Deteksi Komposisi Senyawa Polyisoprenoid Pada Organ Vegetatif Tiga Jenis Mangrove Ikutan

DAFTAR PUSTAKA

Asriningrum, W. 2011. Analisis wilayah konservasi mangrove di kepulauan
Talaud. Globe 13(2): 132-138.
Bach T.J. 1995. Some new aspects of Isoprenoid biosynthesis in plants – A
Review. Lipids 30: 191–202.
Bandarnayake W.M 2002. Bioactivities, bioactive compounds and chemical
constituents of mangrove plants. Wetlands Ecol. Manage 10: 421-452.
Basyuni M., Oku H., Tsumijoto E., Kinjo K., Baba S., Takara K. 2007. Triterpene
synthases from the Okinawan mangrove tribe, Rhizophoraceae. The
FEBS Journal 274: 5028-5042.
Basyuni, M., Baba, S., Kinjo Y., Putri L.A.P., Hakim, L., Oku H. 2012. Saltdependent increasein triterprenoids is reversible upon transfer to
fresh water in mangrove plants Kandelia candel and Bruguiera
gymnorhiza. Journal of Plant Physiology 169: 1903-1908.
Basyuni M, Putri LAP, & Oku H. 2013. Phytomedicinal investigation from six
mangrove tree species, North Sumatra, Indonesia. Ilmu Kelautan:
Indonesian Journal of Marine Science 18:157–164.
Basyuni, M., Sagami, H., Baba, S., Iwasaki, H., Oku, H. 2016. Diversity of
polyisoprenoid in ten Okinawan mangroves. Dendrobiology 75: 167175.
Bunyapraphatsara, N., Srisukh, V., Jutiviboonsuk, A., Sornlek, P., Thongbainoi.
W., Chuakul. W., Fong, H.H.S., Fezzuto, J.M. dam Kosmeder, J.

2002. Vegetables from the mangrove areas. Thai Journal of
Phytopharmacy 9(1): 1-12.
Cantagrel, V., Lefeber, D,J., Ng, G B., Guan, Z., Silhavy, J L., Bielas, S L., Lehle,
L., Hombauer, H., Adamowicz, M., Swiezewska., Brouwer, E.,
Blümel, P., Sykut-Cegielska, J., Houliston, S., Swistun, D., Ali, B.,
Babovic-Vuksanovic, D., Bokhoven, H V., Wevers, R A., Raetz,
C.R.H., Freeze, H.H., Morava, E., Al-Gazali, L., Gleeson, J.G. 2010.
SRD5A3 is required for the conversion of polyprenol to dolichol,
essential for N-linked protein glycosylation. Cell 142(2): 203–217.
Chouda M & Jankowski W. 2005. The occurrence of polyprenols in seeds and
leaves of woody plants. Acta Biochimica Polonica 52: 243–253.
Giri C, Ochieng E, Tieszen LL, Zhu Z, Singh A, Loveland T, Masek J & Duke N.
2011. Status and distribution of mangrove forests of the world using
earth observation satellite data. Global Ecology and Biogeography
20: 154-159.
Hogg RW & Gillan FT 1984. Fatty acids, sterols and hydrocarbons in the leaves
from eleven species of mangrove. Phytochemistry 23: 93–97.
Ishiguro T., Morita-Fujimira Y., Shidoji Y., Sagami H. 2014. Dolichol
biosynthesis: The occurrence of epoxy dolichol in skipjack tuna liver.
Biochemical and Biophysical Research Communications 451: 277281.


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Jankowski W.J., Świeżewska E., Sasak W., Chojnacki T. 1994. Occurrence of
polyprenols and dolichols in plants. J. Plant Physiol 143: 448–452.
Keunzer, C., Bluemel, A., Gebhardt , S., Quc., T.V. and Dech, S. 2011. Remote
sensing of mangrove ecosystems: A Review. Remote Sensing 3: 878928.
Kitamura, dkk , 1997 , Handbook of Mangrove in Indonesia – Bali & Lombok ,
ISME & JICA.
Kokpol, U., Chittawong, V., Miles, D.H., 1986. Chemical constituents of the roots
of Acanthus illicifolius. Journal of Natural Products 49: 355-356.
Kusmana C. 2011. Management of mangrove ecosystem in Indonesia. Jurnal
Pengelolaan Sumberdaya Alam dan Lingkungan 1(2): 152-157.
Mulyani, Y., Bachtiar, E., Kurnia, M, U. 2013. Peranan senyawa metabolit
sekunder
tumbuhan
mangrove
terhadap
infeksi
bakteri

