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http://dx.doi.org/10.9799/ksfan.2017.30.1.019

Quality Characteristics of Noodles with added Germinated Black Quinoa Powder  

Seol, Honey (Dept. of Traditional Dietary Life, Graduate School of Traditional Culture and Arts, Sookmyung Women's University)
Sim, Ki Hyeon (Dept. of Traditional Dietary Life, Graduate School of Traditional Culture and Arts, Sookmyung Women's University)
Publication Information
The Korean Journal of Food And Nutrition / v.30, no.1, 2017 , pp. 19-30 More about this Journal
Abstract
In this study, the quality characteristics of noodles containing different amounts of germinated black quinoa were investigated. The powder of black quinoa with the highest antioxidative activation was selected; and composite flour was prepared with 0%, 5%, 10%, 15%, and 20% of germinated black quinoa powder to produce the noodles. We evaluated the quality and sensory characteristics of the noodles, including pH, salinity, water absorption rate, volumetric expansion rate, turbidity, chromaticity, extensibility, and texture. With regards to the quality characteristics of noodles with added germinated black quinoa, the pH and salinity decreased with increasing percentage of added germinated black quinoa (p<0.001). Increasing the percentage of added germinated black quinoa resulted in decreased water absorption (p<0.01) and volumetric expansion rates and increased turbidity of the cooked noodles (p<0.001). In terms of the chromaticity, L and b values decreased and a value increased with the increasing percentage of added germinated black quinoa (p<0.001). For the texture, hardness (p<0.001), adhesiveness (p<0.01), springiness (p<0.01), chewiness (p<0.001), gumminess (p<0.001), and cohesiveness (p<0.05) decreased as the percentage of added germinated black quinoa increased; while extensibility (p<0.001) increased. Consumer testing results indicated that the noodles with 15% of added germinated black quinoa showed the best results. Collectively, the evaluation of quality characteristics and consumer acceptability indicated that adding 15% of germinated black quinoa to produce noodles is optimal.
Keywords
black quinoa; germination; gluten free; noodle; quality characteristics; consumer acceptability;
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Times Cited By KSCI : 16  (Citation Analysis)
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1 Simone FD, Dini A, Pizza C, Saturnino P, Schettino O. 1990. Two flavonol glycosides from Chenopodium quinoa. Phytochem 29:3690-3692   DOI
2 Tang Y, Li X, Zhang B, Chen PX, Liu R, Tsao R. 2015. Characterisation of phenolics, betanins and antioxidant activities in seeds of three Chenopodium quinoa Willd. genotypes. Food Chem 166:380-388   DOI
3 Toyokawa H, Rubenthaler GL, Powers JR, Schanus EG. 1989. Japanese noodle qualities. I. Flour components. Cereal Chem 66:382-386
4 Yoo MJ, Kim YS, Shin DH. 2004. Comparative study on growth of spoilage microorganisms in mungbean and soy-bean sprout. J Food Hyg Safety 19:25-30
5 Zuniga LE. 2016. Antioxidant activity and physicochemical properties of quinoa (Chenopodium quinoa) seeds cultivated in Ecuador. MS Thesis, Chonbuk National Univ. Jeonju. Korea
6 Caperuto LC, Amaya-Farfan J, Camargo CRO. 2000. Performance of quinoa (Chenopodium quinoa Willd) flour in the manufacture of gluten-free spaghetti. J Sci Food Agric 81:95-101
