Distribusi Senyawa Polyisoprenoid Pada Organ Generatif Tiga Jenis Mangrove Ikutan
DAFTAR PUSTAKA
Alongi, D. M., 2009. Paradigm shifts in mangrove biology. Coastal Wetlands: An
Integrated Ecosystem Approach. Chapter 22
Bandaranayake, W. M., 2002. Bioactivities, bioactive compounds and chemical
constituents of mangrove plants. Wetlands Ecology and Management
10: 421-452
Basyuni, M., Baba, S., KinjoY., Oku H. 2012. Salinity increases the triterpenoid
content of a salt secretor and a non-salt secretor mangrove. Aquatic
Botany 97: 17-23
Basyuni, M. L. A. P. Putri, B. Nainggolan, P. E. Sihaloho. 2014. Growth and
biomass in response to salinity and subsequent fresh water in mangrove
seedlings Avicennia marina and Rhyzophora stylosa. Jurnal Manajemen
Hutan Tropika 20:17-25
Basyuni, M., L.A.P. Putri, H. Oku. 2015. Implication of Landuse and land-cover
change into carbon dioxide emissions in Karang Gading and Langkat
Timur Laut Wildlife Reserve, North Sumatera, Indonesia. Jurnal
Manajemen Hutan Tropika 21: 19-24
Basyuni, M., H. Sagami, S. Baba, H Iwasaki, H. Oku. 2016. Diversity of
Polyisoprenoid in Ten Okinawan mangroves. Dendrobiology 75: 167175
Basyuni, M., Sagami, H., Baba, S., Putri, L A., Oku, H. 2017. Distribution,
occurrence, and cluster analysis of a new plyprenyl acetones and other
polyisoprenoid from North Sumatran mangroves in Indonesia.
Dendrobiology 78:18-31
Bintang, Maria. 2010. Biokimia: Teknik Penelitian. Erlangga. Jakarta
Cantagrel, V., Lefeber, D. J., Ng, B. G., Guan, Z., Silhavy, J. L., Bielas, S. L.,
Lehle, L., Hombauer, H., Adamowicz, M., Swiezewska, E., Brouwer, A
P D., Blumel, P., Sykut-Cegielska, J., Houliston, S., Swistun, D., Ali, A
R, Dobyns, W B, Babovic-Vuksanovic, D., Bokhoven, H V, Wevers, R
A, Raetz, C R H, Freeze, H H, Morava, E., Al-Ghazali, L., Gleeson, J
G. 2010. SRD5A3 is required for converting polyprenol to dolichol and
is mutated in a congenital glycosylation disorder. Cell 142: 203-217
Universitas Sumatera Utara
Giri, C., E. Ochieng, L. L. Tieszen, Z. Zhu, A. Singh, T. Loveland, J. Masck and
N. Duke. 2011. Status and distribution of mangrove forests of the world
using earth observation satellite data. Global Ecology and
Biogeography 20: 154-159
Kania, M. G. Spolnik, A. Jozwiak, M. Ples. S. Ewa, W. Danikiewisz. 2011.
Identification of Polyisoprenoid alcohols and their derivatives in
natural samples by HPLC method coupled with atmospheric pressure
photoionization mass spectrometry. Chemistry and Physics of Lipid
1645: 538-541
Krag, S. S., 1998. Breakthroughs and views the important of being dolichol.
Biochemical and Biophysical Research Communications 243: 1-5
Macnae, W. 1968. A general account of the fauna and flora of mangrove swamps
and forests in the ino-west-pacific region. Adv. mar. Biol. Vol. 6 pp73270
Mastuti, R. 2016. Modul 3: Fisiologi Tumbuhan; Metabolit Sekunder Pertahanan
Tumbuhan. FMIPA Universitas Brawijaya. Malang
Muceniece, R., Namniece, J., Nakurte, I., Jekabsons, K., Riekstina, U., Jansone,
B. 2016. Pharmacological Research on natural substances in Latvia:
Focus on lunasin, botulin, polyprenol and phlorizin. Pharmacological
Research YPHRS-3137; No. of Page 11
Noor, Y. R, M. Khazali, dan I. N. N, Suryadiputra. 2006. Panduan pengenalan
Mangrove di Indonesia. Bogor: PHKA/WI-IP
Oku, H., S. Baba, H. Koga. K. Takara, H. Iwasaki. 2003. Lipid composition of
mangroves and its relevance to salt tolerance. Journal of Plant
Research 116: 37-45
Parida, A. K., A. B. Das. 2005. Salt tolerance and salinity effects on plants.
