Abstract:
Pectins are soluble dietary fibres that constitute a family of complex polysaccharides present in the primary cell wall and middle lamella of plants. The major sources of commercial pectins are citrus peel and apple pomace. Most pectin is produced by the extraction of the raw material with hot aqueous mineral acid at pH~2. In the food industry, pectins are used as gelling agents, thickeners, and stabilizers. New applications are constantly developing and their use as emulsifiers is one of the latest new-comes. Utilization of by-products of the fruit and vegetable industrialization as source of pectins may contribute to the efficiency of the processes and also to the sustainability of the environment. In the present work, pectins were extracted through different procedures from three unconventional sources and were characterized in their chemical composition and rheological behaviour. Beetroot pectin isolated through cellulase digestion and alkaline pretreatment, presented 54 % (w/w) of uronic acids (UA) and showed low degree of methylation (DM) and acetylation. The aqueous solution of this pectin presented low viscosity and pseudoplastic behaviour in flow. Gels were formed by addition of Ca2+. On the other hand, butternut pectin, isolated through cellulase digestion, also presented 54% (w/w) of UA and a high DM, and in the presence of high sugar concentrations and at low pH, produced viscous solutions with pseudoplastic behaviour. Pectins were also obtained from Japanese plums with water at different temperatures. Those extracted at room temperature contained 56% (w/w) of UA and low DM as well as pseudoplastic behaviour in water. Pectin fraction extracted with boiling water contained 50% of UA and showed high DM. Although the later procedure increased considerably the yield, the extracted pectin showed significant lower apparent viscosity in water, in spite of its high molecular weight. The isolating procedures assayed permitted the extraction of pectin enriched fractions from non-conventional sources with interesting yields and diverse rheological characteristics. © 2014 Nova Science Publishers, Inc.
Registro:
| Documento: |
Parte de libro
|
| Título: | Chemical composition and rheological behaviour of pectins from unconventional sources |
| Autor: | Eliana Noemí Fissore; Basanta, F.; Calvache, J.E.N.; Ana María Rojas; Gerschenson, L.N. |
| Filiación: | School of Natural and Exact Sciences (FCEN), Buenos Aires University (UBA), Ciudad Universitaria, Ciudad Autónoma de Buenos Aires, Argentina
National Scientific and Technical Research Council, Argentina (CONICET), Argentina
|
| Año: | 2014
|
| Página de inicio: | 187
|
| Página de fin: | 201
|
| Título revista: | Pectin: Chemical Properties, Uses and Health Benefits
|
| Título revista abreviado: | Pectin: Chem. Prop., Uses and Health Benef.
|
| Registro: | https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97816332_v_n_p187_ElianaNoemiFissore |
Referencias:
- Basanta, M.F., Ponce, N.M.A., Rojas, A.M., Stortz, C.A., Effect of extraction time and temperature on the characteristics of loosely bound pectins from Japanese plum (2012) Carbohydrate Polymers, 89, pp. 230-235
- Brett, C.T., Waldron, K.W., (1996) The physiology and biochemistry of plant cell walls, pp. 26-32. , 2nd edn. Chapman and Hall, London
- Carpita, N.C., Mc Cann, M.C., The cell wall (2000) American Society of Plant Physiologists, pp. 52-108. , Biochemistry & Molecular Biology of Plants. Buchanan BB, Gruissem W, Jones R (Eds.)
- Doublier, J.L., Launay, B., Cuvelier, G., Viscoelastic properties of food gels (1992) Viscoelastic properties of food, , MA Rao & JF Steffe (Eds.), Elsevier Applied Science, New York
- Edashige, Y., Murakami, N., Tsujita, T., Inhibitory effect of pectin from the segment membrane of citrus fruits on lipase activity (2008) Journal of Nutritional Science and Vitaminology, 54 (5), pp. 409-415
- Fissore, E.N., Rojas, A.M., Gerschenson, L.N., Williams, P.A., Butternut and beetroot pectins: Characterization and functional properties (2013) Food Hydrocolloids, 31, pp. 172-182
- Fissore, E., Rojas, A.M., Gerschenson, L.N., Rheological performance of pectin enriched products isolated from red beet (Beta vulgaris L. var. conditiva) through alkaline and enzymatic treatments (2012) Food Hydrocolloids, 26 (1), pp. 249-260
