Amylose molecular fine structure dictates water–oil dynamics during deep-frying and the caloric density of potato crisps

Reyniers, Stijn; Brier, Niels De; Ooms, Nand; Matthijs, Sandra; Piovesan, Agnese; Verboven, Pieter; Brijs, Kristof; Gilbert, Robert G.; Delcour, Jan A.

doi:10.1038/s43016-020-00180-x

Cited by 24 publications

(14 citation statements)

References 52 publications

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“…While Bouchon and Pyle (2004) suggested that the strength of this network relies on the amount of extracellular starch, Reyniers, De Brier, et al. (2020) demonstrated that especially the level of short extractable AM (E‐AM) chains in PFs plays a major role in gel formation during crisp making. Higher levels of these short E‐AM chains increase the extent of AM crystallization during dough making, likely because of their high mobility.…”

Section: Crisp‐making Processmentioning

confidence: 99%

“…When native starches are included in the dough formula, starch granule swelling and gelatinization during deep‐frying (Aguilera et al., 2001) can contribute to product expansion prior to reaching the boiling line. Irrespective of whether or not native starches are included in the recipe, recent studies have shown that dough expansion during deep‐frying depends on the strength of the starch gel network (Reyniers et al., 2019; Reyniers, De Brier, et al., 2020; Reyniers, Vluymans, et al., 2020). More particularly, the strong dough structures formed prior to deep‐frying, as a result of high levels of AM crystallization (Reyniers, De Brier, et al., 2020; Reyniers, Vluymans, et al., 2020) or ionic cross‐linking of AP (Reyniers et al., 2019), can partly withstand expansion during deep‐frying and yield dense and hard products (Figure 5).…”

Section: Crisp‐making Processmentioning

confidence: 99%

“…The strength of this “fringed micelle” starch network is mainly determined by the amount of relatively short E‐AM chains which has crystallized. Strong dough structures, as a result of high levels of E‐AM crystallization, show limited expansion during deep‐frying and yield dense and hard products with a low lipid content (Reyniers, De Brier, et al., 2020). Ways to tailor starch gel network formation during potato‐based crisp making and the resulting impact on dough and crisp properties, as proposed by Reyniers, Vluymans, et al.…”

Section: Crisp‐making Processmentioning

confidence: 99%

“…The lipid content of potato‐based crisps typically ranges from 21 to 36% of dm (Orosa et al., 2000; Reyniers et al., 2019; Reyniers, De Brier, et al., 2020; Reyniers, Vluymans, et al., 2020; Villagran et al., 2001). For crisps, it has recently been shown that the rate of water evaporation indeed affects dough expansion and oil uptake during deep‐frying, and that it depends on dough strength (Reyniers, De Brier, et al., 2020). More particularly, weaker dough sheets release water at a higher rate, as evidenced by temperature‐controlled TD 1 H NMR measurements.…”

Section: Crisp‐making Processmentioning

confidence: 99%

“…More particularly, weaker dough sheets release water at a higher rate, as evidenced by temperature‐controlled TD 1 H NMR measurements. This then results in products of lower density and higher lipid content (Reyniers, De Brier, et al., 2020). Mapping of the crisp's pore network architecture, by X‐ray microcomputed tomography, has revealed that large dough expansion during deep‐frying results in increased product pore sizes, which in turn leads to increased oil uptake (Figure 5A) (Reyniers, De Brier, et al., 2020).…”

Section: Crisp‐making Processmentioning

confidence: 99%

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Transformations and functional role of starch during potato crisp making: A review

Reyniers

Ooms

Delcour

2020

Journal of Food Science

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Potato chips are a major product in the savory snack market and are consumed worldwide because of their enjoyable and distinctive organoleptic properties. They are conventionally produced by deep-frying thin slices of fresh potato.In contrast,potato crisps are manufactured from dried potato derivatives such as potato flakes (PFs).Their production is reviewed in this manuscript and requires the formation of dough based on hydrated PFs. Expansion of the dough during deep-frying provides the crisps with their desired crunchy texture. As part of an overall trend, the consumer search for calorie-reduced food products has also stimulated research to lower oil uptake during crisp production. However, minimizing oil absorption without losing the characteristic palatability of deep-fried products is challenging and requires fundamental knowledge on factors determining product texture and oil absorption. The transformations and functional role of starch, potato's main constituent, during crisp making are key in this respect and are reviewed here.

