Microbial transglutaminase (MTGase) modified fish gelatin-γ-polyglutamic acid (γ-PGA): Rheological behavior, gelling properties, and structure

•γ-PGA combined with MTGase made a better texture of fish gelatin (FG).•MTGase promoted FG and γ-PGA crosslinks.•MTGase can increase the viscosity of FG-γ-PGA system.•A schematic model was proposed to illustrate the progressive modification. Fish gelatin (FG) has been extensively studied as a potent...

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Veröffentlicht in:	Food chemistry 2021-06, Vol.348, p.129093-129093, Article 129093
Hauptverfasser:	Hu, Zi-Zi, Sha, Xiao-Mei, Huang, Tao, Zhang, Lu, Wang, Guang-Yao, Tu, Zong-Cai
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Fish gelatin Fishes Gelatin - chemistry Gelling properties Gels Microbialtransglutaminase Polyglutamic Acid - analogs & derivatives Polyglutamic Acid - chemistry Rheological behavior Rheology Structure Transglutaminases - chemistry Viscosity γ-polyglutamic acid
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creator	Hu, Zi-Zi Sha, Xiao-Mei Huang, Tao Zhang, Lu Wang, Guang-Yao Tu, Zong-Cai
description	•γ-PGA combined with MTGase made a better texture of fish gelatin (FG).•MTGase promoted FG and γ-PGA crosslinks.•MTGase can increase the viscosity of FG-γ-PGA system.•A schematic model was proposed to illustrate the progressive modification. Fish gelatin (FG) has been extensively studied as a potential substitute for mammal gelatin. However, FG often requires different modification methods to change its physical and chemical properties due to its low gelling properties. Here, γ-polyglutamic acid (γ-PGA) and microbial transglutaminase (MTGase) were combined to modify FG to improve its gelling properties. The γ-PGA at 0.04% (w/v) and MTGase of different concentrations (0.02–0.08%, w/v) were used to modify FG, and the effects of complex modification on the gelling properties and structure of FG were studied. When the MTGase content was 0.08% (w/v), FG had the best gelling properties. In addition, the complex modification of MTGase and γ-PGA hindered the formation of the triple helix during the FG gel process. This reduced the gel rate, but significantly increased its viscosity. A schematic model was also proposed to illustrate the complex modifications of FG by MTGase and γ-PGA.
doi_str_mv	10.1016/j.foodchem.2021.129093
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Fish gelatin (FG) has been extensively studied as a potential substitute for mammal gelatin. However, FG often requires different modification methods to change its physical and chemical properties due to its low gelling properties. Here, γ-polyglutamic acid (γ-PGA) and microbial transglutaminase (MTGase) were combined to modify FG to improve its gelling properties. The γ-PGA at 0.04% (w/v) and MTGase of different concentrations (0.02–0.08%, w/v) were used to modify FG, and the effects of complex modification on the gelling properties and structure of FG were studied. When the MTGase content was 0.08% (w/v), FG had the best gelling properties. In addition, the complex modification of MTGase and γ-PGA hindered the formation of the triple helix during the FG gel process. This reduced the gel rate, but significantly increased its viscosity. A schematic model was also proposed to illustrate the complex modifications of FG by MTGase and γ-PGA.</description><identifier>ISSN: 0308-8146</identifier><identifier>EISSN: 1873-7072</identifier><identifier>DOI: 10.1016/j.foodchem.2021.129093</identifier><identifier>PMID: 33503534</identifier><language>eng</language><publisher>England: Elsevier Ltd</publisher><subject>Animals ; Fish gelatin ; Fishes ; Gelatin - chemistry ; Gelling properties ; Gels ; Microbialtransglutaminase ; Polyglutamic Acid - analogs & derivatives ; Polyglutamic Acid - chemistry ; Rheological behavior ; Rheology ; Structure ; Transglutaminases - chemistry ; Viscosity ; γ-polyglutamic acid</subject><ispartof>Food chemistry, 2021-06, Vol.348, p.129093-129093, Article 129093</ispartof><rights>2021 Elsevier Ltd</rights><rights>Copyright © 2021 Elsevier Ltd. 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Fish gelatin (FG) has been extensively studied as a potential substitute for mammal gelatin. However, FG often requires different modification methods to change its physical and chemical properties due to its low gelling properties. Here, γ-polyglutamic acid (γ-PGA) and microbial transglutaminase (MTGase) were combined to modify FG to improve its gelling properties. The γ-PGA at 0.04% (w/v) and MTGase of different concentrations (0.02–0.08%, w/v) were used to modify FG, and the effects of complex modification on the gelling properties and structure of FG were studied. When the MTGase content was 0.08% (w/v), FG had the best gelling properties. In addition, the complex modification of MTGase and γ-PGA hindered the formation of the triple helix during the FG gel process. This reduced the gel rate, but significantly increased its viscosity. 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Fish gelatin (FG) has been extensively studied as a potential substitute for mammal gelatin. However, FG often requires different modification methods to change its physical and chemical properties due to its low gelling properties. Here, γ-polyglutamic acid (γ-PGA) and microbial transglutaminase (MTGase) were combined to modify FG to improve its gelling properties. The γ-PGA at 0.04% (w/v) and MTGase of different concentrations (0.02–0.08%, w/v) were used to modify FG, and the effects of complex modification on the gelling properties and structure of FG were studied. When the MTGase content was 0.08% (w/v), FG had the best gelling properties. In addition, the complex modification of MTGase and γ-PGA hindered the formation of the triple helix during the FG gel process. This reduced the gel rate, but significantly increased its viscosity. 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subjects	Animals Fish gelatin Fishes Gelatin - chemistry Gelling properties Gels Microbialtransglutaminase Polyglutamic Acid - analogs & derivatives Polyglutamic Acid - chemistry Rheological behavior Rheology Structure Transglutaminases - chemistry Viscosity γ-polyglutamic acid
title	Microbial transglutaminase (MTGase) modified fish gelatin-γ-polyglutamic acid (γ-PGA): Rheological behavior, gelling properties, and structure
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