Differential roles of C-3 and C-6 phosphate monoesters in affecting potato starch properties

Q2 Agricultural and Biological Sciences
Li Ding , Andreas Blennow , Yuyue Zhong
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引用次数: 0

Abstract

The effects of starch phosphate monoester content (SPC), namely C-3 (C3P) and C-6 phosphate monoesters (C6P), on the starch properties were investigated using four potato starches with varied SPC/C3P/C6P and two non-phosphorylated maize starches with a similar range of amylose content (AC) as controls. The starch property results showed that a higher SPC is associated with lower turbidity, storage and loss modulus after storage, and water solubility, but higher swelling power (SP) and pasting viscosities. These findings suggested that SPC inhibited molecular rearrangement during storage and starch leaching during heating, and enhanced swelling and viscosities due to increased hydration and water uptake caused by the repulsion effect of phosphate groups and a less ordered crystalline structure. Increased SPC also resulted in lower resistant starch (RS) content in a native granular state but higher RS after retrogradation. Pearson correlations further indicated that SPC/C3P/C6P were positively correlated with peak (r2 = 0.925, 0.873 and 0.930, respectively), trough (r2 = 0.994, 0.968 and 0.988, respectively), and final viscosities (r2 = 0.981, 0.968 and 0.971, respectively). Notably, SPC, mainly C3P, exhibited a significantly positive correlation with SP (r2 = 0.859) and setback viscosity (r2 = 0.867), whereas SPC, mainly C6P, showed a weak positive correlation with RS after retrogradation (r2 = 0.746). However, SPC had no significant correlations with water solubility, turbidity and rheology properties, which were more correlated with AC. These findings are helpful for the food industry to select potato starches with desired properties based on their contents of SPC, C3P, or C6P.

Abstract Image

C-3 和 C-6 磷酸单酯在影响马铃薯淀粉特性方面的不同作用
以四种 SPC/C3P/C6P 不同的马铃薯淀粉和两种直链淀粉含量(AC)范围相似的非磷酸化玉米淀粉为对照,研究了淀粉磷酸单酯含量(SPC),即 C-3 磷酸单酯(C3P)和 C-6 磷酸单酯(C6P)对淀粉特性的影响。淀粉特性结果表明,较高的 SPC 与较低的浊度、贮存模量和贮存后损失模量以及水溶性有关,但与较高的膨胀力(SP)和糊化粘度有关。这些研究结果表明,SPC 可抑制贮藏过程中的分子重排和加热过程中的淀粉浸出,并可提高膨胀率和粘度,这是由于磷酸基团的排斥效应和较低的有序结晶结构增加了水合作用和吸水性。增加 SPC 还会导致原生颗粒状态下的抗性淀粉(RS)含量降低,而逆变后的抗性淀粉(RS)含量升高。皮尔逊相关性进一步表明,SPC/C3P/C6P 分别与峰值(r2 = 0.925、0.873 和 0.930)、谷值(r2 = 0.994、0.968 和 0.988)和最终粘度(r2 = 0.981、0.968 和 0.971)呈正相关。值得注意的是,SPC(主要是 C3P)与 SP(r2 = 0.859)和后退粘度(r2 = 0.867)呈显著正相关,而 SPC(主要是 C6P)与逆渐变后的 RS 呈弱正相关(r2 = 0.746)。不过,SPC 与水溶性、浑浊度和流变特性没有明显的相关性,而与 AC 的相关性更高。这些发现有助于食品工业根据 SPC、C3P 或 C6P 的含量选择具有所需特性的马铃薯淀粉。
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来源期刊
CiteScore
7.30
自引率
0.00%
发文量
69
审稿时长
12 weeks
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