Ecotoxicology and Environmental Safety 60: 324-349
Rip, J. W., Rupar, C. A., Ravi, K., Carrol, K. K. 1985. Distribution, metabolism,
and function dolichol and polyprenol. Progress Lipid Research 24: 269309
Rohman,
Abdul. 2009. Kromatografi untuk Analisis Obat. Graha
Ilmu.Yogyakarta Saifudin, Azis. 2012. Senyawa Alam Metabolit
Sekunder; Teori, Konsep, dan Teknik Pemurnian. Deepublish.
Yogyakarta
Universitas Sumatera Utara
Sagami, H, A. Kurisaki, K. Ogura, and T. Chojnacki. 1992. Separation of dolichol
from dehydrodolichol by a simple two-plate thin layer chromatography.
Journal of Lipid Research 33:1857-1861
Saifudin, A. 2012. Senyawa Alam Metabolit Sekunder: Teori, Konsep, dan
Teknik Pemurnian. Deepublish. Yogyakarta
Schneider CA, Rasband WS & Eliceiri KW. 2012. NIH Image to ImageJ:25 years
of image analysis. Nature Methods 9 (7): 671-675
Strzalka, K., Szymanska, R., Swiezewska, E., Skorupinska-Tudek, K., Suwalsky,
M. 2009. Tocochromanols, plastoquinone, and polyprenols in selected
plant species from Chilean Patagonia. Acta Biologica Cracoviensia
51/1: 39-44
Sukardjo, S. 1984. Ekosistem Mangrove. Oseana. Volume IX Nomor 4:102-115
Sudha, G. dan G. A., Ravishankar. 2002. Involvement and interaction of various
signaling compounds on the plant metabolic events during defense
response, resistance to stress factors, formation of secondary
metabolites and their molecular aspects. Plant Cell, Tissue and Organ
Culture 71:181-212
Suryono, Ahmad. 2013. Sukses Usaha Pembibitan Mangrove. Pustaka Baru Press.
Yogyakarta
Surmacz, L and E. Swiezewska. 2011. Polyisoprenoids-Secondary metabolites or
physiologically important superlipids. Biochemical and Biophysical
Research Communications 407: 627-632
Swiezewska, E dan W. Danikiewicz, 2005. Polyisoprenoids: Structure,
biosynthesis, and function. Progress in Lipid Research 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
Tomlinson, P. B. 1986. The Botany of Mangroves. Cambridge University Press.
London\
Wiryawidagdo, Sumali. 2007. Kimia & Farmakologi Bahan Alam. Penerbit Buku
Kedokteran EGC. Jakarta
Zhong. J-J. 2011. Plant Secondary Metabolites. Shanghai Jiao Tong University.
Shanghai China
Universitas Sumatera Utara
Alongi, D. M., 2009. Paradigm shifts in mangrove biology. Coastal Wetlands: An
Integrated Ecosystem Approach. Chapter 22
Bandaranayake, W. M., 2002. Bioactivities, bioactive compounds and chemical
constituents of mangrove plants. Wetlands Ecology and Management
10: 421-452
Basyuni, M., Baba, S., KinjoY., Oku H. 2012. Salinity increases the triterpenoid
content of a salt secretor and a non-salt secretor mangrove. Aquatic
Botany 97: 17-23
Basyuni, M. L. A. P. Putri, B. Nainggolan, P. E. Sihaloho. 2014. Growth and
biomass in response to salinity and subsequent fresh water in mangrove
seedlings Avicennia marina and Rhyzophora stylosa. Jurnal Manajemen
Hutan Tropika 20:17-25
Basyuni, M., L.A.P. Putri, H. Oku. 2015. Implication of Landuse and land-cover
change into carbon dioxide emissions in Karang Gading and Langkat
Timur Laut Wildlife Reserve, North Sumatera, Indonesia. Jurnal
Manajemen Hutan Tropika 21: 19-24
Basyuni, M., H. Sagami, S. Baba, H Iwasaki, H. Oku. 2016. Diversity of
Polyisoprenoid in Ten Okinawan mangroves. Dendrobiology 75: 167175
Basyuni, M., Sagami, H., Baba, S., Putri, L A., Oku, H. 2017. Distribution,
occurrence, and cluster analysis of a new plyprenyl acetones and other
polyisoprenoid from North Sumatran mangroves in Indonesia.
Dendrobiology 78:18-31
Bintang, Maria. 2010. Biokimia: Teknik Penelitian. Erlangga. Jakarta
Cantagrel, V., Lefeber, D. J., Ng, B. G., Guan, Z., Silhavy, J. L., Bielas, S. L.,
Lehle, L., Hombauer, H., Adamowicz, M., Swiezewska, E., Brouwer, A
P D., Blumel, P., Sykut-Cegielska, J., Houliston, S., Swistun, D., Ali, A
R, Dobyns, W B, Babovic-Vuksanovic, D., Bokhoven, H V, Wevers, R
A, Raetz, C R H, Freeze, H H, Morava, E., Al-Ghazali, L., Gleeson, J
G. 2010. SRD5A3 is required for converting polyprenol to dolichol and
is mutated in a congenital glycosylation disorder. Cell 142: 203-217
Universitas Sumatera Utara
Giri, C., E. Ochieng, L. L. Tieszen, Z. Zhu, A. Singh, T. Loveland, J. Masck and
N. Duke. 2011. Status and distribution of mangrove forests of the world
using earth observation satellite data. Global Ecology and
Biogeography 20: 154-159
Kania, M. G. Spolnik, A. Jozwiak, M. Ples. S. Ewa, W. Danikiewisz. 2011.
