Influence of potato flour on dough rheological properties and quality of steamed bread

doi:10.1016/S2095-3119(16)61388-6

Journal of Integrative Agriculture

2016, Vol. 15

Issue (11): 2666-2676 DOI: 10.1016/S2095-3119(16)61388-6

Food Science

Advanced Online Publication | Current Issue | Archive | Adv Search

Influence of potato flour on dough rheological properties and quality of steamed bread

LIU Xing-li^{1, 2}, MU Tai-hua¹, SUN Hong-nan¹, ZHANG Miao¹, CHEN Jing-wang¹

¹ Key Laboratory of Agro-Products Processing, Ministry of Agriculture/Institute of Food Science and Technology, Chinese Academy of Agricultural Sciences, Beijing 100193, P.R.China
² Laboratory of General and Organic Chemistry, University of Liege, Gembloux 2-5030, Belgium

Abstract
References

Download: PDF in ScienceDirect
Export: BibTeX | EndNote (RIS)

Abstract It is a novel idea to make steamed bread by adding potato flour into wheat flour considering the production and nutritional factors of potato. In this study, the influence of potato flour (0–35%) on dough rheology and quality of steamed bread were investigated. Potato flour addition significantly influenced the dough rheological properties and steamed bread quality, such as increased water absorption, the maximum gaseous release height, total volume of CO₂ and hardness, while decreased dough stability and specific volume of steamed bread. Moreover, correlation analysis suggested that dough height at the maximum development time, dough stability, water absorption and the phase tangent can be used for predicting the technological quality of steamed bread. Potato-wheat steamed bread had higher dietary fibre, ash content and antioxidant activity than those of wheat steamed bread. The estimated glycemic index decreased from 73.63 (0%) to 60.01 (35%). Considering the sensory evaluation, the steamed bread with 20% potato flour is acceptable. In conclusion, adding appropriate quantity of potato flour to wheat flour for steamed bread production will not only maintain the technological quality, but also can improve the nutritional value of the steamed bread.

Keywords: potato flour thermo-mechanical properties viscoelasticity rheofermentometer texture properties antioxidant activity

Received: 30 November 2015 Accepted:

Fund:

This scientific study was financed by the Public Welfare Industry (Agriculture) Research Project of China (201503001-2), the Agricultural Special Financial in 2015 of China, and the Basic Research Expenses Budget Incremental Project of Chinese Academy of Agricultural Sciences (2014ZL009). We thank the University of Liège-Gembloux Agro-Bio Tech and more specifically the research platform AgricultureIs Life for the funding of the scientific stay in Belgium that made this paper possible.

Corresponding Authors: MU Tai-hua, Tel/Fax: +86-10-62815541, E-mail: mutaihua@126.com

About author: LIU Xing-li, E-mail: liuxingli1987@sina.cn;

	Service
	E-mail this article
	Add to citation manager
	E-mail Alert
	RSS

	Articles by authors
	LIU Xing-li
	MU Tai-hua
	SUN Hong-nan
	ZHANG Miao
	CHEN Jing-wang

Cite this article:

LIU Xing-li, MU Tai-hua, SUN Hong-nan, ZHANG Miao, CHEN Jing-wang. 2016. Influence of potato flour on dough rheological properties and quality of steamed bread. Journal of Integrative Agriculture, 15(11): 2666-2676.

AOAC (Association of official analytical chemists). 2000. Official Methods of Analysis. 17th ed. AOAC International, Gaithersburg, MD, USA.

Abdel-Samie M A, Wan J J, Huang W N, Chung K O, Xu B C. 2010. Effects of cumin and ginger as antioxidants on dough mixing properties and cookie quality. Cereal Chemistry, 87, 454–460.

Ananingsih V K, Gao J, Zhou W. 2013. Impact of green tea extract and fungal alpha-amylase on dough proofing and steaming. Food and Bioprocess Technology, 6, 3400–3411.

Balestra F, Cocci E, Pinnavaia G G, Romani S. 2011. Evaluation of antioxidant, rheological and sensorial properties of wheat flour dough and bread containing ginger powder. LWT - Food Science and Technology, 44, 700–705.

Bárcenas M E, Altamirano-Fortoul R, Rosell C M. 2010. Effect of high pressure processing on wheat dough and bread characteristics. LWT - Food Science and Technology, 43, 12–19.

Bártová V, Bárta J, Brabcová A, Zdráhal Z K, Horá?ková V. 2015. Amino acid composition and nutritional value of four cultivated South American potato species. Journal of Food Composition and Analysis, 40, 78–85.

Becalski A, Lau B P Y, Lewis D, Seaman S W. 2003. Acrylamide in foods: Occurrence, sources, and modelling. Journal of Agricultural and Food Chemistry, 51, 802–808.

Borczak B, Sikora E, Sikora M, Rosell C M, Collar C. 2012. Glycaemic response to frozen stored wheat rolls enriched with inulin and oat fiber. Journal of Cereal Science, 56, 576–580.

Dreese P C, Faubion J M, Hoseney R C. 1988. Dynamic rheological properties of flour, gluten and gluten-starch doughs. II. Effect of various processing and ingredient changes. Cereal Chemistry, 65, 354–359.

