A study of starch gelatinisation behaviour in hydrothermally-processed plant food tissues and implications for in vitro digestibility

Edwards, Cathrina H.; Warren, Frederick J.; Campbell, Grant M.; Gaisford, Simon; Royall, Paul G.; Butterworth, Peter J.; Ellis, Peter R.

doi:10.1039/c5fo00754b

Cited by 98 publications

(71 citation statements)

References 36 publications

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“…A broader range is indicative of heterogeneous crystallites with varying stability within the crystalline domains of the starch granule . The gelatinization enthalpies ranged from 8.82 to 10.68 J/g, which agree within values previously reported . Other authors have related the relative low enthalpy values of pulses with the molecular conformation and arrangement of their amylopectin structural arrangement, in particular with the double helices and to the presence of long and partially branched amylose molecules, that tends to decrease granular swelling and crystalline melting during gelatinization .…”

Section: Resultssupporting

confidence: 88%

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Physicochemical, functional properties, and digestion of isolated starches from pigmented chickpea (Cicer arietinumL.) cultivars

et al. 2016

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This research was undertaken to study physicochemical, functional, and in vitro starch digestion properties of wet‐milled chickpea starches obtained from an array of ten cultivars differing in seed coat color (black, brown, green, red, and cream). The yield of chickpea starches ranged from 19.22 to 30.06%, in which resulting starches varied in total starch and amylose contents from 87.14 to 96.02% and 25.05 to 35.26%, respectively. The DSC transition temperatures To, Tp, and Tc and gelatinization enthalpy ranged from 61.93 to 68.94°C, 66.47 to 72.57°C, 73.34 to 78.50°C, and 8.82 to 10.68 J/g, respectively, indicating large differences among the starches. Scanning electron micrographs of the starches showed lenticular‐shaped granules with a smooth surface and different granule sizes. The rapidly digestible (RDS), slowly digestible (SDS), and resistant (RS) gelatinized starch fractions varied from 56.34 to 59.15%, 33.22 to 35.43%, and 6.42 to 9.22%, respectively. The predicted glycemic indexes (pGI) of native and gelatinized chickpea starches ranged from 65.52 to 66.10 and 74.39 to 75.74, respectively. A close correlation among the viscosity characteristics of isolated starches and the starch digestion fractions was found after PCA analysis. The properties of the starches were not dependent on the seed‐coat coloration of the cultivars. Overall, the results suggest that the starches of the array of chickpeas studied may hold potential for the development of functional foods especially due to its functional properties, medium glycemic index, high SDS, and RS contents.

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Section: Resultssupporting

confidence: 88%

“…A broader range is indicative of heterogeneous crystallites with varying stability within the crystalline domains of the starch granule [16]. The gelatinization enthalpies ranged from 8.82 to 10.68 J/g, which agree within values previously reported [23,29].…”

Section: Thermal Properties Of Chickpea Starchessupporting

confidence: 83%

Physicochemical, functional properties, and digestion of isolated starches from pigmented chickpea (Cicer arietinumL.) cultivars

et al. 2016

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“…56 Particle size has previously been shown to have influenced starch gelatinisation, bioaccessibility and postprandial glycaemic responses to starch-based foods. 57 However, the differences in the size of the fractions used in previous studies were three orders of magnitude larger than the subtle 21 μm difference in the size between mutant sbeIIa/ b-AB and WT particles used in this study. In this case, particle size difference is unlikely to be a contributing mechanism to the difference in digestibility observed.…”

Section: Food and Function Papermentioning

confidence: 52%

“…24 The lower RS concentration in this batch of sbeIIa/b-AB semolina may have resulted from the environmental effects during the growth of the wheat. 57 However, it does suggest that the RS concentration in the pudding alone administered in this pilot study may not be sufficient to elicit a lower glycaemic response compared to the WT control. While the use of wheat with a higher content of RS may have been preferable, the authors worked with the available material which was considered to be satisfactory to develop novel durum wheat foods and to explore its effect on glycaemic response.…”

Section: Food and Function Papermentioning

confidence: 73%

Effect of semolina pudding prepared fromstarch branching enzyme IIaandbmutant wheat on glycaemic responsein vitroandin vivo: a randomised controlled pilot study