Aeromonas hydrophila pada ikan mas (Cyprinus carpio L.). Jurnal
Akuatika 4(1): 1-9.
Oksman-Caldentey K.M., Inze D. 2004. Plant cell factories in the post-genommic
era: new ways to produce designer secondary metabolites. Trends in
Plants Science 9: 433-440.
Oku, H., Baba, S., Koga, H., Takara, K., Iwasaki, H., 2003. Lipid composition of
mangroves and its relevance to salt tolerance. Journal of Plant Res
116: 37-45.
Otuki, M. F., V. L. Fabiana., M. Angela., Y. A. Rosendo., J. B. Calisto. 2005.
Topical anti-inflammatory effects of the ether extract from Protium
kleinii and α-amyrin pentacyclic triterpene. E. Journal of
Pharmacology 507: 253-259.
Pattison RJ & Amtmann A. 2009. N-glycan production in the endoplasmic
reticulum of plants. Trends in Plant Science 14: 92–99.
Purnobasuki, H. 2004. Potensi mangrove sebagai tanaman obat. Biota 9(2): 125126.
Ravikumar, S., Gnanadesigan, M., Suganthi, P. dan Ramalakshmi, A. 2010.
Antimocrobial potential of chosen mangrove plants against isolated
urinary tract infectious bacterial phatogens. International journal of
Medical Sciences 2(3): 94-99.
Roslinska, M., Walinska, K., Swiezewska, E., Chojnacki, T. 2002. Plant longchain polyprenols as chemotaxonomic markers. Dendrobiology 47:

41-50.
Sagami H., Kurisaki A., Ogura K., Chojnacki T. 1992. Separation of dolichol
from dehydrodolichol by a smile two-plate thin layer chromatography.
Journal of Lipid Research 33: 1857-1862.
Schneider C.A., Rasband W.S., Eliceiri K.W. 2012. NIH Image to ImageJ: 25
years of image analysis. Focus on bioimage informatics 9(7): 671-675.
Setyawan D.A., Winarno K., Purnama C.P. 2003. Ekosistem mangrove di Jawa: 1.
Kondisi Terkini. Biodiversitas 4(2): 133-145.
Skocylas E & Chojnacki T. 1994. The search for plant polyprenols. Acta
Biochimica Polonica 41: 221–260.
Skorupinska-Tudek K, Bienkowski T, Olszowska O, Furmanowa M, Chojnacki T,
Danikiewicz W & Swiezewska E. 2003. Divergent pattern of

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polyisoprenoid alcohols in the tissues of Coluria geoides: a new
electrospray ionization MS approach. Lipids 38: 981–990.
Skorupinska-Tudek K., Pytelewska A., Zelman-Femiak M., Mikoszewski J.,
Olszowska O., Gajdzis-Kuls D., Urbannska N., Syllowska-Baranek
K., Hertel J., Chojnacki T., Swiezewska E. 2007. In vitro plant tissue

cultures accumulate polyisoprenoid alcohols. Acta Biochimica
Polonica 54: 847-852.
Skorupinska-Tudek K, Wojcik J dan Swiezewska E. 2008. Polyisoprenoid
alcohols–recent results of structural studies. The Chemical Record 8:
33–45.
Sparg S.G., Light M.E., Van Staden J. 2004. Biological activities and distribution
of plant saponins. Journal of Ethnopharmacology. 94: 219-243.
Suga, T., Ohta, S., Nakai, A., dan Munesada, K. 1989. Glycinoprenols: Novel
polyprenols possessing A phytyl residue from the leaves of soybean.
The Journal of Organic Chemistry 54: 3390-3393.
Sumaryono, W. 1999. Produksi Metabolit Sekunder Tanaman Secara
Bioteknologi. Prosiding. Seminar Nasional Kimia Bahan Alam .
Penerbit UI. Jakarta.
Sun F, Cai Z, Chaudhary MI, Xiao P & Cheng Y. 2010. Distribution of the
triterpenoid saponins and chemotaxonomy of the genus Clematis L. by
high-performance liquid chromatography-mass spectrometry.
Biochemical Systematic and Ecology 38: 1018–1025.
Surmacs L, Swiezewska E. 2011. Polyisoprenoids – Secondary metabolites or
physiologically important superlipids?. Biochemical Biophysical
Research Communications 407: 627–632.

Swiezewska E, Sasak W, Mankoowski T, Jankowski W, Vogtman T, Krajewska I,
Hertel J, Skocylas E & Chojnacki T. 1994. The search for plant
polyprenols. Acta Biochimica Polonica 41: 221–260.
Swiezewska E., Danikiewiez W. 2005. Polyisoprenoids : structure, biosynthesis
and function. Progress in Lipid Reasearch 44: 235-258.
Tateyama S, Wititsuwannakul R, Wititsuwannakul D, Sagami H & Ogura K.
1999. Dolichols of rubber plant, ginkgo, and pine. Phytochemistry
51: 11–15.
Tao R, Wang CZ, Kong ZW. 2013. Antibacterial/antifungal activity and
synergistic interactions between polyprenols and other lipids isolated
from Ginkgo biloba L. leaves. Molecules 18: 2166–2182.
Tomlinson PB. 1986. The Botany of Mangroves. Cambridge University Press,
London.
Tosa, H., M. Iinuma, T. Tanaka, H. Nozaki, S. Ikeda, K. Tsutsui, M. Yamada and
S. Fujimori. 1997. Inhibitory activity of xanthone derivatives isolated
from some guttiferaeous plants against DNA topoisomerases I and II.
Chemical and Pharmatceutical Bulletin (Tokyo) 45: 418-420.

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