- Fissore, E., Ponce, N., Matkovic, L., Stortz, C., Rojas, A.M., Gerschenson, L., Isolation of pectin enriched products from red beet (Beta vulgaris L. var. conditiva) wastes: composition and functional properties (2011) Food Science and Technology International, 17 (6), pp. 517-527
- Fissore, E., Ponce, N., de Escalada Pla, M., Stortz, C., Rojas, A.M., Gerschenson, L., Characterization of acid-extracted pectin-enriched products obtained from red beet (Beta vulgaris L. var. conditiva) and butternut (Cucurbita moschata Duch ex Poiret) (2010) Journal of Agricultural and Food Chemistry, 58 (6), pp. 3793-3800
- Fissore, E.N., Matkovic, L., Wider, E., Rojas, A.M., Gerschenson, L.N., Rheological properties of pectins isolated from butternut (Cucurbita moschata Duch ex Poiret) (2009) LWT-Food Science and Technology, 42 (8), pp. 1413-1421
- Fissore, E.N., Ponce, N.M., Stortz, C.A., Rojas, A.M., Gerschenson, L.N., Characterization of fibre obtained from pumpkin (Cucumis moschata Duch) mesocarp through enzymatic treatment (2007) Food Science and Technology International, 16 (1), pp. 1-7
- Fry, S.C., Cross-linking of matrix polymers in the growing cell walls of angiosperms (1986) Annual Review of Plant Physiology, 37, pp. 165-186
- Fu, J.T., Rao, M.A., Rheology and structure development during gelation of lowmethoxyl pectin gels: the effect of sucrose (2001) Food Hydrocolloids, 15, pp. 93-100
- Hokputsa, S., Gerddit, W., Pongsamart, S., Inngjerdingen, K., Heinze, T., Koschella, A., Harding, S.E., Paulsen, B.S., Water-soluble polysaccharides with pharmaceutical importance from Durian rinds (Durio zibethinus Murr.): isolation, fractionation, characterisation and bioactivity (2004) Carbohydrate Polymers, 56 (4), pp. 471-481
- Izydorczyk, M., Cui, S.W., Wang, Q., Polysaccharide gums: structures, functional properties, and applications (2005) Food carbohydrates: Chemistry, physical properties and applications., , SW Cui (Ed.), London: Taylor & Francis, United Kingdom
- Jackson, C.L., Dreaden, T.M., Theobald, L.K., Tran, N.M., Beal, T.L., Eid, M., Gao, M.Y., Mohnen, D., Pectin induces apoptosis in human prostate cancer cells: correlation of apoptotic function with pectin structure (2007) Glycobiology, 17 (8), pp. 805-819
- Joesten, M.D., Schaad, L.J., (1974) Hydrogen Bonding, p. 182. , Marcel Dekker: New York
- Joye, D.D., Luzio, G.A., Process for selective extraction of pectins from plant material by different pH (2000) Carbohydrate Polymers, 43, pp. 337-342
- Kravtchenko, T.P., Arnould, I., Voragen, A.G.J., Pilnik, W., Improvement of the selective depolymerization of pectic substances by chemical β-elimination in aqueous solution (1992) Carbohydrate Polymers, 19 (4), pp. 237-242
- Kumar, A., Chauhan, G.S., Extraction and characterization of pectin from apple pomace and its evaluation as lipase (steapsin) inhibitor (2010) Carbohydrate Polymers, 82 (2), pp. 454-459
- Kurita, O., Fujiwara, T., Yamazaki, E., Characterization of the pectin extracted from citrus peel in the presence of citric acid (2008) Carbohydrate Polymers, 74, pp. 725-730
- Lapasin, R., Pricl, S., (1995) Rheology of industrial polysaccharides. Theory and applications, , London: Chapman & Hall, Blackie Academic and Professional
- Li, L., Thermal gelation of methylcellulose in water: scaling and thermoreversibility (2002) Macromolecules, 35, pp. 5990-5998
- Lim, J., Yoo, J., Ko, S., Lee, S., Extraction and characterization of pectin from Yuza (Citrus junos) pomace: A comparison of conventional-chemical and combined physicalenzymatic extractions (2012) Food Hydrocolloids, 29, pp. 160-165
- MacDougall, A.J., Ring, S.G., Pectic polysaccharides (2004) Chemical and functional properties of food saccharides, , P Tomasik (Ed.), USA: CRC Press LLC
- Mohnen, D., Pectin structure and biosynthesis (2008) Current Opinion in Plant Biology, 11, pp. 266-277
- Morris, G.A., Ralet, M.C.A., Copolymer analysis approach to estimate the neutral sugar distribution of sugar beet pectin using size exclusion chromatography (2012) Carbohydrate Polymers, 87 (2), pp. 1139-1143
- Nangia-Makker, P., Hogan, V., Honjo, Y., Baccarini, S., Tait, L., Bresalier, R., Raz, A., Inhibition of human cancer cell growth and metastasis in nude mice by oral intake of modified citrus pectin (2002) Journal of the National Cancer Institute, 94 (24), pp. 1854-1862
- Parker, M.L., Waldron, K.W., Texture of Chinese water chestnut: involvement of cell wall phenolics (1995) Journal of the Science of Food and Agriculture, 68, pp. 337-346
