Hydrophilic Extracts of the Bark from Six Pinus Species |
Masendra, Masendra
(Department of Forest Products Technology, Faculty of Forestry, Universitas Gadjah Mada)
Ashitani, Tatsuya (Faculty of Agriculture, Yamagata University) Takahashi, Koetsu (Faculty of Agriculture, Yamagata University) Susanto, Mudji (Center for Forest Biotechnology and Tree Improvement Research) Lukmandaru, Ganis (Department of Forest Products Technology, Faculty of Forestry, Universitas Gadjah Mada) |
1 | Masendra, Ashitani, T., Takahashi, K., Lukmandaru, G. 2018b. Triterpenoids and steroids from the bark of Pinus merkusii (Pinaceae), BioResources 13(3): 6160-6170. |
2 | Medeiros, P.M., Simoneit B.R.T. 2007. Analysis of sugars in environmental samples by gas chromatography-mass spectrometry, Journal of Chromatography A 1141: 271-278. DOI |
3 | Miranda, I., Mirra, I., Gominho, J., Pereira, H. 2017. Fractioning of bark of Pinus pinea by milling and chemical characterization of different fraction, Maderas: Cience y Tecnologia 19(2): 185-194. |
4 | Mohareb, A.S.O., Kherallah, I.E.A., Badawy, M.E.I., Salem, M.Z.M., Yousef, H.A. 2017. Chemical composition and activity of bark and leaf extracts of Pinus halepensis and Olea europaea grown in Al-Jabel Al-Akhdar Region, Libya against some plant phytopathogens, Journal of Applied Biotechnology and Bioengineering 3(3): 67-78. |
5 | Molyneux, R.J., Gardner, D.R., James, L.F., Colegate, S.M. 2002. Polyhydroxy alkaloids: Chromatographic analysis, Journal of Chromatography A 967: 57-74. DOI |
6 | Morita, S., Yazaki, Y., Johnson, G.C. 2001. Mycelium growth promotion by water extractives from the inner bark of radiata pine (Pinus radiata D. Don), Holzforschung 55: 155-158. DOI |
7 | Mun, S.P. 2014. Efficacy and reusability of commercial adsorbent for isolation of proanthocyanidin from hot water extract of Pinus radiata bark, Journal of the Korean Wood Science and Technology 42(2): 207-213. DOI |
8 | Mun, S.P., Nicholas, D.D. 2017. Effect of proanthocyanidinrich extracts from Pinus radiata bark on termite feeding deterrence, Journal of the Korean Wood Science and Technology 45(6): 720-727. DOI |
9 | Nordin, A., Uggla C., Nasholm, T. 2001. Nitrogen forms in bark, wood and foliage of nitrogen-fertilized Pinus sylvestris, Tree Physiology 21: 59-64. DOI |
10 | Agustini, B.C., de Lima, D.B., Bonfim, T.M.B. 2014. Composition of amino acids and bioactive amines in common wines of Brazil, Acta Scientiarum 36: 225-233. DOI |
11 | Amalinei, R.L.M., Trifan, A., Cioanca, O., Miron, S.D., Mihai, C.T., Rotinberg, P., Miron, A. 2014. Polyphenol-rich extract from Pinus sylvestris L. bark chemical and antitumor studies, Revista medicochirugicala a Societii de Medici si Naturalisti din lasi 118(2): 551-557. |
12 | Barnes, R.L. 1962. Glutamine synthesis and translocation in pine, Plant Physiology 37: 323-326. DOI |
13 | Cadiz-Gurerrea, M., Fernandez-Arroyo, S., Segura-Carretero, A. 2015. Pine bark and green tea concentrated extracts: antioxidant activity and comprehensive characterization of bioactive compounds by HPLC-ESI-QTOF-MS, International Journal of Molecular Science 15: 20382-20402. DOI |
14 | Diouf, P.N., Stevanovic, T., Cloutier, A. 2009. Antioxidant properties and polyphenol contents of Trembling aspen bark extracts, Wood Science and Technology 43(4): 457-470. DOI |
15 | Eberhardt, T.L. 2012. Impact of industrial source on the chemical composition of Loblolly pine bark, Forest Product Journal 62(7/8): 516-519. DOI |
