Freeze-dried soybean snack foods are innovative and engage the nutritious whole soybean seeds in human diet. The freeze-dried soybeans provide high quality protein, cholesterol-free low percentage of saturated fats, minerals, and vitamins. Our research evaluated the quality of freeze-dried soybean seed products by testing their physical and textural properties. Seeds of six soybeans: R08-4004, R05-4969, R95-1705, Osage (4 non-genetically modified varieties), JYC-2 and UA Kirksey (2 genetically modified varieties) were cooked to prepare the freeze dried product. The physical characteristics such as color, water activity, water absorption efficiency, and textural characteristics including hardness and crunchiness were evaluated. The freeze-dried seeds showed significantly enhanced color and textural characteristics while maintaining crunchiness in the product along with low water activity. The water absorption efficiency increased with an increase in seed tissue integrity. The large sized seeds of genetically modified variety, JYC-2 (edamame or vegetable soybean) with high protein (42%), were found to be best suited for preparing the snack or breakfast cereal. This study showed that freeze-drying the soybean seeds maintains the quality attributes and appeal after processing. The Acoustic Envelop Detector technique for measuring textural qualities demonstrated significant potential for comprehensive results and greater application in testing similar food products. Our findings suggest a higher prospective for the freeze-dried soybeans as snack food or breakfast cereal with an impending commercial value.
| Published in | Journal of Food and Nutrition Sciences (Volume 3, Issue 3) |
| DOI | 10.11648/j.jfns.20150303.17 |
| Page(s) | 119-125 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2015. Published by Science Publishing Group |
Freeze-Dried Snack, Physico-Textural Properties, Genetically Modified Soybeans, Breakfast Cereal
| [1] | Bourne M. C. (2002). Food texture and viscosity: Concept and measurement, 2nd ed., New York State Agricultural Experiment Station and Institute of Food Science. Cornell University, Geneva, New York, pp.171–189. |
| [2] | Cheng-Kuang H., Wei-Hsuan L. and Huai-Wen Y. (2013). Influence of preheating on antioxidant activity of the water extract from black soybean and color and sensory properties of black soybean decoction. Journal of the Science of Food and Agriculture, 93(15), 3883–3890. |
| [3] | Dilbaghi N. and Sharma S. (2007). Food and industrial microbiology: Food spoilage, food infections and intoxications caused by microorganisms and methods for their detection. Retrieved from http://www.researchgate.net/profile/Neeraj_Dilbaghi/publication/237395310 _Food_spoilage_food_infections_and_intoxications_caused_by_microorganisms_and_methods_for_their_detection/file/9c96052d276a081f7e.pdf |
| [4] | Drake B. K. (1963). Food crushing sounds. An introductory study. Journal of Food Science, 28, 233-241. |
| [5] | Enfors S.-O. (2008). Food microbiology (pp. 10-11). KTH – Biotechnology. Stockholm. Retrieved from http://www.biotech.kth.se/bioprocess/enfors/Downloads/FoodMicrobiology .pdf |
| [6] | Friedman M. and Brandon D. L. (2001). Nutritional and Health Benefits of Soy Proteins. Journal of Agricultural Food Chemistry, 49(3), 1069–1086. |
| [7] | González M., Gallego M. and Valcárcel M. (2003). Liquid Chromatographic Determination of Natural and Synthetic Colorants in Lyophilized Foods Using an Automatic Solid-Phase Extraction System. Journal of Agricultural Food Chemistry, 51(8), 2121–2129. |
| [8] | Harri A., Nalley L. and Hudson D. (2009). The Relationship between Oil, Exchange Rates, and Commodity Prices. Journal of Agricultural and Applied Economics, 41(2), 501–510. |
| [9] | Heidenreich S., Jaros D., Rohm R. and Ziems A. (2004). Relationship between water activity and crispiness of extruded rice crisps. Journal of Texture Studies, 35, 621–633. |
| [10] | Howard L. R., Braswell D. D. and Aselage J. (1996). Chemical composition and color of strained carrots as affected by processing. Journal of Food Science, 61, 327-330. |
| [11] | HunterLab. (2008). "Hunter L, a, b Color Scale." HunterLab. http://www.hunterlab.com/appnotes/an08_96a.pdf (accessed October 13, 2011). |
| [12] | Lin T. M., Durance T. D. and Scaman C. H. (1998). Characterization of vacuum microwave, air and freeze dried carrot slices. Food Research International. 31, 111–117. |
