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Original Articles

Structural and functional properties of pectin extracted from jackfruit (Artocarpus heterophyllus) waste: Effects of drying

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Pages S190-S201 | Received 02 Sep 2016, Accepted 10 Feb 2017, Published online: 16 May 2017

References

  • Herbstreith, Fox, Corporate Group. Pectin a product of nature, 2005, Available in http://www.herbstreith-fox.de/pdf/ehfnatur.
  • Koubala, B.B.; Kansci, G.; Mbome, L.I.; Crépeau, M.J.; Thibault, J.F.; Ralet, M.C. Effect of Extraction Conditions on Some Physicochemical Characteristics of Pectins from “Améliorée” and “Mango” Mango Peels. Food Hydrocolloids 2008, 22(7), 1345–1351.
  • Coma, V. Polysaccharide-Based Biomaterials with Antimicrobial and Antioxidant Properties. Polímeros Ciência E Tecnologia 2010, 20(2), 1–12.
  • Kartal, C.; Unal, M.K.; Otles, S. Production and Stabilization of a Flaxseed Oil Multi-Layer Emulsion Containing Sodium Caseinate and Pectin. International Journal of Food Properties 2016, 19 (6), 1–12.
  • Bagherian, H.; Zokaee, A.F.; Fouladitajar, A.; Mohtashamy, M. Comparisons between Conventional, Microwave- and Ultrasound-Assisted Methods for Extraction of Pectin from Grapefruit. Chemical Engineering and Process Intensification 2011, 50(11–12), 1237–1243.
  • Urias-Orona, V.; Rascón-Chu, A.; Lizardi-Mendoza, J.; Carvajal-Millán, E.; Gardea, A.A.; Ramírez-Wong, B. A Novel Pectin Material: Extraction, Characterization and Gelling Properties. International Journal of Molecular Science 2010, 11(10), 3686–3695.
  • Khule, N.R.; Mahale, N.B.; Shelar, D.S.; Rokade, M.M.; Chaudhari, S.R. Extraction of Pectin from Citrus Fruit Peel and Use as Natural Binder in Paracetamol Tablet. Der Pharmacia Lettre 2012, 4(2), 558–564.
  • Yeoh, S.; Shi, J.; Langrish, T.A.G. Comparisons between Different Techniques for Water-Based Extraction of Pectin from Orange Peels. Desalination 2008, 218(1–3), 229–237.
  • Monsoor, M.A. Effect of Drying Methods on the Functional Properties of Soy Hull Pectin. Carbohydrate Polymer 2005, 61(3), 362–367.
  • Katekhong, W.; Charoenrein, S. Color and Gelling Properties of Dried Egg White: Effect of Drying Methods and Storage Conditions. International Journal of Food Properties 2016, Published online: 19 Oct 2016, 1–12.
  • Drouzas, A.E.; Tsami, E.; Saravacos, G.D. Microwave/Vacuum Drying of Model Fruit Gels. Journal of Food Engineering 1999, 39(2), 117–122.
  • Sundaram, J.; Durance, T.D. Water Sorption and Physical Properties of Locust Bean Gum-Pectin-Starch Composite Gel Dried Using Different Drying Methods. Food Hydrocolloids 2008, 22(7), 1352–1361.
  • Wang, Y.; Li, D.; Wang, L.J.; Li, S.J.; Adhikari, B. Effects of Drying Methods on the Functional Properties of Flaxseed Gum Powders. Carbohydrate Polymer 2010, 81(1), 128–133.
  • Carvajal-Millan, E.; Rascon-Chu, A.; Marquez-Escalante, J.A.; Micard, V.; Leon, N.P.; De, Gardea, A. Maize Bran Gum: Extraction, Characterization and Functional Properties. Carbohydrate Polymer 2007, 69(2), 280–285.
