在低 pH 值下，储存的胶凝化蜡质马铃薯淀粉通过形成分子间双螺旋形成强的复凝胶。

Stored Gelatinized Waxy Potato Starch Forms a Strong Retrograded Gel at Low pH with the Formation of Intermolecular Double Helices.

机构信息

Whistler Center for Carbohydrate Research, Department of Food Science, Purdue University, West Lafayette, Indiana 47906, United States.

Whistler Center for Carbohydrate Research, Department of Agricultural and Biological Engineering, Purdue University, West Lafayette, Indiana 47906, United States.

出版信息

J Agric Food Chem. 2020 Apr 1;68(13):4036-4041. doi: 10.1021/acs.jafc.9b08268. Epub 2020 Mar 19.

DOI:10.1021/acs.jafc.9b08268

PMID:32159957

Abstract

Waxy potato amylopectin has longer internal and external linear chains than rice or corn amylopectin that are capable of retrograding to a higher degree, but its molecular recrystallization is impeded by unprotonated phosphate groups. Here, we studied whether retrogradation and gel properties of waxy potato starch can be enhanced by lowering pH. The gel strength of waxy potato starch was strongly inversely correlated with pH, going from 10 to 4, and its magnitude was higher at pH values in which the ζ potential of the system was low. Waxy potato starch formed a strong aggregate gel driven by the formation of intermolecular double helices (' drop ≈ 1358 Pa, melting Δ = 9.5 J/g) when conditions that reduce electrostatic repulsion (pH 4, ζ = -1.7) are used, a phenomenon that was not observed in low-phosphorylated waxy cereal starches (i.e., waxy rice and corn).

摘要

蜡质马铃薯直链淀粉的内部和外部线性链比稻米或玉米直链淀粉更长，能够高度回生，但未质子化的磷酸基团会阻碍其分子重结晶。在这里，我们研究了通过降低 pH 值是否可以增强蜡质马铃薯淀粉的回生和凝胶性质。蜡质马铃薯淀粉的凝胶强度与 pH 值呈强烈的反比关系，从 10 降低到 4，当体系的 ζ 电位较低时，其强度更大。蜡质马铃薯淀粉在降低静电排斥条件下（pH 4，ζ=-1.7）形成了强的分子间双螺旋聚集凝胶（“drop ≈ 1358 Pa，熔融 Δ = 9.5 J/g），这在低磷酸化蜡质谷物淀粉（即蜡质大米和玉米）中没有观察到。

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在低 pH 值下，储存的胶凝化蜡质马铃薯淀粉通过形成分子间双螺旋形成强的复凝胶。

Stored Gelatinized Waxy Potato Starch Forms a Strong Retrograded Gel at Low pH with the Formation of Intermolecular Double Helices.

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