| [13] | MacLeod G., Ames J. and Betz N. L. (1988). Soy flavor and its improvement. Critical Reviews in Food Science and Nutrition, 27(4), 219-400. |
| [14] | Martinez-Navarraete N., Moragu G., Talens P. and Chiralt A. (2004).Water sorption and the plasticization effect in wafers. International Journal of Food Science and Technology, 39, 555–562. |
| [15] | Mazumder P., Roopa B.S. and Bhattacharya S. (2007). Textural attributes of a model snack food at different moisture contents. Journal of Food Engineering, 79, 511–516. |
| [16] | McCue P. and Shetty K. (2004). Health Benefits of Soy Isoflavonoids and Strategies for Enhancement: A Review. Critical Reviews in Food Science and Nutrition, 44(5), 361-367. |
| [17] | Messina M., Ho S. and Lee A. D. (2004). Skeletal benefits of soy isoflavones: a review of the clinical trial and epidemiologic data. Current Opinions in Clinical Nutrition and Metabolic Care, 7(6), 649-658. |
| [18] | Naeve S. L., Orf J. H. and Weidenbenner N. H. (2013). United States Soybean Quality Annual Report. Retrieved from http://28vp741fflb42av02837961yayh.wpengine.netdna-cdn.com/wp-content/uploads/2012/09/2013-USSEC-Commodity-Soybean-Report.pdf |
| [19] | Reddy G. (2007). Food industrial microbiology: Food as substrate for microorganisms. Dept. Microbiology. Osmania University-Hyderabad. Retrieved from http://nsdl.niscair.res.in/Jsp ui/bitstream/123456789/118/1/FoodasSubstrate.pdf |
| [20] | Sharma K. P. (2003). Varietal Yield Stability and Appropriate Management for Quality Organic Edamame Production. Project report. Organic Sector Development Program (I-166). The Sharing Farm Society - Richmond Food Security Society. Nature’s Path Foods. Retrieved from http://certifiedorganic.bc.ca/programs/osdp/I-166_Edamame2_Final_Report. pdf |
| [21] | Sullivan C. L. (2005). Soy on the menu recipes for foodservice. Illinois Center for Soy Foods. Retrieved from http://www.nsrl.illinois.edu/nutrition/multimedia/SoyOnMenu.pdf |
| [22] | Szczesniak A. (1988). The meaning of textural characteristics-crispiness. Journal of Texture Studies, 9, 51–59. |
| [23] | The National Soybean Research Laboratory (1). (n. d.). A soy foods primer. Retrieved from http://www.nsrl.uiuc.edu/nutrition/multimedia/A%20Soy%20Foods%20Primer.pdf. Citation in the text: NSRL 1. |
| [24] | The National Soybean Research Laboratory (2). (n. d.). Super soy snacks. Retrieved from http://www.nsrl.uiuc.edu/nutrition/multimedia/Super%20Soy%20Snacks.pdf. Citation in the text: NSRL 2. |
| [25] | Torres-Penaranda A. V., Reitmeier C. A., Wilson L. A., Fehr W. R. and Narvel J. M. (2006). Sensory Characteristics of Soymilk and Tofu Made from Lipoxygenase-Free and Normal Soybeans. Journal of Food Science, 63(6), 1084–1087. |
| [26] | Varela P., Chen J., Fiszman S. and Povey M. J. W. (2006). Crispiness assessment of roasted almonds by an integrated approach to texture description: texture, acoustics, sensory and structure. Journal of Chemometrics, 20, 311–320. |
| [27] | Vickers Z. and Bourne M.C. (1976). A psycho-acoustic theory of crispiness. Journal of Food Science, 41, 1158–1164. |
| [28] | Williams P. C., Nakoul H., and Singh K. B. (1983). Relationship between cooking time and some physical characteristics in chickpeas (Cicer arietinum L.). Journal of the Science of Food and Agriculture, 34(5), 492-496. |
| [29] | Zhang L. and Kyei-Boahen S. (2007). Growth and Yield of Vegetable Soybean (Edamame) in Mississippi. Horticulture Technology Journal, 17(1), 26-31. |
APA Style
Srinivas Rayaprolu, Navam Hettiarachchy, Mohammed Aldoury, Sungeun Cho, David Moseley, et al. (2015). Physical and Textural Attributes of Freeze-Dried Genetically Modified and Non-Genetically Modified Soy Beans. Journal of Food and Nutrition Sciences, 3(3), 119-125. https://doi.org/10.11648/j.jfns.20150303.17
ACS Style
Srinivas Rayaprolu; Navam Hettiarachchy; Mohammed Aldoury; Sungeun Cho; David Moseley, et al. Physical and Textural Attributes of Freeze-Dried Genetically Modified and Non-Genetically Modified Soy Beans. J. Food Nutr. Sci. 2015, 3(3), 119-125. doi: 10.11648/j.jfns.20150303.17
AMA Style
Srinivas Rayaprolu, Navam Hettiarachchy, Mohammed Aldoury, Sungeun Cho, David Moseley, et al. Physical and Textural Attributes of Freeze-Dried Genetically Modified and Non-Genetically Modified Soy Beans. J Food Nutr Sci. 2015;3(3):119-125. doi: 10.11648/j.jfns.20150303.17
Share This Article
Twitter
Linked In
Facebook
Copy