- Pérez, S., Rodríguez-Carvajal, M.A., Doco, T., A complex plant cell wall polysaccharide: rhamnogalacturonan II. A structure in quest of a function (2003) Biochimie, 85, pp. 109-121
- Ross-Murphy, S.B., Rheological Methods (1994) Physical Techniques for the Study of Food Biopolymers, pp. 343-393. , SB Ross-Murphy (Ed.), London: Blackie Academic & Professional, Chapman & Hall
- Santos, J.D.G., Espeleta, A.F., Branco, A., De Assis, S.A., Aqueous extraction of pectin from sisal waste (2013) Carbohydrate Polymers, 92, pp. 1997-2001
- Savary, B.J., Hotchkiss, A.T., Fishman, M.L., Cameron, R.G., Shatters, R., Development of a Valencia orange pectin methyl esterase for generating novel pectin products (2003) Advances in pectin and pectinase research, pp. 345-361. , F Voragen, H Schols & R Visser (Eds.), The Netherland: Kluwer Academic Publishers
- Schröder, R., Nicolas, P., Vincent, S.J.F., Fischer, M., Reymond, S., Redgwell, R.J., Purification and characterisation of a galactoglucomannan from kiwifruit (Actinidia deliciosa) (2001) Carbohydrate Research, 331, pp. 291-306
- Seggiani, M., Puccini, M., Pierini, M., Giovando, S., Forneris, C., Effect of different extraction and precipitation methods on yield and quality of pectin (2009) International Journal of Food Science and Technology, 44, pp. 574-580
- Strasser, G.R., Amadó, R., Pectic substances from red beet (Beta vulgaris conditiva). Part I. Structural analysis of rhamnogalacturonan I using enzymic degradation and methylation analysis (2001) Carbohydrate Polymers, 44 (1), pp. 63-70
- Vincken, J.P., Schols, H.A., Oomen, R.J.F.J., McCann, M.C., Ulvskov, P., Voragen, A.G.J., Visser, R.G.F., If homogalacturonan were a side chain of rhamnogalacturonan I. Implications for cell wall architecture (2003) Plant Physiology, 132, pp. 1781-1789
- Waldron, K.W., Ng, A., Parker, M.L., Parr, A.J., Ferulic acid dehydrodimers in the cell walls of Beta vulgaris and their possible role in texture (1997) Journal of the Science of Food and Agriculture, 74 (2), pp. 221-228
- Willats, W.G.T., Knox, J.P., Mikkelsen, J.D., Pectin: New into an Insights old polymer are starting to gel (2006) Trends in Food Science & Technology, 17, pp. 97-104
- Yamada, H., Contribution of pectins on health care (1996) Progress in Biotechnology, 14, pp. 173-190
- Yapo, B.M., Pectic substances: From simple pectic polysaccharides to complex pectins A new hypothetical model (2011) Carbohydrate Polymers, 86, pp. 373-385
- Yapo, B.M., Biochemical characteristics and gelling capacity of pectin from yellow passion fruit rind as affected by acid extractant nature (2009) Carbohydrate Polymers, 98, pp. 750-753
- Yuting, X., Lifen, Z., Yakufu, B., Zhi, G., Tian, D., Xingqian, Y., Donghong, L., Effects of ultrasound and/or heating on the extraction of pectin from grapefruit peel (2014) Journal of Food Engineering, 126, pp. 72-81
Citas:
---------- APA ----------
Eliana Noemí Fissore, Basanta, F., Calvache, J.E.N., Ana María Rojas & Gerschenson, L.N.
(2014)
. Chemical composition and rheological behaviour of pectins from unconventional sources. Pectin: Chemical Properties, Uses and Health Benefits, 187-201.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97816332_v_n_p187_ElianaNoemiFissore [ ]
---------- CHICAGO ----------
Eliana Noemí Fissore, Basanta, F., Calvache, J.E.N., Ana María Rojas, Gerschenson, L.N..
"Chemical composition and rheological behaviour of pectins from unconventional sources"
. Pectin: Chemical Properties, Uses and Health Benefits
(2014) : 187-201.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97816332_v_n_p187_ElianaNoemiFissore [ ]
---------- MLA ----------
Eliana Noemí Fissore, Basanta, F., Calvache, J.E.N., Ana María Rojas, Gerschenson, L.N..
"Chemical composition and rheological behaviour of pectins from unconventional sources"
. Pectin: Chemical Properties, Uses and Health Benefits, 2014, pp. 187-201.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97816332_v_n_p187_ElianaNoemiFissore [ ]
---------- VANCOUVER ----------
Eliana Noemí Fissore, Basanta, F., Calvache, J.E.N., Ana María Rojas, Gerschenson, L.N.. Chemical composition and rheological behaviour of pectins from unconventional sources. Pectin: Chem. Prop., Uses and Health Benef. 2014:187-201.
Available from: https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97816332_v_n_p187_ElianaNoemiFissore [ ]
