Title of article
Molecular structures of gellan gum imaged with atomic force microscopy (AFM) in relation to the rheological behavior in aqueous systems in the presence of sodium chloride
Author/Authors
Takahiro Funami، نويسنده , , Sakie Noda، نويسنده , , Makoto Nakauma، نويسنده , , Sayaka Ishihara، نويسنده , , Rheo Takahashi، نويسنده , , Saphwan Al-Assaf، نويسنده , , Shinya Ikeda، نويسنده , , Katsuyoshi Nishinari، نويسنده , , Glyn O. Phillips، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2009
Pages
7
From page
548
To page
554
Abstract
Aqueous solutions of gellan gum with comparable molecular mass but with different acyl contents were investigated by atomic force microscopy and rheological measurements in the presence of sodium chloride (NaCl). Results obtained were discussed in relation to our previous report using potassium chloride (KCl) as an added salt. For a low-acyl sample, continuous fibrous network structures were identified microscopically as in the case of KCl. The network structures were more heterogeneous than those formed with KCl in terms of the height distribution of molecular assemblies. Rheological thermal hysteresis between sol–gel transitions was detected as in the case of KCl. The storage modulus (G′) of the gelled system was ca. 15% of the corresponding data with KCl at 20 °C. For a high-acyl sample, no continuous network structures were identified but branches with observable ends were identified as in the case of KCl. The hysteresis was less evident than the corresponding data with KCl and for the low-acyl sample with NaCl. Also, G′ values at 20 °C were ca. 30% and 20% of the corresponding data with KCl and for the low-acyl sample with NaCl, respectively. Continuousness and homogeneity of network structures related to the hysteresis and elasticity of the system, respectively.
Keywords
Gellan gum , Molecular structures , Atomic force microscopy (AFM) , Sodium chloride (NaCl) , Rheology
Journal title
Food Hydrocolloids
Serial Year
2009
Journal title
Food Hydrocolloids
Record number
978517
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