  • Barresi, A.A.; Pisano, R.; Fissore, D.; Rasetto, V.; Velardi, S.A.; Vallan, A.; Parvis, M.; Galan, M. Monitoring of the Primary Drying of a Lyophilization Process in Vials. Chemical Engineering and Processing: Process Intensification 2009, 48(1), 408–423.
  • Jaya, S.; Das, H. A Vacuum Drying Model for Mango Pulp. Drying Technology 2003, 21(7), 1215–1234.
  • Koh, P.C.; Leong, C.M.; Noranizan, M.A. Microwave-Assisted Extraction of Pectin from Jackfruit Rinds Using Different Power Levels. International Food Research Journal 2014, 21(5), 2091–2097.
  • Suhail, M.; Zahariah, H. Extraction and Characterization of Pectin from Various Tropical Agrowastes. ASEAN Food Journal 1995, 10(2), 43–50.
  • Rehman, Z.U.; Salariya, A.M.; Habib, F.; Shah, W.H.. Utilization of Mango Peels as a Source of Pectin. Journal of Chemical Society of Pakistan 2004, 26(1), 73–76.
  • Monsoor, M.A.; Proctor, A. Preparation and Functional Properties of Soy Hull Pectin. Journal of the American Oil Chemists’ Society 2001, 78(7), 709–713.
  • Kalapathy, U.; Proctor, A. Effect of Acid Extraction and Alcohol Precipitation Conditions on the Yield and Purity of Soy Hull Pectin. Food Chemistry 2001, 73(4), 393–396.
  • AOAC. Official Methods of Analysis 13th edition, Association of Official Analytical Chemistry, Washington, DC., UK, 1984, 1018 p.
  • Filisetti-Cozzi, T.M.C.C.; Carpita, N.C. Measurement of Uranic Acids without from Neutral Sugars. Analytical Biochemistry 1991, 197, 157–162.
  • Ibarz, A.; Pagán, A.; Tribaldo, F.; Pagán, J. Improvement in the Measurement of Spectrophotometric Data in the M-Hydroxydiphenyl Pectin Determination Methods. Food Control 2006, 17(11), 890–893.
  • Tze, N.L.; Han, C.P.; Yusof, Y.A.; et al. Physicochemical and Nutritional Properties of Spray-Dried Pitaya Fruit Powder as Natural Colorant. Food Science Biotechnology 2012, 21(3), 675–682.
  • Hausner, H.H. Friction Conditions in a Mass of Metal Powder. International Journal of Powder Metallurgy 1967, 3, 7–13.
  • Carr, R.L. Evaluating Flow Properties of Powders. Chemical Engineering 1965, 72, 116–124.
  • Gnanasambandam, R.; Proctor, A. Determination of Pectin Degree of Esterification by Diffuse Reflectance Fourier Transform Infrared Spectroscopy. Food Chemistry 2000, 68(3), 327–332.
  • Mishra, P.; Mishra, S.; Mahanta, C.L. Effect of Maltodextrin Concentration and Inlet Temperature during Spray Drying on Physicochemical and Antioxidant Properties of Amla (Emblica officinalis) Juice Powder. Food and Bioproduct Processing 2014, 92(3), 252–258.
  • FCC. Food Chemical Codex. 3rd edition, National Academy of Science, Washington, DC., UK, 1981, 518 p.
  • Kravtchenko, T.P.; Voragen, A.G.J.; Pilnik, W. Analytical Comparison of Three Industrial Pectin Preparations. Carbohydrate Polymer 1992, 18(1), 17–25.
  • Thongsombat, W.; Sirichote, A.; Chanthachum, S. The Production of Guava Juice Fortified with Dietary Fiber. Songklanakarin Journal of Science and Technology 2007, 29(1), 187–196.
  • Singh, A.K.; Selvam, R.P.; Sivakumar, T. Isolation, Characterisation and Formulation Properties of a New Plant Gum Obtained from Mangifera indica. International Journal of Biomedical Research 2010, 1(2), 35–41.