Englyst H N, Hudson G J. 1996. The classification and measurement of dietary carbohydrates. Food Chemistry, 57, 15–21.

Englyst K N, Vinoy S, Englyst H N, Lang V. 2003. Glycaemic index of cereal products explained by their content of rapidly and slowly available glucose. British Journal of Nutrition, 89, 329–339.

Ezekiel R, Singh N, Sharma S, Kaur A. 2013. Beneficial phytochemicals in potato - A review. Food Research International, 50, 487–496.

FAOSTAT (Food and Agriculture Organization Statistics). 2013. The production of potato in world and China. [2015-10-19]. http://faostat3.fao.org/faostat-gateway/go/to/download/Q/QC/E

Granfeldt Y, Björck I, Drews A, Tovar J. 1992. An in vitro procedure based on chewing to predict metabolic responses to starch in cereal and legume products. European Journal of Clinical Nutrition, 46, 649–660.

Gularte M A, Rosell C M. 2011. Physicochemical properties and enzymatic hydrolysis of different starches in the presence of hydrocolloids. Carbohydrate Polymers, 85, 237–244.

Hao M, Beta T. 2012. Development of Chinese steamed bread enriched in bioactive compounds from barley hull and flaxseed hull extracts. Food Chemistry, 133, 1320–1325

Huang W N, Li L L, Wang F, Wan J J, Tilley M, Ren C Z, Wu S Q. 2010. Effect of transglutaminase on rheological and Mixolab thermo-mechanical characteristics of oat dough. Food Chemistry, 121, 934–939.

Jensen S, Skibsted L H, Kidmose U, Thybo A K. 2015. Addition of cassava flours in bread-making: Sensory and textural evaluation. LWT - Food Science and Technology, 60, 292–299.

Kahraman K, Sakiyan O, Ozturk S, Koksel H, Sumnu G, Dubat A. 2008. Utilization of Mixolab to predict the suitable of flours in terms of cake quality. European Food Research and Technology, 227, 565–570.

Keeratipibul S, Luangsakul N, Otsuka S, Sakai S, Hatano Y, Tanasupawat S. 2010. Application of the Chinese steamed bun starter dough (CSB-SD) in breadmaking. Journal of Food Science, 75, E596-E604.

Kim H J, Morita N, Lee S H, Moon K D. 2003. Scanning electron microscopic observations of dough and bread supplemented with Gastrodia elata Blume powder. Food Research International, 36, 387–397.

Korus J, Witczak M, Ziobro R, Juszczak L. 2009. The impact of resistant starch on characteristics of gluten-free dough and bread. Food Hydrocolloids, 23, 988–995.

Ktenioudaki A, Butler F, Gonzales-Barron U, Carthy U, Gallagher E. 2009. Monitoring the dynamic density of wheat dough during fermentation. Journal of Food Engineering, 95, 332–338.

Lin S Y, Chen H H, Lu S, Wang P C. 2012. Effects of blending of wheat flour with barley flour on dough and steamed bread properties. Journal of Textural Studies, 43, 438–444.

Lombard G, Weinert I, Minnaar A, Taylor J. 2000. Preservation of South African steamed bread using hurdle technology. LWT - Food Science and Technology, 33, 138–143.

Ma S, Wang X X, Zheng X L, Tian S Q, Liu C, Li L, Ding Y F. 2014. Improvement of the quality of steamed bread by supplementation of wheat germ from milling process. Journal of Cereal Science, 60, 589–594.

Nche P, Odamtten G, Nout M, Rombouts F. 1996. Soaking of maize determines the quality of aflata for kenkey production. Journal of Cereal Science, 24, 291–297.

Nkhabutlane P, R G E, Kock H L. 2014. Quality characterization of wheat, maize and sorghum steamed breads from Lesotho. Journal of the Science of Food and Agriculture, 94, 2104–2117.

Nout M, Kok B, Vela E, Nche P, Rombouts F. 1995. Acceleration of the fermentation of kenkey, an indigenous fermented maize food of Ghana. Food Research International, 28, 599–604.

Onyango C, Mutungi C, Unbehend G, Lindhauer M G. 2011. Modification of gluten-free sorghum batter and bread using maize, potato, cassava or rice starch. LWT - Food Science and Technology, 44, 681–686.

Ozturk S, Kahraman K, Tiftik B, Koksel H. 2008. Predicting the cookie quality of flours by using Mixolab. European Food Research and Technology, 227, 1549–1554.

Penella J M S, Collar C, Haros M. 2008. Effect of wheat bran and enzyme addition on dough functional performance and phytic acid levels in bread. Journal of Cereal Science, 48, 715–721.

Peressini D, Sensidoni A. 2009. Effect of soluble dietary fiber addition on rheological and bread making properties of wheat doughs. Journal of Cereal Science, 49, 190–201.

Pomeranz Y, Shogren M D, Finney K F, Bechtel D B. 1977. Fiber in breadmaking. Effects on functional properties. Cereal Chemistry, 54, 25–41.