Identification of Polyisoprenoid alcohols and their derivatives in
natural samples by HPLC method coupled with atmospheric pressure
photoionization mass spectrometry. Chemistry and Physics of Lipid
1645: 538-541
Krag, S. S., 1998. Breakthroughs and views the important of being dolichol.
Biochemical and Biophysical Research Communications 243: 1-5
Macnae, W. 1968. A general account of the fauna and flora of mangrove swamps
and forests in the ino-west-pacific region. Adv. mar. Biol. Vol. 6 pp73270
Mastuti, R. 2016. Modul 3: Fisiologi Tumbuhan; Metabolit Sekunder Pertahanan
Tumbuhan. FMIPA Universitas Brawijaya. Malang
Muceniece, R., Namniece, J., Nakurte, I., Jekabsons, K., Riekstina, U., Jansone,
B. 2016. Pharmacological Research on natural substances in Latvia:
Focus on lunasin, botulin, polyprenol and phlorizin. Pharmacological
Research YPHRS-3137; No. of Page 11
Noor, Y. R, M. Khazali, dan I. N. N, Suryadiputra. 2006. Panduan pengenalan
Mangrove di Indonesia. Bogor: PHKA/WI-IP
Oku, H., S. Baba, H. Koga. K. Takara, H. Iwasaki. 2003. Lipid composition of
mangroves and its relevance to salt tolerance. Journal of Plant
Research 116: 37-45
Parida, A. K., A. B. Das. 2005. Salt tolerance and salinity effects on plants.
Ecotoxicology and Environmental Safety 60: 324-349
Rip, J. W., Rupar, C. A., Ravi, K., Carrol, K. K. 1985. Distribution, metabolism,
and function dolichol and polyprenol. Progress Lipid Research 24: 269309
Rohman,
Abdul. 2009. Kromatografi untuk Analisis Obat. Graha
Ilmu.Yogyakarta Saifudin, Azis. 2012. Senyawa Alam Metabolit
Sekunder; Teori, Konsep, dan Teknik Pemurnian. Deepublish.
Yogyakarta
Universitas Sumatera Utara
Sagami, H, A. Kurisaki, K. Ogura, and T. Chojnacki. 1992. Separation of dolichol
from dehydrodolichol by a simple two-plate thin layer chromatography.
Journal of Lipid Research 33:1857-1861
Saifudin, A. 2012. Senyawa Alam Metabolit Sekunder: Teori, Konsep, dan
Teknik Pemurnian. Deepublish. Yogyakarta
Schneider CA, Rasband WS & Eliceiri KW. 2012. NIH Image to ImageJ:25 years
of image analysis. Nature Methods 9 (7): 671-675
Strzalka, K., Szymanska, R., Swiezewska, E., Skorupinska-Tudek, K., Suwalsky,
M. 2009. Tocochromanols, plastoquinone, and polyprenols in selected
plant species from Chilean Patagonia. Acta Biologica Cracoviensia
51/1: 39-44
Sukardjo, S. 1984. Ekosistem Mangrove. Oseana. Volume IX Nomor 4:102-115
Sudha, G. dan G. A., Ravishankar. 2002. Involvement and interaction of various
signaling compounds on the plant metabolic events during defense
response, resistance to stress factors, formation of secondary
metabolites and their molecular aspects. Plant Cell, Tissue and Organ
Culture 71:181-212
Suryono, Ahmad. 2013. Sukses Usaha Pembibitan Mangrove. Pustaka Baru Press.
Yogyakarta
Surmacz, L and E. Swiezewska. 2011. Polyisoprenoids-Secondary metabolites or
physiologically important superlipids. Biochemical and Biophysical
Research Communications 407: 627-632
Swiezewska, E dan W. Danikiewicz, 2005. Polyisoprenoids: Structure,
biosynthesis, and function. Progress in Lipid Research 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
Tomlinson, P. B. 1986. The Botany of Mangroves. Cambridge University Press.
London\
Wiryawidagdo, Sumali. 2007. Kimia & Farmakologi Bahan Alam. Penerbit Buku
Kedokteran EGC. Jakarta
Zhong. J-J. 2011. Plant Secondary Metabolites. Shanghai Jiao Tong University.
Shanghai China
Universitas Sumatera Utara