  • Malviya, R.; Kulkarni, G.T.. Extraction and Characterization of Mango Peel Pectin as Pharmaceutical Excipient. Polymer in Medicine 2012, 42(3–4), 185–190.
  • Peleg, M.L.; Bagley, E.B. Physical Properties of Foods; AVI Publishers Co.: Westport, CN, 1983.
  • Mirhosseini, H.; Amid, B.T. Effect of Different Drying Techniques on Flowability Characteristics and Chemical Properties of Natural Carbohydrate-Protein Gum from Durian Fruit Seed. Chemistry Central Journal 2013, 7(1), 1.
  • Benković, M.; Bauman, I. Flow Properties of Commercial Infant Formula Powders. World Academy of Science, Engineering and Technology 2009, 54(6), 495–499.
  • Oetjen, G.W.; Haseley, P. Freeze-Drying, 2nd edition, Wiley-VCH Weinheim, Germany; 2004.
  • Krokida, M.K.; Maroulis, Z.B. Effect of Drying Method on Shrinkage and Porosity. Drying Technology 1997, 15(10), 2441–2458.
  • Karel, M. Freeze Dehydration of Foods In Principles of Food Science, Part II: Physical principles of food preservation; Karel, M.; Fennema, O.R.; Lund, D.B.; Eds.; Marcel Dekker, Inc.: New York, USA, 1975; 359–395.
  • Goula, A.M.; Adamopoulus, K.G. Effect of Maltodextrin Addition during Spray Drying of Tomato Pulp in Dehumidified Air: II. Powder Properties. Drying Technology. 2008, 26, 726–737.
  • Kang, O.L.; Yong, P.F.; Maaruf, A.G.; Osman, H.; Nazaruddin, R. Physicochemical and Antioxidant Studies on Oven-Dried, Freeze-Dried and Spray-Dried Agaro-Oligosaccharide Powders. International Food Research Journal 2014, 21(6), 2363–2367.
  • Jinapong, N.; Suphantharika, M.; Jamnong, P. Production of Instant Soymilk Powders by Ultrafiltration, Spray Drying and Fluidized Bed Agglomeration. Journal Food Engineering 2008, 84(2), 194–205.
  • Fitzpatrick, J.J. Particle Properties and the Design of Solid Food Particle Processing Operations. Food and Bioproducts Processing 2007, 85(4), 308–314.
  • Jiang, Y.; Du, Y.; Zhu, X.; Xiong, H.; Woo, M.W.; Hu, J. Physicochemical and Comparative Properties of Pectins Extracted from Akebia Trifoliata Var. Australis Peel. Carbohydrate Polymer 2012, 7(2), 1663–1669.
  • Kacurakova, M.; Capek, P.; Sasinkova, V.; Wellner, N.; Ebringerova, A. FT-IR Study of Plant Cell Wall Model Compounds: Pectic Polysaccharides and Hemicelluloses. Carbohydrate Polymer 2000, 43(2), 195–203.
  • Walter, R.H. The Chemistry and Technology of Pectin Vol. 24; Academic Press: New York, USA, 1991; 197 p.
  • Perez-Munoz, F.; Flores, R.A. Particle Size of Spray-Dried Soymilk. Applied Engineering in Agriculture 1997, 13, 647–652.
  • Liu, L.; Fishman, M.L.; Kost, J.; Hicks, K.B. Pectin-Based Systems for Colon-Specific Drug Delivery via Oral Route. Biomaterials 2003, 24, 3333–3343.
  • Vaidya, A.; Jain, A.; Khare, P.; Agrawal, R.K.; Jain, S.K. Metronidazole Loaded Pectin Microspheres for Colon Targeting. Journal of Pharmaceutical Science 2009, 98(11), 4229–4236.
  • Oakenfull, D.G. The Chemistry of High-Methoxy Pectins. In R.H. Walter (Ed.), The Chemistry and Technology of Pectin; Academic Press: New York, USA, 1991; 88–108.
  • Dickinson, E. An Introduction to Food Colloids; Oxford University Press: Oxford, UK, 1992.

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