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Sains Malaysiana 47(9)(2018): 2063–2071 http://dx.doi.org/10.17576/jsm-2018-4709-14
Antibacterial Activity and Major Constituents of Polyalthia cinnamomea
Basic Fraction (Aktiviti Antibakteria
dan Juzuk
Utama Fraksi Bes Polyalthia cinnamomea) PUTERI
I.A.M.
MAHMUD1,
WAN
A.
YAACOB1,
NAZLINA
IBRAHIM2
& MUNTAZ ABU BAKAR1* 1School of Chemical Sciences
and Food Technology, Faculty of Science and Technology, Universiti Kebangsaan Malaysia,
43600 UKM Bangi, Selangor Darul
Ehsan, Malaysia 2School of Biosciences
and Biotechnology, Faculty of Science and Technology, Universiti
Kebangsaan Malaysia, 43600 UKM Bangi,
Selangor Darul Ehsan, Malaysia Received:
31 March 2018/Accepted: 17 May 2018 ABSTRACT Polyalthia cinnamomea Hook.f. & Thomson (Annonaceae) or locally
known as ‘Larak Batu
Bukit’, ‘Pisang-pisang’, ‘Sugao’
and ‘Sigumpet Hutan’
is a small woody plant found throughout Malaysia and Singapore.
In this study, the basic chemical components from the leaves
of the plant were fractionated and the antibacterial activity
as well as the major constituents of the basic fraction was
determined. To the best of our knowledge, this is the first
study being carried out on the bioactivity and phytochemistry
of P. cinnamomea. The basic fraction remarkably
inhibited the growth of ten bacteria tested except one. The
biggest inhibitory diameter and the lowest minimum inhibitory
concentration were 19.0±4.6 mm and 0.125 mg/mL against respective
Bacillus subtilis and Bacillus thuringiensis.
Gas chromatography-mass spectrometry (GCMS)
analysis of the basic fraction identified four major cyclosiloxanes
of octamethylcyclotetrasiloxane (18.1%),
decamethylcyclopentasiloxane (16.4%), dodecamethylcyclohexasiloxane
(14.1%) and tetradecamethylcycloheptasiloxane
(6.0%). The knowledge of the antibacterial potential of P.
cinnamomea basic fraction and the
major constituents present in the fraction can be utilized in
the fields of natural products, pharmaceutical, cosmetic and
personel care industries. Keywords: Antibacterial
activity; basic fraction; cyclosiloxane;
Polyalthia cinnamomea ABSTRAK Polyalthia cinnamomea Hook.f. & Thomson (Annonaceae)
atau dikenali
tempatan sebagai Larak Batu Bukit, Pisang-pisang, Sugao dan Sigumpet Hutan
merupakan tumbuhan
berkayu kecil yang tumbuh di seluruh Malaysia dan Singapura. Dalam kajian ini, komponen
kimia asas
daripada daun tumbuhan
tersebut telah
difraksikan dan aktiviti antibakteria berserta juzuk utama fraksi bes tersebut telah ditentukan. Setahu kami, ini adalah kajian
pertama yang dijalankan
terhadap bioaktiviti dan fitokimia P. cinnamomea.
Fraksi bes
tersebut telah
merencat secara luar biasa pertumbuhan
sepuluh bakteria
yang diuji kecuali satu.
Diameter perencatan
terbesar dan kepekatan
perencatan minimum terendah
adalah 19.0±4.6 mm dan
0.125 mg/mL masing-masing terhadap
Bacillus subtilis dan
Bacillus thuringiensis.
Analisis kromatografi gas-spektroskopi jisim (KGSJ)
fraksi bes
tersebut telah
mengenal pasti empat siklosiloksana utama, iaitu oktametilsiklotetrasiloksana
(18.1%), dekametilsiklopentasiloksana
(16.4%), dodekametilsikloheksasiloksana (14.1%) dan
tetradekametilsikloheptasiloksana
(6.0%). Pengetahuan potensi antibakteria fraksi bes P.
cinanamomea dan komponen utama yang hadir dalam fraksi
tersebut boleh
dimanfaatkan dalam bidang hasilan alami, industri farmaseutik, kosmetik dan penjagaan peribadi. Kata kunci: Aktiviti
antibakteria; fraksi
bes; Polyalthia cinnamomea; siklosiloksana REFERENCES Abou-elela, G., Abd-lnaby, H., Ibrahim, H.A.H. &
Okbah, M.A. 2009. Marine natural products and their potential applications
as anti-infective agents. World Applied Science 7(7):
872-880. Ali, N.A.A., Jülich, W.D., Kusnick, C. & Lindequist, U.
