{"title":"Rheology and NMR studies of true gel formation and gelation mechanism for lentinan","authors":"Ikumi Yamashita , Tomoe Yaguchi , Yuiko Kobayashi , Hideyuki Ito , Hirofumi Komori , Kyoko Noda , Yoko Sato , Katsuyoshi Nishinari , Yoko Nitta","doi":"10.1016/j.foodhyd.2025.111415","DOIUrl":null,"url":null,"abstract":"<div><div>True gel formation for lentinan, a β-glucan obtained from shiitake mushrooms, was investigated and the mechanism for gel formation was discussed. The extraction method presented in this study yielded lentinan with the same rheological properties regardless of which part of the shiitake mushroom was used. True gel formation was confirmed by the frequency dependence of the storage shear modulus <em>G</em>′ and loss shear modulus <em>G</em>″ in dynamic viscoelasticity measurements, and by gel fracture tests at 4 °C. <em>G</em>′ and <em>G</em>″ increased steeply around 6 °C upon cooling, and the mechanical loss tangent was below 0.1 at 4 °C, suggesting that gelation started at around 6 °C. This characteristic temperature was consistent with the conformational transition temperatures observed for lentinan and schizophyllan. This conformational transition has been considered to be a change from the triple helix, Helix II, to the more ordered Helix I. The NMR data obtained in this study suggested that the conformation of the side groups changed with the change from Helix II to Helix I. It was thought that Helix I with less steric hindrance of the side group partially associates with other Helix I molecules to form lentinan gels.</div></div>","PeriodicalId":320,"journal":{"name":"Food Hydrocolloids","volume":"167 ","pages":"Article 111415"},"PeriodicalIF":11.0000,"publicationDate":"2025-11-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Food Hydrocolloids","FirstCategoryId":"97","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S0268005X25003753","RegionNum":1,"RegionCategory":"农林科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"2025/4/8 0:00:00","PubModel":"Epub","JCR":"Q1","JCRName":"CHEMISTRY, APPLIED","Score":null,"Total":0}
引用次数: 0
Abstract
True gel formation for lentinan, a β-glucan obtained from shiitake mushrooms, was investigated and the mechanism for gel formation was discussed. The extraction method presented in this study yielded lentinan with the same rheological properties regardless of which part of the shiitake mushroom was used. True gel formation was confirmed by the frequency dependence of the storage shear modulus G′ and loss shear modulus G″ in dynamic viscoelasticity measurements, and by gel fracture tests at 4 °C. G′ and G″ increased steeply around 6 °C upon cooling, and the mechanical loss tangent was below 0.1 at 4 °C, suggesting that gelation started at around 6 °C. This characteristic temperature was consistent with the conformational transition temperatures observed for lentinan and schizophyllan. This conformational transition has been considered to be a change from the triple helix, Helix II, to the more ordered Helix I. The NMR data obtained in this study suggested that the conformation of the side groups changed with the change from Helix II to Helix I. It was thought that Helix I with less steric hindrance of the side group partially associates with other Helix I molecules to form lentinan gels.
期刊介绍:
Food Hydrocolloids publishes original and innovative research focused on the characterization, functional properties, and applications of hydrocolloid materials used in food products. These hydrocolloids, defined as polysaccharides and proteins of commercial importance, are added to control aspects such as texture, stability, rheology, and sensory properties. The research's primary emphasis should be on the hydrocolloids themselves, with thorough descriptions of their source, nature, and physicochemical characteristics. Manuscripts are expected to clearly outline specific aims and objectives, include a fundamental discussion of research findings at the molecular level, and address the significance of the results. Studies on hydrocolloids in complex formulations should concentrate on their overall properties and mechanisms of action, while simple formulation development studies may not be considered for publication.
The main areas of interest are:
-Chemical and physicochemical characterisation
Thermal properties including glass transitions and conformational changes-
Rheological properties including viscosity, viscoelastic properties and gelation behaviour-
The influence on organoleptic properties-
Interfacial properties including stabilisation of dispersions, emulsions and foams-
Film forming properties with application to edible films and active packaging-
Encapsulation and controlled release of active compounds-
The influence on health including their role as dietary fibre-
Manipulation of hydrocolloid structure and functionality through chemical, biochemical and physical processes-
New hydrocolloids and hydrocolloid sources of commercial potential.
The Journal also publishes Review articles that provide an overview of the latest developments in topics of specific interest to researchers in this field of activity.
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