Physicochemical characteristics, ATR-FTIR molecular interactions and in vitro starch and protein digestion of thermally-treated whole pulse flours

Carolina Estefanía Chávez-Murillo; Jorge Ivan Veyna-Torres; Luisa María Cavazos-Tamez; Julián de la Rosa-Millán; Sergio Othon Serna-Saldívar

doi:10.1016/j.foodres.2017.11.029

Physicochemical characteristics, ATR-FTIR molecular interactions and in vitro starch and protein digestion of thermally-treated whole pulse flours

Carolina Estefanía Chávez-Murillo, Jorge Ivan Veyna-Torres, Luisa María Cavazos-Tamez, Julián de la Rosa-Millán, Sergio Othon Serna-Saldívar

Unidad Profesional Interdisciplinaria de Ingeniería, Campus Zacatecas (UPIIZ)

Research output: Contribution to journal › Article › peer-review

94 Scopus citations

Abstract

Hydrothermal treatments, annealing (ANN) and heat moisture treatment (HMT) were applied to four whole pulse flours (black bean, broad bean, chickpea and lentil) with the aim to increase their slow digestible (SDS) and resistant starch (RS) fractions. In order to assess differences in their molecular interactions, they were analyzed and compared by ATR-FTIR before and after in vitro digestion. Both hydrothermal treatments promoted changes on starch granular architecture, being reflected on their thermal and pasting properties, that where positively correlated with their amylose and protein contents (R = 0.96, P < 0.01). Overall, the proposed hydrothermal treatments increased their SDS and RS fractions, but they had different effect on their in vitro protein digestion. The ATR-FTIR analysis of cooked flours before and after digestion showed that thermal treatments promoted new physical interactions at molecular scale between starch and proteins, that were correlated with the amount of RS fraction. The outcomes of this study could help to understand the slow digestion properties and possible interactions of the flour components in these four pulses.

Original language	English
Pages (from-to)	371-383
Number of pages	13
Journal	Food Research International
Volume	105
DOIs	https://doi.org/10.1016/j.foodres.2017.11.029
State	Published - Mar 2018

Keywords

ATR-FTIR
Annealing
Heat moisture treatment
In vitro starch digestion
Pulse flours

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10.1016/j.foodres.2017.11.029

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title = "Physicochemical characteristics, ATR-FTIR molecular interactions and in vitro starch and protein digestion of thermally-treated whole pulse flours",

abstract = "Hydrothermal treatments, annealing (ANN) and heat moisture treatment (HMT) were applied to four whole pulse flours (black bean, broad bean, chickpea and lentil) with the aim to increase their slow digestible (SDS) and resistant starch (RS) fractions. In order to assess differences in their molecular interactions, they were analyzed and compared by ATR-FTIR before and after in vitro digestion. Both hydrothermal treatments promoted changes on starch granular architecture, being reflected on their thermal and pasting properties, that where positively correlated with their amylose and protein contents (R = 0.96, P < 0.01). Overall, the proposed hydrothermal treatments increased their SDS and RS fractions, but they had different effect on their in vitro protein digestion. The ATR-FTIR analysis of cooked flours before and after digestion showed that thermal treatments promoted new physical interactions at molecular scale between starch and proteins, that were correlated with the amount of RS fraction. The outcomes of this study could help to understand the slow digestion properties and possible interactions of the flour components in these four pulses.",

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author = "Ch{\'a}vez-Murillo, {Carolina Estefan{\'i}a} and Veyna-Torres, {Jorge Ivan} and Cavazos-Tamez, {Luisa Mar{\'i}a} and {de la Rosa-Mill{\'a}n}, Juli{\'a}n and Serna-Sald{\'i}var, {Sergio Othon}",

note = "Publisher Copyright: {\textcopyright} 2017 Elsevier Ltd",

year = "2018",

month = mar,

doi = "10.1016/j.foodres.2017.11.029",

language = "Ingl{\'e}s",

volume = "105",

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journal = "Food Research International",

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Physicochemical characteristics, ATR-FTIR molecular interactions and in vitro starch and protein digestion of thermally-treated whole pulse flours. / Chávez-Murillo, Carolina Estefanía; Veyna-Torres, Jorge Ivan; Cavazos-Tamez, Luisa María et al.
In: Food Research International, Vol. 105, 03.2018, p. 371-383.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Physicochemical characteristics, ATR-FTIR molecular interactions and in vitro starch and protein digestion of thermally-treated whole pulse flours

AU - Chávez-Murillo, Carolina Estefanía

AU - Veyna-Torres, Jorge Ivan

AU - Cavazos-Tamez, Luisa María

AU - de la Rosa-Millán, Julián

AU - Serna-Saldívar, Sergio Othon

PY - 2018/3

Y1 - 2018/3

N2 - Hydrothermal treatments, annealing (ANN) and heat moisture treatment (HMT) were applied to four whole pulse flours (black bean, broad bean, chickpea and lentil) with the aim to increase their slow digestible (SDS) and resistant starch (RS) fractions. In order to assess differences in their molecular interactions, they were analyzed and compared by ATR-FTIR before and after in vitro digestion. Both hydrothermal treatments promoted changes on starch granular architecture, being reflected on their thermal and pasting properties, that where positively correlated with their amylose and protein contents (R = 0.96, P < 0.01). Overall, the proposed hydrothermal treatments increased their SDS and RS fractions, but they had different effect on their in vitro protein digestion. The ATR-FTIR analysis of cooked flours before and after digestion showed that thermal treatments promoted new physical interactions at molecular scale between starch and proteins, that were correlated with the amount of RS fraction. The outcomes of this study could help to understand the slow digestion properties and possible interactions of the flour components in these four pulses.

AB - Hydrothermal treatments, annealing (ANN) and heat moisture treatment (HMT) were applied to four whole pulse flours (black bean, broad bean, chickpea and lentil) with the aim to increase their slow digestible (SDS) and resistant starch (RS) fractions. In order to assess differences in their molecular interactions, they were analyzed and compared by ATR-FTIR before and after in vitro digestion. Both hydrothermal treatments promoted changes on starch granular architecture, being reflected on their thermal and pasting properties, that where positively correlated with their amylose and protein contents (R = 0.96, P < 0.01). Overall, the proposed hydrothermal treatments increased their SDS and RS fractions, but they had different effect on their in vitro protein digestion. The ATR-FTIR analysis of cooked flours before and after digestion showed that thermal treatments promoted new physical interactions at molecular scale between starch and proteins, that were correlated with the amount of RS fraction. The outcomes of this study could help to understand the slow digestion properties and possible interactions of the flour components in these four pulses.

KW - ATR-FTIR

KW - Annealing

KW - Heat moisture treatment

KW - In vitro starch digestion

KW - Pulse flours

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JO - Food Research International

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Physicochemical characteristics, ATR-FTIR molecular interactions and in vitro starch and protein digestion of thermally-treated whole pulse flours

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