7 Atwell WA, Patrick BM, Johnson LA, Glass RW. 1983. Characterization of quinoa starch. Cereal Chem 60:9-11
8 Bae YH, Park HW, Park HO, Jeong HS, Choi EJ, Chae IS. 2003. The Food and Cookery Science. pp.80-104. Kyomunsa
9 Brand-Miller J, Foster-Powell K, Colagiuri S. 2002. The New Glucose Revolution. pp.3-28. Hodder Headline Australia.
10 Carciochi RA, Manrique GD, Dimitrov K. 2014. Change in phenolic composition and antioxidant activity during germination of quinoa seeds (Chenopodium quinoa Willd.). Int Food Res J 21:767-773
11 Chlopicka J, Pasko P, Gorinstein S, Jedryas A, Zagrodzki P. 2012. Total phenolic and total flavonoid content, antioxidant activity and sensory evaluation of pseudocereal breads. Food Sci Technol 46:548-555
12 Choi HS. 2011. Effect of adding amaranth powder on noodle quality. Korean J Food & Nutr 24:664-669   DOI
13 Elgeti D, Nordlohne SD, Foste M, Linden MH, Heinz V, Jekle M, Becker T. 2014. Volume and texture improvement of glutenfree bread using quinoa white flour. J Cereal Sci 59:41-47   DOI
14 Choi MH, Chang HG, Kim JS, Kim WJ, Chung HJ. 2005. Effects of germinated whole soy flour on the properties of dough and noodle. Korean J Food Cookery Sci 21:919-926
15 Diaz JMR, Kirjoranta S, Tenitz S, Penttilä PA, Serimaa R, Lampi AM, Jouppila K. 2013. Use of amaranth, quinoa and kañiwa in extruded corn-based snacks. J Cereal Sci 58:59-67   DOI
16 Dini I, Tenore G, Dini A. 2004. Phenolic constituents of kancolla seeds. Food Chem 84:163-168   DOI
17 Graf BL, Poulev A, Kuhn P, Grace MH, Lila MA, Raskin I. 2014. Quinoa seeds leach phytoedysteroid and other compounds with anti-diabetic properties. Food Chem 163:178-185   DOI
18 Foste M, Nordlohne SD, Elgeti E, Linden MH, Heinz V, Jekle M, Becker T. 2014. Impact of quinoa bran on gluten-free dough and bread characteristics. European Food Res Technol 239:767-775   DOI
19 Goh HK. 2016. Physicochemical and physiological properties of quinoa by germination and heat treatments. MS Thesis, Gachon Univ. Seongnam. Korea
20 Gomez-Caravaca AM, Iafelice G, Verardo V, Marconi E, Maria FC. 2014. Influence of pearling procedd on phenolic and saponin content in quinoa (Chenopodium quinoa Willd.). Food Chem 157:174-178   DOI
21 Guantian L, Sunan W, Fan Z. 2015. Physicochemical properties of quinoa starch. Carbohydr Polym 137:328-338
22 Ha YM, Park YG. 2011. Quality characteristics of noodles added with domestic germinated barley. Korea J Food Preserv 18:131-142   DOI
23 Han SM, Han JA. 2011. Preparation and characterization of wet noodle containing germinated small black bean flour. Korean J Food Sci Technol 43:597-602   DOI
24 Heo SJ, Jeon SY, Lee SY. 2014. Utilization of Lentinus edodes mushroom ${\beta}$-glucan to enhance the functional properties of gluten-free rice noodles. LWT-Food Sci Technol 55:627-631   DOI
25 Hirose Y, Fujita T, Ishii T, Ueno N. 2010. Antioxidative properties and flavonoid composition of Chenopodium quinoa seed cultivated in Japan. Food Chem 119:1300-1306   DOI
26 Iglesias-Puig E, Monedero V, Haros M. 2015. Bread with whole quinoa flour and bifidobacterial phytases increases dietary mineral intake and bioavailability. LWT-Food Sci Technol 60:71-77   DOI
27 Jung BM. 2010. Quality characteristics and storage properties of wet noodle with added Cheonnyuncho fruit powder. Korean J Food Cookery Sci 26:821-830
28 Islas-Rubio AR, Barca AMC, Abrera-Chavez F, Cota-Gastelum AG, Beta T. 2014. Effect of semolina replacement with a raw: popped amaranth flour blend on cooking quality and texture of pasta. LWT-Food Sci Technol 57:217-222   DOI
29 Jin HJ, Kim CS. 2015. Analysis for factors on buying decision making by female college and graduate students toward glutenfree food. Korea Food Marketing Res 32:1-29
30 Joo SY, Choi HY. 2012. Antioxidant activity and quality characteristics of cookies with chestnut inner shell. Korean J Food Nutr 25:224-232   DOI
31 Jung K, Richter J, Kabrodt K, Lucke IM, Schellenberg I, Herrling TH. 2006. The antioxidative power AP-A new quantitative time dependant (2D) parameter for determination of the antioxidant capacity and reactivity of different plants. Spectrochim Act Part A 63:846-850   DOI
