Structural characterization of different starch–fatty acid complexes and their effects on human intestinal microflora

Abstract

AbstractResistant starch type 5 (RS5), a starch–lipid complex, exhibited potential health benefits in blood glucose and insulin control due to the low digestibility. The effects of the crystalline structure of starch and chain length of fatty acid on the structure, in vitro digestibility, and fermentation ability in RS5 were investigated by compounding (maize, rice, wheat, potato, cassava, lotus, and ginkgo) of different debranched starches with 12–18C fatty acid (lauric, myristic, palmitic, and stearic acids), respectively. The complex showed a V‐type structure, formed by lotus and ginkgo debranched starches, and fatty acid exhibited a higher short‐range order and crystallinity, and lower in vitro digestibility than others due to the neat interior structure of more linear glucan chains. Furthermore, a fatty acid with 12C (lauric acid)‐debranched starches complexes had the highest complex index among all complexes, which might be attributed to the activation energy required for complex formation increased with the lengthening of the lipid carbon chain. Therefore, the lotus starch–lauric acid complex (LS12) exhibited remarkable ability in intestinal flora fermentation to produce short‐chain fatty acid (SCFAs), reducing intestinal pH, and creating a favorable environment for beneficial bacteria.