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Xyloglucan in the Differentiating Xylem of the Populus deltoides M.  

Eom Tae-Jin (Department of Wood Science and Technology, College of Agriculture and Life Sciences, Kyungpook National University)
Park Soung-Bae (Department of Wood Science and Technology, College of Agriculture and Life Sciences, Kyungpook National University)
Publication Information
Journal of Korea Technical Association of The Pulp and Paper Industry / v.37, no.5, 2005 , pp. 25-34 More about this Journal
Abstract
The chemical composition of the differentiating xylem of Populus deltoides M. was investigated and compared with that of sapwood. The cell wall polysaccharides were extracted sequentially from adifferentiating xylem and fractionated with gel chromatography. The sugar composition of each fraction was analyzed with G..C and H.P.L.C. The cell wall of the differentiating xylem is rich with the pectin substance and hemicellulose compared with that of sapwood. The water-extracted polysaccharides from the differentiating xylem were composed mainly of xylose and glucose residues. The sugar composition of some of the fractions in the gel filtration of purified $H_{2}O$ polysaccharide suggest that xyloglucan was extracted with $H_{2}O$ from differentiating xylem. Also, we can supposed that the purified $H_{2}O$ polysaccharide might be xyloglucan from the spectrometric data(IR and NMR) of purified $H_{2}O$ polysaccharide.
Keywords
xyloglucan; differentiating xylem; cell wall polysaccharide; gel chromatography; sugar composition.;
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1 Simson, B.W. and Timell, T.E., Polisaccharides in cambial tissues of Populus tremuloides and Tilia americana, Cellulose Chem. and technol. 12: 79-84 (1978)
2 Macurakova, M., P. Capek, V. Sasinkova, N. Wellner, A. Ebringerova, FT-IR study of cell wall model compounds: pectic polysaccharides and hemicelluloses, Carbohydrate Polymers 43: 195-203 (2002)
3 Kasai, M., Nakagawa, A., Hatae, K., Shimada, A., Role of cell wall components in the hardening of pressure-treated Japanese radish, Nippon Kasei Gakkaishi 50(3): 251-257 (1999)
4 Wistara, Nyoman and Young Raymond A., Phygycal and chemical properties of pulps, Cellulose 6(4): 291-324 (1999)   DOI   ScienceOn
5 Blumenkrantz. N. and Gustav. A.-H.. New method for quantiative determination of uronic acid, Analytical biochemistry 54: 484-489 (1973)   DOI   ScienceOn
6 Simson, B.W. and Timell, T.E., Polisaccharides in cambial tissues of Populus tremuloides and Tilia americana, Cellulose Chem. and technol. 12: 51-62 (1978)
7 Thomas J.R, McNeil, M., Darvill, A.G., Albersheim, P., Structure of Plant Cell Wall, Plant physiol. 83: 659-671 (1987)   DOI   ScienceOn
8 Eom, T.-J, Park, Y.-J., Chemical characteristics of Cell-Wall polysaccharieds in the differentiating xylem of Populus deltoides M., Mokchae Konghak 26(3): 26-32 (1998)
9 Albersheim, P., Talmadge, KW., Keegstra, K., Bauer, WD The structure of plant cell walls(1), Plant Physiol., 51: 158-178 (1973)   DOI   ScienceOn
10 Whitney, Sarah E. C., Gidley, Mike J., McQueen-Mason, Simon J., Plant Journal 22(4): 327-334 (2000)   DOI   ScienceOn
11 Okasnen, T., Buchert, J., Vikarri, L., The role of hemicelluloses in the honification of bleached kraft pulps, Biotechnol. Food Res. 35(2): 134-141 (1997)
12 Eom, T.-J., Meshisuka, G., Nakano, Z., Chemical characteristicsoflignin in the differentiating xylem of a hardwood, Mokuzai gakkaishi 33(7): 576-581 (1987)
13 Edashige, Y., Ishii, T., Hiroi, T., Structure analysis of polysaccharides of primary walls from xylem differentiating zones of crytomeria japonica, Holzforshung 49: 197-202 (1995)   DOI   ScienceOn
14 Albersheim, P., Darvill, A. G., Lau, K. R., Mcneil, J. M., Sharp, M., York, J.K., Structure, function and biosynthesis of plant cell walls, American society ofplant physiologists, USA, PP.19-51 (1984). --65.6 ------34.4137.00.8------2.221
15 Simson, B.W. and Timell, T.E., Polisaccharides in cambial tissues of Populus tremuloides and Tilia americana, Cellulose Chem. and technol. 12: 39-50 (1978)
16 Simson, B.W. and Timell, T.E., Polisaccharides in cambial tissues of Populus tremuloides and Tilia americana, Cellulose Chem. and technol. 12: 63-77 (1978)
17 Shimizu, Y., Hayashi, T., Kawada, T., Sakuno, T., Promotion of pea stem elongation by the fragments of plant cell wall polysaccharides, Mokuzai Gakkaishi 43(2): 121-127 (1997)
18 Rolland F. Sultze, JR, A study of the developing tissues of aspenwood, Tappi 40(12): 985-995 (1957)
19 Simson, B.W. and Timell, T.E., Polisaccharides in cambial tissues of Populus tremuloides and Tilia americana, Cellulose Chem. and technol., 12: 137-141 (1978)
20 Sakurai, N., Yamamoto, R., Katou, Y., Cell wall of plant and polysaccharides, Baihukan, Tokyo, pp 32-47 (1991)