrobial activity of saponin isolated from Solanum xanthocarpum and Centella asiatica. Int J Natl Eng Sci 2009; 3(1): 25-8. Ravi,L., Manasvi V, Praveena L. B. Antibacterial and antioxidant activity of saponin from Abutilon indicum leaves. Asian J. of Pharm. and Clin. Res. 2016; 9(9): 344-7 Thanigaiarassu RR, Kannabiran K, Gopieshkhanna V. Antibacterial activity of saponin isolated from the leaves of Solanum trilobatum Linn. J Appl Biol Sci. 2008; 2(3):109-12 Duganath N, Nagachandra KR, Nagasowjanya J, Sridhar S , Sushma S, Jayaveera KN. Evaluation of phytochemical and in-vitro antioxidant activity of Filicium decipiens. Annals of Biological Research 2010; 1(1): 134-140 Mona SM, Osman-Wadah JA, Garelnabi EAE, Osman Z, Osman B, Khalid HS et al. Secondary metabolites as anti-inflammatory agents. The Journal of Phytopharmacology 2014; 3(4): 275-285 Corrêa GM, Da Costa-Abreu VG, De Abreu-Martins DA, Aparecida J, Takahashi T, De Souza- Fontoura H, et al. Anti-inflammatory and antimicrobial activities of steroids and triterpenes isolated from aerial parts of Justicia acuminatissima (Acanthaceae). Int J Pharm Pharm Sci. 2014; 6(6): 75-81 Jayasinghe ULB, Balasooriya BAIS, Bandara AGD, Y. Fujimoto Y. Glycosides from Grewia damine and Filicium decipiens, Natural Product Research 2004; 18(6): 499-502 Muthia A, Santoni A, Darwis D. Spinasterol: steroids from Filicium decipiens stem bark. International Journal of Chemical and Pharmaceutical Analysis 2015; 3(1): 1-5 Dogan A, Otlu S, Celebi O, Aksu-Kilicle P, Gulmez-Saglam A, Nazmi A, et al An investigation of antibacterial effects of steroids. Turk J Vet Anim Sci. 2017; 41: 302-305 Yusuf AJ, Abdullahi MI, Godwin AA, Ibrahim IAA, Alebiosu CO, Yahaya M. Antimicrobial activity of stigmasterol from the stem bark of Neocarya macrophylla. Journal of Medicinal Plants for Economic Development. 2018; 2(1): a38 Madduluri, Suresh. Rao, K.Babu. Sitaram, B. In Vitro Evaluation of Antibacterial Activity of Five Indegenous Plants Extract Against Five Bacterial Pathogens of Human. International J of PharM and Pharm Sci. 2013; 5(4): 679-684 Ding B, Guan Q, Walsh JP, Boswell JS, Winter TW, Winter ES, et al. Correlation of the antibacterial activities of cationic peptide antibiotics and cationic steroid antibiotics. J. Med. Chem. 2002; 45(3): 663-9. Polat ZA , Savage PB, Genberg C. In vitro amoebicidal activity of a ceragenin, cationic steroid antibiotic-13, against Acanthamoeba castellanii and its cytotoxic potential. J Ocul. Pharmacol. 2011; 27(1): 1-5
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