Rheological characteristics of wheat–chickpea composite flour doughs and effect of Amla powder ( Phyllanthus emblica L.) addition on the functional properties of bread

Abstract

Bread is a staple food for majority of the people worldwide, but it has a high glycemic effect. Substituting wheat flour partly with chickpea flour and the presence of bran is suggested to improve the glycemic effect of bread; however, the non-gluten substances in wheat flour adversely affect dough rheology. The addition of amla powder was tested on the rheological properties of wheat–chickpea flour composite doughs; also, the physical and sensory qualities of bread made thereof. The results showed that when the level of replacement of refined white flour (WF) or whole wheat flour (WWF) with chickpea flour was increased from 0 to 40%, it significantly affected the rheological properties and functionality of dough. A decreased farinograph water absorption, higher mixing tolerance index (i.e., weakening of dough), decreased resistance to extension, and lower ratio numbers were obtained with some differences between WF and WWF at the higher level of chickpea flour substitution. The addition of amla powder to WF: chickpea flour (60:40) blends reduced the angle of ascending (from 7.0 ± 0.7 to 6.0 ± 0.7) and angel of descending (from 3.2 ± 0.21 to 2.4 ± 0.2), indicating the slight tightening of gluten leading to dough breakdown. The addition of amla powder improved the mixing characteristics of the composite flour doughs, as well as the physical and sensory qualities of the bread. In conclusion, amla powder can help overcome the deleterious impact of adding chickpea flour to WF or WWF for producing good quality pan bread for people with type-2 diabetes.

Keywords

bread textural and sensory evaluation chickpea flour composite dough wheat flour rheological assessment

Get full access to this article

View all access options for this article.

References

AACC. (1983). American Association of Cereal Chemists. St. Paul, MN: American Association of Cereal Chemistry.

AACC. (2000). AACC Approved Methods. 10th ed. St. Paul, MN: American Association of Cereal Chemists.

Alkandari

Sarfraz

Sidhu

(2019a) Development of a functional food (pan bread) using amla fruit powder. Journal of Food Science and Technology 56: 2287–2295.

Alkandari

Sarfraz

Sidhu

(2019b) Amla fruit powder addition influences objective color and instrumental texture of pan bread. Journal of Food Science and Technology 56: 2750–2757.

Boers

MacAulay

Murray

Dobriyal

Mela

Spreeuwenberg

MAM

(2017) Efficacy of fiber additions to flatbread flour mixes for reducing post-meal glucose and insulin responses in healthy Indian subjects. British Journal of Nutrition 117: 386–394.

Bojnanska

Frančáková

Líšková

Tokár

(2012) Legumes—The alternative raw materials for bread production. Journal of Microbiology, Biotechnology and Food Sciences 1: 876–886.

Boye

Zare

Pletch

(2010) Pulse proteins: Processing, characterization, functional properties and applications in food and feed. Food Research International 43: 414–431.

Campos-Vega

Loarca-Pina

Oomah

(2010) Minor components of pulses and their potential impact on human health. Food Research International 43(2): 461–482.

Dhinda

Jyothi

Prakash

Indrani

(2012) Effect of ingredients on rheological, nutritional and quality characteristics of high protein, high fiber and low carbohydrate bread. Food Bioprocess Technology 5: 2998–3006.

10.

El-Bar

Abbo

Reifen

(2017) Leveraging traditional crops for better nutrition and health—The case of chickpea. Trends in Food Science & Technology 64: 39–47.

11.

Harada

Miyairi

Murai

(2010) Trimeric glycoproteins of bean seed storage protein phaseolin were purified from baculovirus-infected insect Sf9 cells for use of structural study. Plant Science 179(1–2): 123–132.

12.

Hefnawy

TMH

El-Shourbagy

Ramadan

(2012) Impact of adding chickpea (Cicer arietinum L.) flour to wheat flour on the rheological properties of toast bread. International Food Research Journal 19: 521–525.

13.

Johnson

Thomas

Hall

(2005) Palatability and glucose, insulin and satiety responses of chickpea flour and extruded chickpea flour bread eaten as part of a breakfast. European Journal of Clinical Nutrition 59: 169–176.

14.

Kaur

Singh

Kaur

Ahlawat

Singh

(2014) Relationships of flour solvent retention capacity, secondary structure, and rheological properties with the cookie making characteristics of wheat cultivars. Food Chemistry 158: 48–55.

