Chemical and Functional Properties of Food Saccharides

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© 2004 by CRC Press LLC 31. Denes, J.M. et al., Different action patterns for apple pectin methylesterase at pH 7.0 and 4.5, Carbohydr. Res., 327, 385, 2000. 32. Schmelter, T. et al., Enzymatic modifications of pectins and the impact on their rheological properties, Carbohydr. Polym., 47,99, 2002. 33. Perez, S., Mazeau, K., and du Penhoat, C.H., The three-dimensional structures of the pectic polysaccharides, Plant Physiol. Biochem., 38, 37, 2000. 34. Ferry, J.D., Viscoelastic Properties of Polymers, John Wiley & Sons, New York, 1980. 35. Renard, C.M.G.C. and Thibault, J.-F, Structure and properties of apple and sugarbeet pectins extracted by chelating agents, Carbohydr. Res., 244, 99, 1993. 36. Ring, S.G., Ianson, K.J., and Morris, V.J., Static and dynamic light scattering studies of amylose solutions, Macromolecules, 18, 182, 1985. 37. Walkinshaw, M.D. and Arnott, S., Conformations and interactions of pectins. I. Xray diffraction analyses of sodium pectate in neutral and acidified forms, J. Mol. Biol., 153, 1055, 1981. 38. Walkinshaw, M.D. and Arnott, S., Conformations and interactions of pectins. II. Models for junction zones in pectinic acid and calcium pectate gels, J. Mol. Biol., 153, 1075, 1981. 39. Rigby, N.M. et al., Observations on the crystallization of oligogalacturonates, Carbohydr. Res., 328, 235, 2000. 40. Grant, G.T. et al., Biological interactions between polysaccharides and divalent cations: the egg box model, FEBS Lett., 32, 195, 1973. 41. Bulone, D. et al., Role of sucrose in pectin gelation: static and dynamic light scattering experiments, Macromolecules, 35, 8147, 2002. 42. Kohn, R., Ion binding on polyuronates: alginate and pectin, Carbohydr. Res., 42, 371, 1975. 43. Garnier, C., Axelos, M.A.V., and Thibault, J.-F., Selectivity and cooperativity in the binding of calcium ions by pectins, Carbohydr. Res., 240, 219, 1993. 44. Thibault, J.F. and Rinaudo, M., Interactions of mono and divalent counterions with alkali and enzyme deesterified pectins in salt-free solutions, Biopolymers, 24, 2131, 1985. 45. Tibbits, C.W., MacDougall, A.J., and Ring, S.G., Calcium binding and swelling behaviour of a high methoxyl pectin gel, Carbohydr. Res., 310, 101, 1998. 46. Skouri, R. et al., Swelling and elastic properties of polyelectrolyte gels, Macromolecules, 28, 197, 1995. 47. Rubinstein, M. et al., Elastic modulus and equilibrium swelling of polyelectrolyte gels, Macromolecules, 29, 398, 1996. 48. Patel, S.K. et al. Elastic modulus and equilibrium swelling of poly(dimethylsiloxane) networks, Macromolecules, 25, 5241, 1992. 49. MacDougall, A.J. et al., Chlorodeoxy derivatives: swelling behaviour of the tomato cell wall network, Biomacromolecules, 2, 2, 2001.
13 CONTENTS © 2004 by CRC Press LLC Fructans: Occurrence and Application in Food Werner Praznik, Ewa Cie´slik, and Anton Huber 13.1 Introduction 13.2 Occurrence and Analytical Approach to Fructan Crops 13.3 Fructans in Crops: Biosynthesis and Properties 13.4 Fructan Crops 13.4.1 Composites 13.4.2 Chicory (Cichorium intybus L.) 13.4.3 Jerusalem Artichoke (Helianthus tuberosus L.) 13.4.4 Globe Artichoke (Cynara Scolymus L.) 13.4.5 Monocotyledons 13.4.6 Liliaceae 13.4.7 Allium L. Species 13.4.8 Poaceae (Cereals, Grasses) 13.4.9 Asparagaceae 13.4.10 Amaryllidaceae 13.4.11 Agavaceae References 13.1 INTRODUCTION Worldwide, fructans are important components in human nutrition, with slight differences due to geographic and cultural peculiarities. Sprouts of chicory; tubers of Jerusalem artichoke; globes of artichoke, onion, leek, garlic; and sprouts of asparagus are used as vegetables in different ways of preparation. Onion, garlic, and chives are used as spices or taste-providing components in many kinds of food. All the listed cultivars contain fructans in different amounts as reserve carbohydrate. Another source of fructans are caryopses of grasses and flours of wheat, rye, oat, and barley, which contain between 1 and 7% fructans, depending on the degree of fine milling and applied technological processing. As the human intestinal tract lacks enzymes that depolymerize fructans, their metabolic processing is rather low, and thus they may be attributed as dietary fiber materials. Due to this fact, food manufacturers are
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