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Section: Crisp‐making Processmentioning

confidence: 99%

Section: Crisp‐making Processmentioning

confidence: 99%

Section: Crisp‐making Processmentioning

confidence: 99%

Section: Crisp‐making Processmentioning

confidence: 99%

Section: Crisp‐making Processmentioning

confidence: 99%

See 3 more Smart Citations

Transformations and functional role of starch during potato crisp making: A review

Reyniers

Ooms

Delcour

2020

Journal of Food Science

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Tailoring the physicochemical properties of starch: impact of integrated ultrasonic and ethanol pretreatment on the oil uptake of infrared fried ginkgo seeds

Su,

Chen,

Sun

et al. 2024

J Sci Food Agric

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BackgroundThe structural changes of starch would have a more crucial impact on oil absorption and quality changes in starch‐rich fruits and vegetables during frying process with enhanced heat transfer (such as infrared frying). Currently, the influence of integrated ultrasonic and ethanol (US+ethanol) pretreatment on the oil uptake in infrared fried (IF) ginkgo seeds was evaluated regarding the modifications in physicochemical properties of starch. The pretreatment was performed with the ultrasonic (40 kHz, 300 W) and ethanol osmotic (95%, v/v) treatment individually or integrated for 40 min.ResultsThe mass transfer in the pretreatment was facilitated by combined ultrasound and ethanol. The swelling power, solubility, and gelatinization degree of starch was significantly increased. LF‐NMR curves and images revealed that the bound water fraction in ginkgo seeds was increased and the water distribution was homogenized. The Fourier transform‐infrared spectrum and differential scanning calorimeter results presented that the crystalline regions of starch were reduced and the thermal enthalpy was decreased after the US+ethanol pretreatment. The total, surface, and structural oil content in IF ginkgo seeds with US+ethanol pretreatment were reduced by 29.10%, 34.52%, and 29.73%, respectively. The US+ethanol pretreatment led to a thinner crust layer with increased porosity and smaller‐sized pores in the IF ginkgo seeds as observed by stereo microscope and scanning electron microscopy.ConclusionThe changes in structural and physicochemical properties of starch by combined ultrasound and ethanol would affect the crust ratio and pore characteristics in fried high‐starch fruits and vegetables, thereby reducing the oil absorption.This article is protected by copyright. All rights reserved.

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The effects of adding various starches on the structures of restructured potato‐based dough and the oil uptake of potato chips

Zhang,

Ni,

et al. 2024

J Sci Food Agric

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BackgroundThe material composition significantly influences the oil absorption and quality characteristics of fried food products. The oil absorption of restructured potato chips is highly dependent on the structural properties of the restructured potato‐based dough produced prior to frying. In this study, three types of starch were added to modify the structure of the restructured potato‐based dough, allowing the production of potato chips with less oil absorption.ResultsDistinct differences were observed among the three types of starch in terms of amylose content, chain length distribution, swelling power, solubility, crystalline structure, and pasting properties. The addition of wheat starch, corn starch, and tapioca starch changed the rheological properties, water distribution, and the strength of the restructured dough. Importantly, adding wheat starch and corn starch significantly lowered the oil content of potato chips by 7.94% and 13.06%, respectively. The reduction in oil absorption by potato chips was attributed to the increased strength of the starchy gel network of the dough, a slower rate of water evaporation, and a limitation of dough expansion during frying.ConclusionAdding wheat starch or corn starch to the restructured potato‐based dough resulted in a decrease in the oil absorption of potato chips by creating a stronger starchy gel network in the dough. This study could guide the development of suitable material compositions, which are important for producing fried food products with lower oil content.This article is protected by copyright. All rights reserved.

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Amylose molecular fine structure dictates water–oil dynamics during deep-frying and the caloric density of potato crisps

Cited by 24 publications

References 52 publications

Transformations and functional role of starch during potato crisp making: A review

Transformations and functional role of starch during potato crisp making: A review

Tailoring the physicochemical properties of starch: impact of integrated ultrasonic and ethanol pretreatment on the oil uptake of infrared fried ginkgo seeds

The effects of adding various starches on the structures of restructured potato‐based dough and the oil uptake of potato chips

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