Rosell C, Santos E, Collar C. 2010. Physical characterization of fiber-enriched bread doughs by dual mixing and temperature constraint using the Mixolab. European Food Research and Technology, 231, 535–544.

Sarker M Z I, Yamauchi H, Kim S J, Matsumura-Endo C, Takigawa S, Hashimoto N, Noda T. 2008. A farinograph study on dough characteristics of mixtures of wheat flour and potato starches from different cultivars. Food Science and Technology Research, 14, 211–216.

?ensoy Í, Rosen R T, Ho C T, Karwe M V. 2006. Effect of processing on buckwheat phenolics and antioxidant activity. Food Chemistry, 99, 388–393.

Shiau S Y, Wu M Y, Liu Y L. 2015. The effect of pineapple core fiber on dough rheology and the quality of mantou. Journal of Food and Drug Analysis, 23, 493–500.

Sim S Y, Aziah A N, Cheng L H. 2011. Characteristics of wheat dough and Chinese steamed bread added with sodium alginates or konjacglucomannan. Food Hydrocolloids, 25, 951–957.

Singleton V L, Orthofer R, Lamuela-Raventos R M. 1999. Analysis of total phenols and other oxidation substrates and antioxidants by means of Folin-Ciocalteu reagent. Method in Enzymology, 299, 152–178.

Sun H N, Mu T H, Xi L S, Zhang M, Chen J W. 2014. Sweet potato (Ipomoea batatas L.) leaves as nutritional and functional foods. Food Chemistry, 156, 380–389.

Sun R, Zhang Z, Hu X, Xing Q, Zhuo W. 2015. Effect of wheat germ flour addition on wheat flour, dough and Chinese steamed bread properties. Journal of Cereal Science, 64, 153–158.

Tahir R, Ellis P R, Butterworth P J. 2010. The relation of physical properties of native starch granules to the kinetics of amylolysis catalysed by porcine pancreatic α-amylase. Carbohydrate Polymers, 81, 57–62.

Verdú S, Ivorra E, Sánchez A J, Barat J M, Grau R. 2015. Relationship between fermentation behavior, measured with a 3D vision structured light technique, and the internal structure of bread. Journal of Food Engineering, 146, 227–233.

Verheyen C, Albrecht A, Elgeti D, Jekle M, Becker T. 2015. Impact of gas formation kinetics on dough development and bread quality. Food Research International, 76, 860–866.

Wu P, Liu B, Chen J, Sun C, Tian J. 2010. QTL analysis of textural property traits for Chinese northern-style steamed bread. Euphytica, 179, 265–276.

Zhang P, He Z, Chen D, Zhang Y, Larroque O R, Xia X. 2007. Contribution of common wheat protein fractions to dough properties and quality of northern-style Chinese steamed bread. Journal of Cereal Science, 46, 1–10.

Zhu F. 2014. Influence of ingredients and chemical components on the quality of Chinese steamed bread. Food Chemistry, 163, 54–162.

Zhu F, Sakulnak R, Wang S N. 2016. Effect of black tea on antioxidant, textural, and sensory properties of Chinese steamed bread. Food Chemistry, 194, 1217–1223.

[1]	YIN Jian, CHENG Li, HONG Yan, LI Zhao-feng, LI Cai-ming, BAN Xiao-feng, GU Zheng-biao . Use of two-stage dough mixing process in improving water distribution of dough and qualities of bread made from wheat–potato flour[J]. >Journal of Integrative Agriculture, 2021, 20(1): 300-310.
[2]	LI Fu-xiang, LI Fu-hua, YANG Ya-xuan, YIN Ran, MING Jian. *Comparison of phenolic profiles and antioxidant activities in skins and pulps of eleven grape cultivars (Vitis vinifera* L.)**[J]. >Journal of Integrative Agriculture, 2019, 18(5): 1148-1158.
[3]	TIAN Xing-zhou, Pramote Paengkoum, Siwaporn Paengkoum, Sorasak Thongpea, BAN Chao. Comparison of forage yield, silage fermentative quality, anthocyanin stability, antioxidant activity, and in vitro rumen fermentation of anthocyanin-rich purple corn (Zea mays L.) stover and sticky corn stover[J]. >Journal of Integrative Agriculture, 2018, 17(09): 2082-2095.
[4]	JIA Li-e, LIU Sheng, DUAN Xiao-ming, ZHANG Chao, WU Zhan-hui, LIU Ming-chi, GUO Shao-gui, ZUO Jin-hua, WANG Li-bin. *6-Benzylaminopurine treatment maintains the quality of Chinese chive (Allium tuberosum* Rottler ex Spreng.) by enhancing antioxidant enzyme activity**[J]. >Journal of Integrative Agriculture, 2017, 16(09): 1968-1977.
[5]	ZHANG Shi-lin, DENG Peng, XU Yu-chao, Lü Shan-wu, WANG Jian-jun. Quantification and analysis of anthocyanin and flavonoids compositions, and antioxidant activities in onions with three different colors[J]. >Journal of Integrative Agriculture, 2016, 15(9): 2175-2181.

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Shared

Discussed

Cite this article:

About JIA

Editorial board

For authors