Use of ozone oxidation in combination with deacetylation for improving the structure and gelation properties of konjac glucomannan.

In this study, oxidized deacetylated konjac glucomannans with different degrees of oxidation were prepared by a combination of deacetylation and ozone oxidation. Carboxyl groups were found to be introduced into the modified konjac glucomannan while acetyl groups were removed. The backbone, branched chains, and crystal structure of modified konjac glucomannan were not significantly affected. The whiteness was enhanced to 97-99 % and the thermal degradation temperature was up to 250 °C after modification. The solubility of the modified konjac glucomannan (oxidized for 60 min) was significantly increased to 84.56 % (p < 0.05), while its viscosity and swelling power were notably decreased owing to the changes in molecular weight (from 106 to 104) and functional groups. Rheological analysis showed that oxidized deacetylated konjac glucomannan has the ability to form soft-textured gels and the potential to develop dysphagia foods. Future studies should focus on the gelation mechanisms of oxidized deacetylated konjac glucomannan. Copyright © 2024 Elsevier Ltd. All rights reserved.

Citation

Haoyuan Wang, Tianqin Fan, Zhilong Zeng, Zhaojun Chen, Manman Lu, Min Zhou, Xiaoli Qin, Xiong Liu. Use of ozone oxidation in combination with deacetylation for improving the structure and gelation properties of konjac glucomannan. Food chemistry. 2024 Sep 30;453:139599

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PMID: 38788640

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