Commenced in January 2007
Frequency: Monthly
Edition: International
Paper Count: 33093
Effect on Nutritional and Antioxidant Properties of Yellow Noodles Substituted with Different Levels of Mangosteen (Garcinia mangostana) Pericarp Powder
Authors: Mardiana Ahamad Zabidi, Nurain Abdul Karim, Nur Shazrinna Sazali
Abstract:
Mangosteen (Garcinia mangostana) pericarp is considered as agricultural waste and not fully utilized in food products. It is widely reported that mangosteen pericarp contains high antioxidant properties. The objective of this study is to develop novel yellow alkaline noodle (YAN) substituted with different levels of mangosteen pericarp powder (MPP). YAN formulation was substituted with different levels of MPP (0%, 5%, 10% and 15%). The effect on nutritional and antioxidant properties was evaluated. Higher substitution levels of MPP resulted in significant increase (p<0.05) of ash, fibre, specific mineral elements and antioxidant properties (total phenolic, total flavonoid, anthocyanin and DPPH) than control sample.Keywords: Yellow alkaline noodle, mangosteen pericarp powder, proximate composition, antioxidant properties.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1105847
Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 2689References:
[1] M. A. Shibata, M. Iinuma, J. Morimoto, H. Kurose, K. Akamatsu, Y. Okuno, Y. Akao, Y. Otsuki (2011). α-Mangostin Extracted From the Pericarp of the Mangosteen (Garcinia mangostana Linn.) Reduces Tumor Growth and Lymph Node Metastasis in an Immunocompetent Xenograft Model of Metastatic Mammary Cancer Carrying a p53 Mutation. BMC Medicine, 9:69, 1 – 18.
[2] C. Fu, A. E. K. Loo, F. P. P. Chia, D. Huang (2007). Oligomeric Proanthocyanidins from Mangosteen Pericarps. Journal of Agricultural and Food Chemistry, 55, 7689 – 7694.
[3] D. Obolskiy, I. Pischel, N. Siriwatanametanon, M. Heinrich (2009). Garcinia mangostana L.: A Phytochemical and Pharmacological Review. Phytotherapy Research, 23, 1047 – 1065.
[4] M. A. Haleem, K. L. Barton, G. Borges, A. Crozier, A. S. Anderson (2008). Increasing Antioxidant intake from fruits and vegetables: Practical Strategies for the Scottish Population. Journal of Human Nutrition and Dietetics, 21, 539 – 546.
[5] J. Pedraza-Chaverri,, N. Cárdenas-Rodríguez, M. Orozoco-Ibarra, and J. M. Pérez-Rojas, (2008). Medicinal properties of mangosteen (Garcinia mangostana). Food and Chemical Toxicology, 46, 3227–3239.
[6] L. H. McKee and T. A. Latner (2000). Underuitilized sources of dietary fiber: A review. Plant Foods for Human Nutrition, 55, 285-304.
[7] V. M. Dembitsky, S. Poovarodom, H. Leontowicz, M. Leontowicz, S. Vearasilp, S. Thrakhternberg, S. Gorinstein (2011). The Multiple Nutrition Properties of Some Exotic Fruits: Biological Activity and Active Metabolites. Food Research International, 44 1671 – 1701.
[8] F. H. Nielsen (Chapter 8: Trace mineral deficiencies. In: Handbook of Nutrition and Food, C. D. Berdanier, J. Dwyer, E. B. Feldman (Eds.). CRC Press, Boca Raton. Florida, USA, pp.159 - 173
[9] G. G. Bellido, D. W. Hatcher (2010). Ultrasonic Characterization of Fresh Yellow Alkaline Noodle. Food Research International, 43, 701 – 708.
[10] D. W. Hatcher, S. Lagasse, J. E. Dexter, B. Rossnagel, M. Izydorczyk (2005). Quality Characteristics of Yellow Alkaline Noodles Enriched with Hull-less Barley Flour. Cereal Chemistry, 82(1), 60 -69.
[11] C. L. Choo, N. A. A. Aziz (2010). Effects of Banana Flour and β-glucan on the Nutritional and Sensory Evaluation of Noodles. Food Chemistry, 119(1), 34 – 40.
[12] J. L. Collins, P. Pangloli (1997). Chemical, Physical and sensory attributes of Noodles with Added Sweet Potato and Soy Flour. Journal of Food Science, 62(3), 622 – 625.
[13] J. E. Kruger, M. H. Anderson, J. E. Dexter (1994). Effect of Flour Refinement on Raw Cantonese Noodle Colour and Texture. Cereal Chemistry, 71(2), 177 – 182.
[14] AACC (2000). Approved Methods of the American Association of Cereal Chemists. Inc. (10th ed.). St. Paul, Minnesota.
[15] AOAC (2011). Official Methods of Analysis of AOAC International (19th ed.). Association of Official Analytical Chemists, Arlington, Virgina.