32 Kaur I, Tanwar B, Reddy M, Chauhan A. 2016. Vitamin C, total polyphenols and antioxidant activity in raw, domestically processed and industrially processed Indian Chenopodium quinoa seeds. J Appl Pharm Sci 6:139-145
33 Kim AN. 2016. A study on the quinoa by different preparation methods and its application to food. MS Thesis, Kyung Hee Univ. Seoul. Korea
34 Kim GM, Kim HG, Hong JY, Choi YJ, Nam HS, Shin SR. 2015. Quality characteristics of noodle added with Aster scaber extracts solution and powder. Korea Soc Food Preserv 22:328-334   DOI
35 Kim MJ, Park JE, Park SH, Han JS, Choi JH, Lee HS. 2015. Quality characteristics of noodles supplemented with dried Beta vulgaris L. root powder. J Korean Soc Food Sci Nutr 44:302-306   DOI
36 Kim SE. 2016. Characteristics of rice gangjung with added quinoa. MS Thesis, Sejong Univ. Seoul. Korea
37 Konishi Y, Hirano S, Tsuboi H, Wada M. 2004 Distribution of minerals in quinoa (Chenopodium quinoa Willd.) seeds. Biosci Biotechnol Biochem 68:231-234   DOI
38 Kim SH, Jung BM. 2013. Quality characteristics of noodles containing various levels of flowering cherry (Prunus serrulata L. var. spontanea Max. Wils.) fruit powder. Korean J Food Cookery Sci 29:19-28   DOI
39 Kim YS. 1998. Quality of wet noodle prepared with wheat flour and mushroom powder. Korean J Food Sci Technol 30:1373-1380
40 Kong SH, Lee JS. 2010. Quality characteristic and change in GABA content and antioxidant activity of noodle prepared with germinated brown rice. J Korean Soc Food Sci Nutr 39:274-280   DOI
41 Koziol M. 1993. Quinoa: A Potential New Oil Crop New Crops. pp.143-161. Wiley
42 Lee HA, Nam ES, Park SI. 2003. Effect of maesil (Prunus mume) juice on antimicrobial activity and shelf-life of wet noodle. Korean J Food Culture 18:428-436
43 Lee JH. 2007. New beneficial crops amaranth and quinoa for food nutritional source. Food Indust Nutr 12:29-36
44 Lee JY, Lee WJ. 2011. Quality characteristics of germinated brown rice flour added noodles. J Korean Soc Food Sci Nutr 40:981-985   DOI
45 Lee MJ. 2015. Antioxidant and biological activities of quinoa cultivated in different areas. MS Thesis, Sookmyung Women's Univ. Seoul. Korea
46 Lee YT, Jung JY. 2003. Quality characteristics of barley ${\beta}$-glucan enriched noodles. Korean J Food Sci Technol 35:405-409
47 Nam SW, Kim E, Kim MR. 2015. Physicochemical quality of functional gluten-free noodles added with nondigestible maltodextrin. J East Asian Soc Dietary Life 25:681-690   DOI
48 Alvarez JL, Wijngaard H, Arendt EK, Gallagher E. 2010. Polyphenol composition and in vitro antioxidant activity of amaranth, quinoa buckwheat and wheat as affected by sprouting and baking. Food Chem 119:770-778   DOI
49 Ando H, Chen YC, Tang H, Shimizu M, Watanabe K, Mitsunaga T. 2002. Food components in fractions of quinoa seed. Food Sci Technol 8:80-84
50 Makinen OE, Hager AS, Arendt EK. 2014. Localisation and development of proteolytic activities in quinoa (Chenopodium quinoa) seeds during germination and early seedling growth. J Cereal Sci 60:1-6   DOI
51 Oelke EA, Putnam DH, Teynor TM, Oplinger ES. 1992. Quinoa. alternative field crops manual. Available from https://hort.purdue.edu/newcrop/afcm/quinoa.html [cited 21 October 2016]
52 Ogungbenle HN. 2003. Nutritional evaluation and functional properties of quinoa (Chenopodium quinoa) flour. Inter J Food Sci Nutr 54:153-158   DOI
53 Park JW, Choi JE, Lee JH. 2015. Selected physicochemical and consumer preference characteristics of noodles incorporated with sweet pumpkin powder. J Korean Soc Food Sci Nutr 44:291-295   DOI
54 Park SH, Ryu HK. 2013. The quality characteristic of noodles containing roasted Liriopis tuber. J Korean Soc Food Sci Nutr 42:1096-1102   DOI
55 Ruales J, Nair BM. 1993. Content of fat, vitamins and minerals in quinoa (Chenopodium quinoa Willd) seeds. Food Chem 48:131-136   DOI
56 Schoenlechner R, Drausinger J, Ottenschlaeger V, Jurackova K, Berghofer E. 2010. Functional properties of gluten-free pasta produced from amaranth, quinoa and buckwheat. Plant Foods Hum Nutr 65:339-349   DOI
57 Shin EJ, Kim NG, Chung CH, Kim HS. 2014. Quality characteristics of wheat flour suitable for wet noodle. Korean J Food Cookery Sci 30:540-546   DOI