Investigation of physicochemical properties of tapioca starch–methyl myristate complexes

Santi Anisa, Albert J. J. Woortman, Katja Loos, Rachmawati Rachmawati
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Abstract

Abstract Complexation can be utilized to modify starch properties. In this study, tapioca starch–methyl myristate (SM) complexes are prepared by mixing tapioca starch and methyl myristate (MM) in water at 90 °C. The MM amount is varied at 1%–10% w/w to study its effects on the complexes’ physicochemical properties, which are characterized using spectroscopic, thermal, crystallinity, particle size, and microscopic analyses. The complexes are stable crystalline materials, as iodine cannot replace complexed MM. In water, these complexes aggregate to form two different sizes of 29.5–162.7 nm (23%–58% population) and 711.2–7086.7 nm (42%–77% population), which melt at 90–95 °C. Solid complexes form porous morphologies, which start degrading at 260.3–263.4 °C, indicating high thermal stability. An in vitro digestibility study using α‐amylase shows that the higher the MM amount is, the slower the starch degradation. At 120 min digestion time, the complexes produce 11%–16% lower reducing sugar than native starch (S). This shows that starch complexation with MM complexes can produce starch materials with slower digestibility. For the kinetic analysis, the Weibull model fits better than the exponential model for analyzing the digestion kinetics of SM complexes by the α‐amylase enzyme.

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木薯淀粉-肉豆蔻酸甲酯配合物理化性质的研究
络合可以用来修饰淀粉的性质。本研究将木薯淀粉与肉豆蔻酸甲酯(MM)在90℃的水中混合,制备了木薯淀粉-肉豆蔻酸甲酯(SM)配合物。MM用量在1%-10% w/w范围内变化,以研究其对配合物理化性质的影响,并通过光谱、热、结晶度、粒度和微观分析对配合物的理化性质进行表征。这些配合物在水中聚集形成29.5 ~ 162.7 nm(占23% ~ 58%)和71.2 ~ 7086.7 nm(占42% ~ 77%)两种不同尺寸的配合物,在90 ~ 95℃下熔化。固体配合物形成多孔形态,在260.3-263.4℃开始降解,具有较高的热稳定性。利用α‐淀粉酶进行的体外消化率研究表明,MM含量越高,淀粉降解越慢。在消化时间为120 min时,配合物产生的还原糖比天然淀粉(S)低11% ~ 16%,说明淀粉与MM配合物络合产生的淀粉材料消化率较慢。对于动力学分析,Weibull模型比指数模型更适合于分析SM配合物被α‐淀粉酶消化的动力学。
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