[16] L. L. Yu, K. K. Zhou, J. Party (2005). Antioxidant Properties of Coldpressed Black Caraway, Carrot, Cranberry and Hemp Seed Oils. Food Chemistry. 91, 723 – 729.
[17] B. de Ancos, E. M. González, M. P. Cano (2000). Ellagic Acid, Vitamin C, and Total Phenolic Contents and Radical Scavenging Capacity Affected by Freezing and Frozen Storage in Raspberry Fruit. Journal of Agriculture and Food Chemistry, 48, 4565 – 4570.
[18] M. F. Abu Bakar, M. Mohamed, A. Rahmat, J. Fry (2009). Phytochemicals and antioxidant activity of different parts of bambangan (Mangifera pajang) and tarap (Artocarpus odoratissimus). Food Chemistry, 113, 479 – 483.
[19] G. G. Hou, S. Otsubo, H. Okusu, L. Shen (2010). Chapter 5: Noodle Processing Technology. In: Asian Noodles: Science, Technology and Processing, G. G. Hou (ed.), John Wiley & Sons, New Jersey, pp. 99 – 140.
[20] R. S. Kadan, M. G. Robinson, D. P. Thibodeaux, A. B. Pepperman Jr. (2001). Texture and other physicochemical properties of whole rice bread. Journal of Food Science, 66(7), 940-944.
[21] F. Saura-Calixto, J. Pérez-Jiménez, I. Goñi (2010). Dietary Fibre and Associated Antioxidants in Fruit and Vegetables. In: Fruit and Vegetables Phytochemicals: Chemistry, Nutritional Value and Stability. L. A. de la Rosa, E. Alvarez-Parrilla, G. A. González-Aguilar (Eds). Wiley-Blackwell, Iowa, USA. pp 223.
[22] SCUC (2006). Southampton Centre For Underutilised Crops. Mangosteen, Garcinia mangostana. Field Manual for Extension Workers and Farmers. ICUC, Southampton, UK.
[23] Y. Ge, A. Sun, Y. Ni, T. Cai (2001). Study and development of a defatted wheat germ nutritive noodle. European Food Research International, 212(3), 344 – 348.
[24] G. A. Agbor, J. E. Oben, J. Y. Ngogang, C. Xinxing, J. A. Vinson (2005). Antioxidant capacity of some herbs/spices from Cameroon: A comparative study of two methods. Journal of Agricultural and Food Chemistry, 53, 6819 – 6824.
[25] A. Chaovanalikit, A. Mingmuang, T. Kitbunluewit, N.Choldumrongkool, J. Sondee, S. Chupratum (2012). Anthocyanin and total phenolics content of mangosteen and effect of processing on the quality of mangosteen products. International Food Research Journal, 19(3), 1047 – 1053.
[26] C. L. Choo, A. A. Noor Aziah (2010). Effects of banana flour and β- glucan on the nutritional and sensory evaluation of noodles. Food Chemistry, 119: 34 – 40.
[27] I. Khan, A. Yousif, S. K. Johnson, S. Gamlath (2013). Effect of sorghum flour addition on resistant starch content, phenolic profile and antioxidant activity of durum wheat pasta. Food Research International, 54, 578 – 586.
[28] J. A. Gallegos-Infante, N. E. Rocha-Guzman, R. F. Gonzalez-Laredo, L. A. Ochoa-Martinez, N. Corzo, L. A. Bello-Perez, L. E. Peralta-Alvarez (2010). Quality of spaghetti pasta containing Mexican common bean flour (Phaseolus vulgaris L.). Food Chemistry, 119, 1544 – 1549.
[29] C. Pothirat, N. Petsuk, A. Deesomchok (2009). Clinical characteristic, management in real world practice and long term survival among COPD patients of northern Thailand COPD Club members. Journal of Medical Association Thailand, 90, 653 – 662.
[30] C. T. Du, F. J. Francis (1977). Anthocyanins of mangosteen Garcinia mangostana. Journal of Food Science, 42, 1667.
[31] S. L. Jothy, Z. Zuraini, S. Sasidharan, (2011). Phytochemicals screening, DPPH free radical scavenging and xanthine oxidase inhibitory activities of Cassia fistula seeds extract. Journal of Medicinal Plant Research, 5 (10), 1941 – 1947.
[32] M. Boroski, C. de Aguiar, J. S. Boeing, E. M. Rotta, C. L. Wibby, E. G. Bonafé, N. E. de Souza, J. V. Visentainer (2011). Enhancement of pasta antioxidant activity with oregano leaf and carrot leaf. Food Chemistry. 125, 696 – 700.
[33] A. Z. Mardiana, M. J. Nur Rahimah, B. Aishah (2012). Effects of Partial Substitution of Carrot Pomace (Daucus carota) Flour on Nutritional and Sensory Properties in Spaghetti. Proceedings in International Conference on Food Safety and Nutrition (ICFSN 2012), Sabah, Malaysia. pp. 281 – 292.