Download@article{10.11648/j.jfns.20150303.17,
author = {Srinivas Rayaprolu and Navam Hettiarachchy and Mohammed Aldoury and Sungeun Cho and David Moseley and Pengyin Chen},
title = {Physical and Textural Attributes of Freeze-Dried Genetically Modified and Non-Genetically Modified Soy Beans},
journal = {Journal of Food and Nutrition Sciences},
volume = {3},
number = {3},
pages = {119-125},
doi = {10.11648/j.jfns.20150303.17},
url = {https://doi.org/10.11648/j.jfns.20150303.17},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.jfns.20150303.17},
abstract = {Freeze-dried soybean snack foods are innovative and engage the nutritious whole soybean seeds in human diet. The freeze-dried soybeans provide high quality protein, cholesterol-free low percentage of saturated fats, minerals, and vitamins. Our research evaluated the quality of freeze-dried soybean seed products by testing their physical and textural properties. Seeds of six soybeans: R08-4004, R05-4969, R95-1705, Osage (4 non-genetically modified varieties), JYC-2 and UA Kirksey (2 genetically modified varieties) were cooked to prepare the freeze dried product. The physical characteristics such as color, water activity, water absorption efficiency, and textural characteristics including hardness and crunchiness were evaluated. The freeze-dried seeds showed significantly enhanced color and textural characteristics while maintaining crunchiness in the product along with low water activity. The water absorption efficiency increased with an increase in seed tissue integrity. The large sized seeds of genetically modified variety, JYC-2 (edamame or vegetable soybean) with high protein (42%), were found to be best suited for preparing the snack or breakfast cereal. This study showed that freeze-drying the soybean seeds maintains the quality attributes and appeal after processing. The Acoustic Envelop Detector technique for measuring textural qualities demonstrated significant potential for comprehensive results and greater application in testing similar food products. Our findings suggest a higher prospective for the freeze-dried soybeans as snack food or breakfast cereal with an impending commercial value.},
year = {2015}
}
TY - JOUR T1 - Physical and Textural Attributes of Freeze-Dried Genetically Modified and Non-Genetically Modified Soy Beans AU - Srinivas Rayaprolu AU - Navam Hettiarachchy AU - Mohammed Aldoury AU - Sungeun Cho AU - David Moseley AU - Pengyin Chen Y1 - 2015/05/12 PY - 2015 N1 - https://doi.org/10.11648/j.jfns.20150303.17 DO - 10.11648/j.jfns.20150303.17 T2 - Journal of Food and Nutrition Sciences JF - Journal of Food and Nutrition Sciences JO - Journal of Food and Nutrition Sciences SP - 119 EP - 125 PB - Science Publishing Group SN - 2330-7293 UR - https://doi.org/10.11648/j.jfns.20150303.17 AB - Freeze-dried soybean snack foods are innovative and engage the nutritious whole soybean seeds in human diet. The freeze-dried soybeans provide high quality protein, cholesterol-free low percentage of saturated fats, minerals, and vitamins. Our research evaluated the quality of freeze-dried soybean seed products by testing their physical and textural properties. Seeds of six soybeans: R08-4004, R05-4969, R95-1705, Osage (4 non-genetically modified varieties), JYC-2 and UA Kirksey (2 genetically modified varieties) were cooked to prepare the freeze dried product. The physical characteristics such as color, water activity, water absorption efficiency, and textural characteristics including hardness and crunchiness were evaluated. The freeze-dried seeds showed significantly enhanced color and textural characteristics while maintaining crunchiness in the product along with low water activity. The water absorption efficiency increased with an increase in seed tissue integrity. The large sized seeds of genetically modified variety, JYC-2 (edamame or vegetable soybean) with high protein (42%), were found to be best suited for preparing the snack or breakfast cereal. This study showed that freeze-drying the soybean seeds maintains the quality attributes and appeal after processing. The Acoustic Envelop Detector technique for measuring textural qualities demonstrated significant potential for comprehensive results and greater application in testing similar food products. Our findings suggest a higher prospective for the freeze-dried soybeans as snack food or breakfast cereal with an impending commercial value. VL - 3 IS - 3 ER -
Email: