The Effect of Germinated Sorghum Extract on the Pasting Properties and Swelling Power of Different Annealed Starches

The Effect of Germinated Sorghum Extract on the Pasting Properties and Swelling Power of Different Annealed Starches

Starches were extracted from chickpea (C.P.), corn (C.S.), Turkish bean (T.B.), sweet potato (S.P.S.), and wheat starches (W.S.). These starches exhibited different amylose contents. The extracted starches were annealed in excess water and in germinated sorghum extract (GSE) (1.0 g starch/9 mL water...

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Main Authors: Hesham Alqah, M. S. Alamri, A. A. Mohamed, S. Hussain, A. A. Qasem, M. A. Ibraheem, I. A. Ababtain
Format: Article
Language:English
Published: MDPI AG 2020-07-01
Series:Polymers
Subjects:
α-amylase
susceptibility
starch
viscosity
swelling power
extract
Online Access:https://www.mdpi.com/2073-4360/12/7/1602
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spelling doaj-93e908e58fa647de9fbe51b37ff1e20d2020-11-25T03:07:20ZengMDPI AGPolymers2073-43602020-07-01121602160210.3390/polym12071602The Effect of Germinated Sorghum Extract on the Pasting Properties and Swelling Power of Different Annealed StarchesHesham Alqah0M. S. Alamri1A. A. Mohamed2S. Hussain3A. A. Qasem4M. A. Ibraheem5I. A. Ababtain6Department of Food Science and Nutrition, King Saud University, Riyadh 11456, Saudi ArabiaDepartment of Food Science and Nutrition, King Saud University, Riyadh 11456, Saudi ArabiaDepartment of Food Science and Nutrition, King Saud University, Riyadh 11456, Saudi ArabiaDepartment of Food Science and Nutrition, King Saud University, Riyadh 11456, Saudi ArabiaDepartment of Food Science and Nutrition, King Saud University, Riyadh 11456, Saudi ArabiaDepartment of Food Science and Nutrition, King Saud University, Riyadh 11456, Saudi ArabiaDepartment of Food Science and Nutrition, King Saud University, Riyadh 11456, Saudi ArabiaStarches were extracted from chickpea (C.P.), corn (C.S.), Turkish bean (T.B.), sweet potato (S.P.S.), and wheat starches (W.S.). These starches exhibited different amylose contents. The extracted starches were annealed in excess water and in germinated sorghum extract (GSE) (1.0 g starch/9 mL water). The α-amylase concentration in the GSE was 5.0 mg/10 mL. Annealing was done at 40, 50, and 60 °C for 30 or 60 min. The pasting properties of annealed starches were studied using Rapid Visco-Analyzer (RVA), in addition to the swelling power. These starches exhibited diverse pasting properties as evidenced by increased peak viscosity with annealing, where native starches exhibited peak viscosity as: 2828, 2438, 1943, 2250, and 4601 cP for the C.P., C.S., T.B., W.S., and S.P.S., respectively, which increased to 3580, 2482, 2504, 2514, and 4787 cP, respectively. High amylose content did not play a major role on the pasting properties of the tested starches because sweet potato starch (S.P.S.) (22.4% amylose) exhibited the highest viscosity, whereas wheat starch (W.S.) (25% amylose) had the least. Therefore, the dual effects of granule structure and packing density, especially in the amorphous region, are determinant factors of the enzymatic digestion rate and product. Swelling power was found to be a valuable predictive tool of amylose content and pasting characteristics of the tested starches. The studied starches varied in their digestibility and displayed structural differences in the course of α-amylase digestion. Based on these findings, W.S. was designated the most susceptible among the starches and S.P.S. was the least. The most starch gel setback was observed for the legume starches, chickpeas, and Turkish beans (C.P. 2553 cP and T.B. 1172 cP). These results were discussed with regard to the underlying principles of swelling tests and pasting behavior of the tested starches. Therefore, GSE is an effortless economic technique that can be used for starch digestion (modification) at industrial scale.https://www.mdpi.com/2073-4360/12/7/1602α-amylasesusceptibilitystarchviscosityswelling powerextract
collection DOAJ
language English
format Article
sources DOAJ
author Hesham Alqah
M. S. Alamri
A. A. Mohamed
S. Hussain
A. A. Qasem
M. A. Ibraheem
I. A. Ababtain
spellingShingle Hesham Alqah
M. S. Alamri
A. A. Mohamed
S. Hussain
A. A. Qasem
M. A. Ibraheem
I. A. Ababtain
The Effect of Germinated Sorghum Extract on the Pasting Properties and Swelling Power of Different Annealed Starches
Polymers
α-amylase
susceptibility
starch
viscosity
swelling power
extract
author_facet Hesham Alqah
M. S. Alamri
A. A. Mohamed
S. Hussain
A. A. Qasem
M. A. Ibraheem
I. A. Ababtain
author_sort Hesham Alqah
title The Effect of Germinated Sorghum Extract on the Pasting Properties and Swelling Power of Different Annealed Starches
title_short The Effect of Germinated Sorghum Extract on the Pasting Properties and Swelling Power of Different Annealed Starches
title_full The Effect of Germinated Sorghum Extract on the Pasting Properties and Swelling Power of Different Annealed Starches
title_fullStr The Effect of Germinated Sorghum Extract on the Pasting Properties and Swelling Power of Different Annealed Starches
title_full_unstemmed The Effect of Germinated Sorghum Extract on the Pasting Properties and Swelling Power of Different Annealed Starches
title_sort effect of germinated sorghum extract on the pasting properties and swelling power of different annealed starches
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2020-07-01
description Starches were extracted from chickpea (C.P.), corn (C.S.), Turkish bean (T.B.), sweet potato (S.P.S.), and wheat starches (W.S.). These starches exhibited different amylose contents. The extracted starches were annealed in excess water and in germinated sorghum extract (GSE) (1.0 g starch/9 mL water). The α-amylase concentration in the GSE was 5.0 mg/10 mL. Annealing was done at 40, 50, and 60 °C for 30 or 60 min. The pasting properties of annealed starches were studied using Rapid Visco-Analyzer (RVA), in addition to the swelling power. These starches exhibited diverse pasting properties as evidenced by increased peak viscosity with annealing, where native starches exhibited peak viscosity as: 2828, 2438, 1943, 2250, and 4601 cP for the C.P., C.S., T.B., W.S., and S.P.S., respectively, which increased to 3580, 2482, 2504, 2514, and 4787 cP, respectively. High amylose content did not play a major role on the pasting properties of the tested starches because sweet potato starch (S.P.S.) (22.4% amylose) exhibited the highest viscosity, whereas wheat starch (W.S.) (25% amylose) had the least. Therefore, the dual effects of granule structure and packing density, especially in the amorphous region, are determinant factors of the enzymatic digestion rate and product. Swelling power was found to be a valuable predictive tool of amylose content and pasting characteristics of the tested starches. The studied starches varied in their digestibility and displayed structural differences in the course of α-amylase digestion. Based on these findings, W.S. was designated the most susceptible among the starches and S.P.S. was the least. The most starch gel setback was observed for the legume starches, chickpeas, and Turkish beans (C.P. 2553 cP and T.B. 1172 cP). These results were discussed with regard to the underlying principles of swelling tests and pasting behavior of the tested starches. Therefore, GSE is an effortless economic technique that can be used for starch digestion (modification) at industrial scale.
topic α-amylase
susceptibility
starch
viscosity
swelling power
extract
url https://www.mdpi.com/2073-4360/12/7/1602
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