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Título
Biophysical features of cereal endosperm that decrease starch bioaccessibility
Año del Documento
2017
Documento Fuente
Carbohydrate Polymers.
Abstract
The influence of the physical structure of cereal endosperm on the natural structural
integrity (intact cells) and starch bioaccessibility of the resultant flours was studied
using maize as example. Endosperm hardness, defined by its intracellular (protein
matrix) and extracellular (cell walls) constituents, affected the granular and molecular
damage of the starch of the resultant flours leading to higher digestibility of raw hard
than soft endosperm flours, but comparatively lower digestibility after cooking. After
milling, hard endosperm possessed more damaged starch (radial splitting of
amylopectin clusters) in the periphery of the resultant particles that increased in vitro
starch digestibility of raw flours. Conversely, the hard endosperm plant tissue matrix
significantly limited water availability and heat transfer on starch gelatinisation, thereby
decreasing the digestion rate after hydrothermal processing (in particle size flours >80
μm). This study provides a unique mechanistic understanding to obtain cereal flours
with slow digestion property for commercial utilisation
Palabras Clave
Endosperm
Maize
Starch
Digestion
Flour
Plant tissue
Cell walls
Revisión por pares
SI
Propietario de los Derechos
© Elsevier
Idioma
spa
Tipo de versión
info:eu-repo/semantics/submittedVersion
Derechos
openAccess
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