Retrogradation of Maize Starch after High Hydrostatic Pressure Gelation: Effect of Amylose Content and Depressurization Rate.

Retrogradation of Maize Starch after High Hydrostatic Pressure Gelation: Effect of Amylose Content and Depressurization Rate.

High hydrostatic pressure (HHP) has been employed to gelatinize or physically modify starch dispersions. In this study, waxy maize starch, normal maize starch, and two high amylose content starch were processed by a HHP of the order of 600 MPa, at 25°C for 15min. The effect of HHP processing on the...

Full description

Bibliographic Details
Main Authors: Zhi Yang, Peter Swedlund, Qinfen Gu, Yacine Hemar, Sahraoui Chaieb
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2016-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4878743?pdf=render
id doaj-65a0612ae2ba4770a5e0ec6793c0c3c4
record_format Article
spelling doaj-65a0612ae2ba4770a5e0ec6793c0c3c42020-11-25T02:33:33ZengPublic Library of Science (PLoS)PLoS ONE1932-62032016-01-01115e015606110.1371/journal.pone.0156061Retrogradation of Maize Starch after High Hydrostatic Pressure Gelation: Effect of Amylose Content and Depressurization Rate.Zhi YangPeter SwedlundQinfen GuYacine HemarSahraoui ChaiebHigh hydrostatic pressure (HHP) has been employed to gelatinize or physically modify starch dispersions. In this study, waxy maize starch, normal maize starch, and two high amylose content starch were processed by a HHP of the order of 600 MPa, at 25°C for 15min. The effect of HHP processing on the crystallization of maize starches with various amylose content during storage at 4°C was investigated. Crystallization kinetics of HHP treated starch gels were investigated using rheology and FTIR. The effect of crystallization on the mechanical properties of starch gel network were evaluated in terms of dynamic complex modulus (G*). The crystallization induced increase of short-range helices structures were investigated using FTIR. The pressure releasing rate does not affect the starch retrogradation behaviour. The rate and extent of retrogradation depends on the amylose content of amylose starch. The least retrogradation was observed in HHP treated waxy maize starch. The rate of retrogradation is higher for HHP treated high amylose maize starch than that of normal maize starch. A linear relationship between the extent of retrogradation (phase distribution) measured by FTIR and G* is proposed.http://europepmc.org/articles/PMC4878743?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Zhi Yang
Peter Swedlund
Qinfen Gu
Yacine Hemar
Sahraoui Chaieb
spellingShingle Zhi Yang
Peter Swedlund
Qinfen Gu
Yacine Hemar
Sahraoui Chaieb
Retrogradation of Maize Starch after High Hydrostatic Pressure Gelation: Effect of Amylose Content and Depressurization Rate.
PLoS ONE
author_facet Zhi Yang
Peter Swedlund
Qinfen Gu
Yacine Hemar
Sahraoui Chaieb
author_sort Zhi Yang
title Retrogradation of Maize Starch after High Hydrostatic Pressure Gelation: Effect of Amylose Content and Depressurization Rate.
title_short Retrogradation of Maize Starch after High Hydrostatic Pressure Gelation: Effect of Amylose Content and Depressurization Rate.
title_full Retrogradation of Maize Starch after High Hydrostatic Pressure Gelation: Effect of Amylose Content and Depressurization Rate.
title_fullStr Retrogradation of Maize Starch after High Hydrostatic Pressure Gelation: Effect of Amylose Content and Depressurization Rate.
title_full_unstemmed Retrogradation of Maize Starch after High Hydrostatic Pressure Gelation: Effect of Amylose Content and Depressurization Rate.
title_sort retrogradation of maize starch after high hydrostatic pressure gelation: effect of amylose content and depressurization rate.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2016-01-01
description High hydrostatic pressure (HHP) has been employed to gelatinize or physically modify starch dispersions. In this study, waxy maize starch, normal maize starch, and two high amylose content starch were processed by a HHP of the order of 600 MPa, at 25°C for 15min. The effect of HHP processing on the crystallization of maize starches with various amylose content during storage at 4°C was investigated. Crystallization kinetics of HHP treated starch gels were investigated using rheology and FTIR. The effect of crystallization on the mechanical properties of starch gel network were evaluated in terms of dynamic complex modulus (G*). The crystallization induced increase of short-range helices structures were investigated using FTIR. The pressure releasing rate does not affect the starch retrogradation behaviour. The rate and extent of retrogradation depends on the amylose content of amylose starch. The least retrogradation was observed in HHP treated waxy maize starch. The rate of retrogradation is higher for HHP treated high amylose maize starch than that of normal maize starch. A linear relationship between the extent of retrogradation (phase distribution) measured by FTIR and G* is proposed.
url http://europepmc.org/articles/PMC4878743?pdf=render
work_keys_str_mv AT zhiyang retrogradationofmaizestarchafterhighhydrostaticpressuregelationeffectofamylosecontentanddepressurizationrate
AT peterswedlund retrogradationofmaizestarchafterhighhydrostaticpressuregelationeffectofamylosecontentanddepressurizationrate
AT qinfengu retrogradationofmaizestarchafterhighhydrostaticpressuregelationeffectofamylosecontentanddepressurizationrate
AT yacinehemar retrogradationofmaizestarchafterhighhydrostaticpressuregelationeffectofamylosecontentanddepressurizationrate
AT sahraouichaieb retrogradationofmaizestarchafterhighhydrostaticpressuregelationeffectofamylosecontentanddepressurizationrate
_version_ 1724813314948595712

Similar Items