et al. 2020

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Refined starchy foods are usually rapidly digested, leading to poor glycaemic control, but not all starchy foods are the same. Complex carbohydrates like resistant starch (RS) have been shown to reduce the metabolic risk factors for chronic diseases such as hyperglycaemia and overweight. The aim of the project was to develop a semolina-based food made from a starch branching enzyme II (sbeIIa/b-AB) durum wheat mutant with a high RS content and to measure its glycaemic index using a double-blind randomised pilot study. We report here the amylose, RS and non-starch polysaccharide concentration of raw sbeIIa/b-AB and wild-type control (WT) semolina. We measured RS after cooking to identify a model food for in vivo testing. Retrograded sbeIIa/b-AB semolina showed a higher RS concentration than the WT control (RS = 4.87 ± 0.6 g per 100 g, 0.77 ± 0.34 g per 100 g starch DWB, respectively), so pudding was selected as the test food. Ten healthy participants consumed ∼50 g of total starch from WT and sbeIIa/b-AB pudding and a standard glucose drink. Capillary blood glucose concentrations were measured in the fasting and postprandial state (2 h): incremental area-under-the-curve (iAUC) and GI were calculated. We found no evidence of difference in GI between sbeIIa/b-AB pudding and the WT control, but the starch digestibility was significantly lower in sbeIIa/b-AB pudding compared to the WT control in vitro (C 90 = 33.29% and 47.38%, respectively). Based on these results, novel sbeIIa/b-AB wheat foods will be used in future in vivo studies to test the effect of different RS concentrations and different food matrices on glycaemia. † Electronic supplementary information (ESI) available. See

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“…Apart from the incorporation of flours and/or powders of pulses in food formulations, current research trends are on the nutraceutical functionalities of pulses (Chávez‐Mendoza & Sánchez, ; Díaz‐Sánchez, Guajardo‐Flores, Serna Guerrero, Gutierrez‐Uribe, & Jacobo‐Velázquez, ; Jamdar, Deshpande, & Marathe, ; Jing et al., ) as influenced by different processing methods (López‐Martínez, Leyva‐López, Gutiérrez‐Grijalva, & Heredia, ) or, more specifically, bioactivity of peptides and hydrolysates (Carbonaro, Maselli, & Nucara, ; Luna‐Vital et al., ) as well as hydrolyzability of the proteins and related physicochemical characteristics (Ghribi et al., ; Jamdar et al., ; Torres, Rutherfurd, Muñoz, Peters, & Montoya, ; Worku & Sahu, ). Other studies involve in vitro starch digestion (Bhattarai, Dhital, Wu, Chen, & Gidley, ; Dhital, Bhattarai, Gorham, & Gidley, ; Edwards et al., ; Ma, Wang, Wang, Jane, & Du, ; Pallares Pallares et al., ; Rovalino‐Córdova, Fogliano, & Capuano, ).…”

Section: Toward Increased Utilization Of Pulses: Current Trendsmentioning

confidence: 99%

Understanding the Relations Among the Storage, Soaking, and Cooking Behavior of Pulses: A Scientific Basis for Innovations in Sustainable Foods for the Future

Chigwedere

Njoroge

Loey

et al. 2019

Comp Rev Food Sci Food Safe

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The world faces challenges that require sustainable solutions: food and nutrition insecurity; replacement of animal‐based protein sources; and increasing demand for convenient, nutritious, and health‐beneficial foods; as well as functional ingredients. The irrefutable potential of pulses as future sustainable food systems is undermined by the hardening phenomenon that develops upon their storage under adverse conditions of temperature and relative humidity. Occurrence of this phenomenon indicates storage instability. In this review, the application of a material science approach, in particular the glass transition temperature concept, is presented to explain phenomena of storage instability such as the occurrence of hardening and loss of viability under adverse storage conditions. In addition to storage (in)stability, application of this concept during processing of pulses is discussed. The state‐of‐the‐art on how hardening occurs, that is, mechanistic insights, is provided, including a critical evaluation of some of the existing postulations using recent research findings. Moreover, the influence of hardening on the properties and processing of pulses is included. Prevention of hardening and curative actions for pulses affected by the hardening phenomenon are described in addition to the current trends on uses of pulses and pulse‐derived products. Based on the knowledge progress presented in this review, suggestions for the future include: first, the need for innovation toward implementation of recommended solutions for the prevention of hardening; second, the optimization of the identified most effective and efficient curative action against hardening; and third, areas to focus on for elucidation of mechanisms of hardening, although existing analytical methods require advancement.

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A study of starch gelatinisation behaviour in hydrothermally-processed plant food tissues and implications for in vitro digestibility

Cited by 98 publications

References 36 publications

Physicochemical, functional properties, and digestion of isolated starches from pigmented chickpea (Cicer arietinumL.) cultivars

Physicochemical, functional properties, and digestion of isolated starches from pigmented chickpea (Cicer arietinumL.) cultivars

Effect of semolina pudding prepared fromstarch branching enzyme IIaandbmutant wheat on glycaemic responsein vitroandin vivo: a randomised controlled pilot study

Understanding the Relations Among the Storage, Soaking, and Cooking Behavior of Pulses: A Scientific Basis for Innovations in Sustainable Foods for the Future

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