2001. Screening of Yemeni medicinal plants for antibacterial
and cytotoxic activities. Journal of Ethnopharmacology 74(2): 173-179. Andrews, J.M. 2006. Determination of minimum inhibitory
concentration. Journal of Antimicrobial Chemotherapy
48(suppl_1): 5-16. Arun Patil & Rathod,
V.J. 2014. GC-MS analysis of bioactive components
from methanol leaf extract of Toddalia
asiatica (L.). International Journal of Pharmaceutical
Sciences Review and Research 29(1): 18-20. Bapuji,
L.J. & Ratnam, V.S. 2009. Traditional
uses of some medicinal plants by tribals
of Gangaraju Madugula
Mandal of Visakhapatnam district, Andhra Pradesh. Ethnobotanical
Leaflets 13: 388-398. Barakat, D.A. 2011. Insecticidal
and antifeedant activities and chemical
composition of Casimiroa
edulis la llave & lex (rutaceae) leaf extract and its fractions against spodoptera littoralis
larvae. Journal of Applied Sciences Research 5(9):
693-703. Bautista-baños, S., Hernández-López, M. &
Barrera-Necha, L.L. 2000. Antifungal
screening of plants of the state of morelos,
Mexico against four fungal postharvest pathogens of fruits and
vegetables. Journal of Natural Products 18: 36-41.
Chkrabarti, S.K.
& Mukherjee, B. 1968. Search for anticancer drug from Indian medicinal plants.
Indian Journal of Medicinal Research 56: 445-455. CLSI. 2011. Clinical and
Laboratory Standard Institute Performance Standards for Antimicrobial
Susceptibility Testing. Wayne, Pennslyvania,
National Committee for Clinical Laboratory Standards. M100-S21.
CLSI. 2009. Clinical and
Laboratory Institute Performance Standards for Antimicrobial
Disk Susceptibility Tests. Wayne, Pennsylvania,
National Committee for Clinical Laboratory Standard.
M02-A10. Karou, D.,
Savadogo, A., Canini,
A., Yameogo, S., Montesano, C., Simpoe,
J., Colizzi, V. & Traore, A.S.
2005. Antibacterial
activity of alkaloids from Sida
acuta. African Journal of Biotechnology 4(12):
1452-1457. Dilek Keskin, Nur Ceyhan, A. Ugur & Ayse Durgan Dbeys. 2012. Antimicrobial
activity and chemical constituents of West Anatolia olive (Olea
europaea L.) leaves. Journal of Food and Environment
10(2): 99-102. Faizi, S.,
Khan, R.A., Mughal, N.R., Malik, M.S., Sajjadi,
K.E. & Ahmad, A. 2008. Antimicrobial activity of various.
Parts of Polyalthia longifolia var. pendula: Isolation of active principles
from the leaves and the berries. Phytotherapy
Research 22(7): 907-912. Faizi, S.,
Mughal, N.R., Khan, R.A., Khan, S.A., Ahmad, A., Bibi, N. &
Ahmed, S.A. 2003.
Evaluation of the antimicrobial property of Polyalthia
longifolia var. pendula: Isolation
of a lactone as the active antibacterial agent from the ethanol
extract of the stem. Phytotherapy Research 17(10): 1177- 1781. Faizi, S., Khan, R.A., Azher, S., Khan, S.A., Tauseef,
S. & Ahmad, A. 2003. New antimicrobial
alkaloids from the roots of Polyalthia
longifolia var. pendula.
Plant Medica 69: 350-355. Hadi, S.
& Bremner, J. 2001. Initial
studies on alkaloids from Lombok medicinal plants. Molecules
6: 117-129. Hajji,
M., Jarraya, R., Lassoued,
I., Masmoudi, O., Damak,
M. & Nasri, M. 2010. GC/MS and LC/MS analysis, and antioxidant
and antimicrobial activities of various solvent extracts
from Mirabilis jalapa tubers.
Process Biochemistry 45(9): 1486-1493. Herrera,
R.M., Pérez, M., Martín‐Herrera, D.A., López‐García, R., Rabanal,
R.M. & Arias, A. 1996. Antimicrobial activity of extracts
from plants endemic to the Canary Islands. Phytotherapy
Research 10(4): 364-366. Irausin, G.,
Lima, R.B.S., Hidalgo, A.D.F., Maas, P. & Pohlit,
A.M. 2014.
