4.7 Article

Interactions between exogenous free fatty acids and maize starches varying in amylose content at high heating temperatures

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FOOD HYDROCOLLOIDS
卷 143, 期 -, 页码 -

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ELSEVIER SCI LTD
DOI: 10.1016/j.foodhyd.2023.108855

关键词

Maize starch; Free fatty acid; Amylose-lipid complex; High-temperature heating; Pasting property; Gelling ability

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This study investigated the effects of adding different free fatty acids (FFAs) to waxy, normal, and high-amylose maize starches during heating. The presence of FFAs resulted in the formation of amylose-lipid complexes (ALC) in the starches, which affected their physicochemical properties. The FFAs had varying effects on the viscosity and gel strength of the starches, with stearic acid showing the least impact. The functional attributes of the starch-FFA blends were influenced by factors such as ALC formation, melting temperature, and gelatinization temperature.
This study investigated the effects of adding 8.0% (w/w, dsb) free fatty acids (FFAs), including myristic acid (MA), palmitic acid (PA), stearic acid (SA), oleic acid (OA), and linoleic acid (LA), on the physicochemical properties of waxy (WMS), normal (NMS), and high-amylose maize (HMS) starches over 95-140 degrees C heating. After cooking the starch + FFA blends in Rapid Visco Analyser (RVA), the fully gelatinized NMS and HMS formed amylose-lipid complexes (ALC) with all the added FFAs. The developed ALC displayed melting temperatures of MA, PA, SA > OA > LA but discrepant trends in the melting enthalpy changes (Delta H) between the two starches. The FFAs noticeably elevated the final viscosity of NMS at 95 and 120 degrees C heating and that of HMS at 120 degrees C heating, but the increasing effect was not found at 140 degrees C heating. Most of the added FFAs significantly diminished the gel strength of NMS and HMS after 95-140 degrees C cooking. Among all the FFAs, SA - with the highest melting temperature (70.6 degrees C) - exhibited the poorest complexing ability with NMS and HMS and the least impact on their pasting and gelling properties; however, this FFA significantly improved the gelling ability of HMS after 120 and 140 degrees C cooking. The FFA addition generally exhibited negligible effect on the pasting and gelling properties of WMS. Our research revealed that, besides ALC formation, physical properties of the exogenous FFAs (e.g., melting temperature), the presence of endogenous ALC in starch, and the gelatinization temperature of starch significantly influenced the functional attributes of the different starch-FFA blends during 95-140 degrees C heating.

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