15.

Kohajdova

Karovicova

Magala

(2013) Effect of lentil and bean flours on rheological and baking properties of wheat dough. Chemical Papers 67: 398–407.

16.

Laleg

Barron

Cordelle

Schlich

Walrand

Micard

(2017) How the structure, nutritional and sensory attributes of pasta made from legume flour is affected by the proportion of legume protein. LWT—Food Science and Technology 79: 471–478. .

17.

Man S, Paucean A, Muste S and Pop A. (2015). Effect of chickpea (Cicer arietinum L.) flour addition on physicochemical properties of wheat bread. Bulletin UASVM Food Science and Technology 72: 42--49.

18.

Mohammed

Ahmed

Senge

(2012) Dough rheology and bread quality of wheat-chickpea flour blends. Industrial Crops & Products 36: 196–202.

19.

Nasir M and Sidhu JS. (2013). Chickpea, lentil, mungbean, blackgram, pigeon pea and India vetch. In: Siddiq M (ed) Pulses: Production, Processing and Nutritional Value. New York, Wiley-Blackwell Publishing Co, pp. 283–309.

20.

Packkia-Doss

Chevallier

pare

Le-Bail

(2019) Effect of supplementation of wheat bran on dough aeration and final bread volume. Journal of Food Engineering 252: 28–35.

21.

Pandey

Choudhary

Bhushan

Chattopadhyay

Chakraborty

Datta

, et al.(2006) The nuclear proteome of chickpea (Cicer arietinum L.) reveals predicted and unexpected proteins. Journal Proteome Research 5(12): 3301–3311.

22.

Rachwa-Rosiak

Nebesny

Budryn

(2015) Chickpeas—Composition, nutritional value, health benefits, application to bread and snacks: A review. Critical Reviews in Food Science and Nutrition 55(8): 1137–1145.

23.

Schmiele

Jaekel

Patricio

SMC

Steel

Chang

(2012) Rheological properties of wheat flour and quality characteristics of pan bread as modified by partial additions of wheat bran or whole wheat flour. International Journal of Food Science & Technology 47: 2141–2150.

24.

Schroeder

Hoseney

(1978) Mixograph studies. II. Effect of activated double-bond compounds on dough-mixing properties. Cereal Chemistry 55: 348–359.

25.

Sidhu

Al-Hooti

Al-Saquer

Al-Othman

(2001) Studies on the development of pan bread using raw wheat germ. Journal of Food Quality 24: 235–247.

26.

Sidhu

Hoseney

Faubion

Nordin

(1980) Reaction of 14C-cysteine with wheat flour water solubles under ultraviolet light. Cereal Chemistry 57: 380–382.

27.

Sim

Noor Aziah

Cheng

(2011) Characteristics of wheat dough and Chinese steamed bread added with sodium alginate or Konjac glucomannan. Food Hydrocolloids 25: 951–957.

28.

Singh

(2013) Relationship of polymeric proteins and empirical dough rheology with dynamic rheology of dough and gluten from different wheat varieties. Food Hydrocolloids 33: 342–348.

29.

Wong

Mollard

Zafar

Luhovyy

Anderson

(2009) Food intake and satiety following a serving of pulses in young men: Effect of processing, recipe, and pulse variety. Journal of the American College of Nutrition 28: 543–552.

30.

Zadraznik

Men

Egge-Jacobsen

Meglic

Sustar-Voziic

(2017) Towards a better understanding of protein changes in common bean under drought: A case study on N-glycoproteins. Plant Physiology and Biochemistry 118: 400–412.

31.

Zafar

Kabir

(2017) Chickpeas suppress postprandial glucose concentration, and appetite and reduce energy intake at the second meal. Journal of Food Science and Technology 54: 987–994.

32.

Zafar

Al-Hassawi

Al-Khulaifi

Al-Rayyes

Waslien

Huffman

(2015) Organoleptic and glycemic properties of chickpea-wheat composite bread. Journal of Food Science and Technology 52: 2256–2263.

Supplementary Material

Please find the following supplemental material available below.

For Open Access articles published under a Creative Commons License, all supplemental material carries the same license as the article it is associated with.

For non-Open Access articles published, all supplemental material carries a non-exclusive license, and permission requests for re-use of supplemental material or any part of supplemental material shall be sent directly to the copyright owner as specified in the copyright notice associated with the article.

0.00 MB

0.30 MB