Plants of the Annonaceae traditionally
used as antimalaria: A review. Edico
Especial 36: 315-336. Irith, W.,
Kai, H. & Hancock, R.E.W. 2008. Agar and broth
dilution methods to determine the minimal inhibitory concentration
(MIC) of antimicrobial substances. Nature Protocols
3: 163-175. Kelmanson, J.E., Jager, A.K. & Van Staden, J.
2000. Zulu medicinal plants with antibacterial
activities. J. Ethnopharmacol
69: 241-246. Koç, A.N., Silici, S., Mutlu-Sariguzel1, F. & Sagdic,
O. 2007. Antifungal activity of propolis
in four different fruit juices. Food Technology and
Biotechnology 45(1): 57-61. Yusuf
Kurt, M. Suleyman, K. & Kani
Isik. 2008. Traditional tar production from Cedrus libani rich
on the taurus mountains in Southern Turkey. Economic Botany 62(4):
615-620. Lertyot Treeratanapiboon,
Apilak Worachartcheewan,
Thummaruk Suksrichavalit, Rachada Kiatfuengfoo, Supaluk Prachayasittikul, Somsak Ruchirawat & Virapong Prachyasittikul. 2011.
Bioactive 4-hydroxycinnamide and bioavtivities
of polyalthia cerosoides. Molecules
10: 16-22. Mahajan, S.K., Khare, B., Mahajan, D.D., Gupta, V., Muwel,
S.L., Gupta, M. & Mahajan, P. 2010. Folk medicinal uses
of plants against malignant tumor in Khargone
district of M.P. India Journal of Environmental Research
and Development 4(3): 800-802. Manasa, M.,
Vivek, M.N., Yashoda,
K., Onkarappa, R. & Prashith
K.T.R. 2004.
Antimicrobial activity of leaf and pericarp extracts of Polyalthia
longifolia (Annonaceae).
Journal of Pharmaceutical and Scientific Innovation 393:
221-225. Masika, P.J.
& Afolayane, A.J. 2002. Antimicrobial activity
of some plants used for the treatment of livestock disease in
Eastern Cape, South Africa. J. Ethnopharmacol
83: 129-134. Ministry
of Natural Resources and Environment Forest Reseacrh
Institute Malaysia (FRIM). Clearing House Mechanism Biological Diversity Database.
http://www.chm.frim. gov.my/Bio-diversity-Database/flora-Database/Polyalthia cinnamomea. Accessed on 13 January 2016. Moustafa, M.F.M.,
Alamri, S.A., Taha,
T.H. & Alrumman, S.A. 2013. In
vitro antifungal activity of
Argemone ochroleuca sweet latex against some pathogenic fungi. African Journal of
Biotechnology 12(10): 1132-1137. Nair,
R. & Sumitra, C. 2007. In-vitro antimicrobial activity of Psidium guajava leaf
extracts against clinically important pathogenic microbial strains.
Brazilian Journal of Microbiology 38(3): 452-458. Neli, L.P.,
Yogendra, K., Berington,
M., Ranjan, K.B. & Santaram,
J. 2011.
In vitro antibacterial activity of alkaloid extract from
stem bark of Mahonia manipurensis Takeda.
Journal of Medicinal Plants Research 5(5): 859-861. Nikaido, H.
& Vaara, M. 1985. Molecular basis
of bacterial outer membrane permeability. Microbiol.
Rev. 1: 1-32. Patel,
N.K. 2010.
Ethno-medicinal plants used for gonorrhea
disease in Danta Taluka (Gujarat). Ethno-Botanical Leaflets
14: 642-647. Patoomratana Tuchinda, Marat Pohmakotr, Bamroong Munyoo, Vichai Reutvakul & Thawatchai Sentisuk. 2000. An azaanthracene alkaloid from Polyalthia
suberosa. Elsevier Phytochemistry
53: 1079-1082. Poornima, G.,
Mansa, M., Rudrappa, D. & Kekudda,
P.T.R. 2012.
Medicinal plants used by herbal healers in Narasipura
and Manchale villages of Sagara
Taluk, Karnataka, India. Science, Technology and Arts Research
Journal 1(2): 12-17. Puteri I.A.M.
