The effect of different thermal modifications on slowly digestible starch and physicochemical properties of green banana flour (Musa acuminata colla)

•Annealing did not affect diffraction patterns of banana flour.•Heat moisture treatment (HMT) and dual retrogradation (DR) changed the crystal type.•Relative crystallinity played a role in the change of flour pasting temperature.•Crystal type and granule morphology contributed to the extent of diges...

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Veröffentlicht in:	Food chemistry 2019-02, Vol.274, p.274-280
Hauptverfasser:	Cahyana, Yana, Wijaya, Evelyn, Halimah, Tien Siti, Marta, Herlina, Suryadi, Edy, Kurniati, Dian
Format:	Artikel
Sprache:	eng
Schlagworte:	Annealing Banana Digestibility Digestion Flour Food Handling - methods HMT Microscopy, Electron, Scanning Musa - chemistry Pasting properties Retrogradation Starch - chemistry X-Ray Diffraction XRD
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creator	Cahyana, Yana Wijaya, Evelyn Halimah, Tien Siti Marta, Herlina Suryadi, Edy Kurniati, Dian
description	•Annealing did not affect diffraction patterns of banana flour.•Heat moisture treatment (HMT) and dual retrogradation (DR) changed the crystal type.•Relative crystallinity played a role in the change of flour pasting temperature.•Crystal type and granule morphology contributed to the extent of digestibility.•Compact granule surface led to high resistant stach content. The effect of heat moisture treatment (HMT), annealing (ANN), and dual retrogradation (DR) on functional and pasting properties, digestibility of starch components of banana flour comprising rapidly digestible starch (RDS), slowly digestible starch (SDS) and resistant starch (RS) has been investigated, using native banana flour (NBF) as a control. Crystal type, relative crystallinity and morphological changes were characterised by XRD and SEM. HMT has markedly modified the pasting properties and resulted in the highest SDS content. HMT and ANN increased the relative crystallinity but DR decreased it. HMT and DR altered XRD patterns from B to A and A + B type respectively, while ANN did not change the XRD patterns. The NBF compact granule surface remained unchanged with ANN but changed to a more porous surface with HMT and DR, thereby increasing the digestibility. Crystal type and granule morphology affected the digestibility while relative crystallinity might change the pasting point.
doi_str_mv	10.1016/j.foodchem.2018.09.004
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The effect of heat moisture treatment (HMT), annealing (ANN), and dual retrogradation (DR) on functional and pasting properties, digestibility of starch components of banana flour comprising rapidly digestible starch (RDS), slowly digestible starch (SDS) and resistant starch (RS) has been investigated, using native banana flour (NBF) as a control. Crystal type, relative crystallinity and morphological changes were characterised by XRD and SEM. HMT has markedly modified the pasting properties and resulted in the highest SDS content. HMT and ANN increased the relative crystallinity but DR decreased it. HMT and DR altered XRD patterns from B to A and A + B type respectively, while ANN did not change the XRD patterns. The NBF compact granule surface remained unchanged with ANN but changed to a more porous surface with HMT and DR, thereby increasing the digestibility. 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subjects	Annealing Banana Digestibility Digestion Flour Food Handling - methods HMT Microscopy, Electron, Scanning Musa - chemistry Pasting properties Retrogradation Starch - chemistry X-Ray Diffraction XRD
title	The effect of different thermal modifications on slowly digestible starch and physicochemical properties of green banana flour (Musa acuminata colla)
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