16 | Fengel, D., Wegener, G. 1989. Wood: Chemistry, Ultrastructure, Reactions; Constituents of Bark. De Gruyter. Pp 240-267, Berlin, Germany. |
17 | Humphreys, F.R. 1956. Determination of tanninformaldehyde in bark, Social Leader Trade Chemist Journal 40: 147-149. |
18 | Kofujita, H., Ettyu, K., Ota, M. 1999. Characterization of the major components in bark from five Japanese tree species for chemical utilization, Wood Science and Technology 33: 223-228. DOI |
19 | Nunes, E., Quilho, T., Pereira, H. 1999. Anatomy and chemical composition of P. pinea L. bark, Annals of Forest Science 56: 479-484. DOI |
20 | Karonen, M., Hamalainen, M., Niemnen, R., Klika, K.D., Loponen, J., Ovcharenko, V.V., Moilanen, E., Pihlaja, K. 2004. Phenolic extractives from the bark of Pinus sylvestris L. and their effects on inflammatory meditors Nitric Oxide and Prostaglandin , Journal of Agriculture Food and Chemistry 52: 7532-7540. DOI |
21 | Krogell, J., Holmbom, B., Pranovich, A., Hemming, J., Willfor, S. 2012. Extraction and chemical characterization of Norway spruce inner and outer bark, Nordic Pulp and Paper Research Journal 27: 6-17. DOI |
22 | Ku, C.S., Jang, J.P., Mun, S.P. 2007. Exploitation of Polyphenol-rich Pine Barks for Antioxidant Activity, Journal of Wood Science 53: 524-528. DOI |
23 | Lee, M.S., Min, J., Si, C.L., Bae, Y.S. 2016. Hydrolysable tannins from Cercidiphyllum japonicum bark, Journal of the Korean Wood Science and Technology 44(4): 559-570. DOI |
24 | Li, Z.J., Chen, S., Yang, X.H., Wang R., Min, H.J., Wu, L., Si, C.L., Bae, Y.S. 2018. Secondary metabolites with anti-complementary activity from the stem barks of Juglans mandshurica Maxim, Journal of the Korean Wood Science and Technology 46(2): 118-124. DOI |
25 | Masendra, Ashitani, T., Takahashi, K., Lukmandaru, G. 2018a. Lipophilic extractives of inner and outer barks from six different Pinus species grown in Indonesia, Journal of Forestry Research 29(5): 1329-1336. DOI |
26 | Hafizoglu, H., Holmborn, B., Reunanen, M. 2002. Chemical composition of lipophilic and phenolic constituents of bark from Pinus nigra, Abies bornmulleriana, and Castanea sativa, Holzforschung 56: 257-260. DOI |
27 | Rohloff, J. 2015. Analysis of phenolic and cyclic compounds in plant using derivatization techniques in combination with GC-MS-based metabolite profiling, Molecules 20: 3431-3462. DOI |
28 | Petersson, G. 1969. Mass spectrometry of alditol as trimethylsilyl derivatives, Tetrahedron 25: 4437-4443. DOI |
29 | Proestos, C,, Komaitis, M. 2013. Analysis of naturally occurring phenolic compounds in aromatic plants by RP-HPLC coupled to diode array detector (DAD) and GC-MS after silylation, Foods 2: 90-99. DOI |
30 | Richard, T., Broadhurst, B., Willian, J.T. 1978. Analysis of condensed tannins using acidified vanillin, Journal of the Science of Food and Agriculture 29: 788-794. DOI |
31 | Umezawa, T. 2001. Wood and cellulosic chemistry: Chemistry of extractives. Hon, D.N.,-S., and Shiraishi, N., New York, pp 213-241. |
32 | Yesil-Celiktas, O., Ganzera, M., Akgun, I., Sevimli, C., Kormaz, K.S., Bedir, E. 2009. Determination of Polyphenolic Constituents and Biological Activities of Bark Extracts from different Pinus Species, Journal of the Science of Food and Agriculture 89: 1339-1345. DOI |
33 | Zarate, E., Boyle, V., Rupprecht, U., Green, S., Villas-Boas, S.G., Baker, P., Pinu, F.R. 2016. Fully automated trimethylsilyl (TMS) derivatisation protocol for metabolite profiling by GC-MS, Metabolites 1-13. |