Mahmud, Yaacob, W.A. & Ibrahim,
N. 2017. Antibacterial activity
of alkaloid extracts from Ochrosia
oppositifolia. Sains
Malaysiana 46(8): 1279-1284. Rabe, T. & Van Staden, J.
1997. Antibacterial activity of South African plants used for
medicinal purposes. J. Ethnopharmacol.
56: 81-87. Ridley, S.N. 1967.
The Flora of the Malay Peninsula.
London: L.Reeve & Co.Ltd.
pp. 51-52. Sinhababu, A.
& Baherjee, A. 2013. Ethno-botanical
study of medicinal plants used by tribals
of Bankura Districts, West Bengal, India. Journal of
Medicinal Plants Studies 1(3): 98-104. Scherrer, R. & Gerhardt,
P. 1971. Molecular Sieving by the Bacillus
megaterium cell wall and protoplast. J. Bacteriol 107: 718-735. Scorzoni, L.,
Benaducci, T., Almeida, A.M.F., Silva,
D.H.S., Bolzani, V.S. & Mendes Giannini,
M.J.S. 2007.
Comparative study of disk diffusion and microdilution methods
for evaluation of antifungal activity of natural compounds against
medical yeast Candida spp and Cryptococcus sp. Journal of Basic and Applied
Pharmaceutical Sciences 28(1): 25-34. Shalini &
Srivastava, R. 2009. Antifungal activity screening and HPLC analysis of
crude extract from Tectona
grandis, Shilajit, Valeriana wallachi.
Electronic Journal of Environmental, Agricultural and Food
Chemistry 8(4): 218-229. Starch,
M.S. 2008.
Silicones’ benefits in antiaging skin care. Cosmetics and
Toiletries: Science Applied. http:// www.coemeticsandtoiletries.com/formulating/category/
antiaging/34408409.html. Accessed on
23 January 2016. Pharmaceutical
Sciences, Mohidal University. 1996. Bangkok: Siam-Phi-Chacha-Ya-Prug,
Amarin Printing and Publishing. p. 190.
Stevens,
M.G. & Olsen, S.C. 1993. Comparative analysis of using MTT
and XTT in colorimetric assays for quantitating bovine neutrophil
bactericidal activity. Journal of Immunological Methods
157(1-2): 225-231. Sugumaran, M.,
Bharathi, V., Hemachander,
R. & Lakshmi, M. 2010. Ethnomedicinal plants for
indigestion in Uthiramerur Taluk,
Kancheepuram district, Tamil Nadu,
India. Journal of Chemical and Pharmaceutical Research 2(6):
463-470. Sumitra
Chanda & Rathish Nair. 2010. Antimicrobial activity of Polyalthia
longifolia (Sonn.)
thw. Var. pendula leaf extracts against 91 clinically important
pathogenic microbial strains. Scientific Research Chinese
Medicine 1: 31-38. Sundaresan, S.
& Senthilkumar, B. 2013. A
survey of traditional medicinal plants from the Vellore district,
Tamil Nadu, India. International Journal of Ayurvedic
and Herbal Medicine 3(5): 1347-1355. Supaluk Prachayasittikul,
Patumporn Manam,
Maneekarn Chinworrungsee, Charychalerm Isarankura-Na-Ayudhya, Somsak Ruchirawat & Virapong Prachayasittikul. 2009. Bioactive azafluorenone
alkaloids from Polyalthia
debilis (Pierre) Finet &
gagnep. Molecule 14: 4414-4424. Vahedi, H.,
Nasrabadi, M., Lari,
J. & Halimi, M. 2011. Volatile constituents
and antimicrobial activities of Pterocephalus
Canus. Journal of Medicinal
Plants Research 5(23): 5646- 5648. Yamaguchi, K., Kinora, H., Natori, S., Ito, H., Nissbimio,
K., Bando, K., Mizuno, D. & Ishignoo,
M. 1964. Screening tests for antitumor activity of Asian medicinal
herbs I. Ya-kugakuzashi 84: 373-377. Zhen,
H.S., Ge, J., Liang, J., Qiu, Q.,
Song, Z.H., Zhong, Z.G., Wang, W.H. & Jiang, J.P. 2008. Analysis
of the volatile oils chemical constituents of roots of Actinidia
deliciosa. Zhong
Yao Cai 31(5):
677-678. *Corresponding author; email: muntaz@ukm.edu.my
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