Gelation properties of tilapia fish protein isolate and surimi pre- and post-rigor: Rigor condition of tilapia FPI and surimi

Yuka Kobayashi; Steven G. Mayer; Jae W. Park

doi:10.1016/j.fbio.2016.11.001

Gelation properties of tilapia fish protein isolate and surimi pre- and post-rigor: Rigor condition of tilapia FPI and surimi

Yuka Kobayashi, Steven G. Mayer, Jae W. Park

Research output: Contribution to journal › Article › peer-review

18 Citations (Scopus)

Abstract

The structural changes and rheological properties of tilapia proteins prepared using two refining methods (pH shift processing and surimi processing, respectively) with pre- and post-rigor muscle were investigated. Higher storage modulus (G′) and better gel texture were observed in surimi produced from pre-rigor fish than surimi made from post-rigor fish, but no rigor effect was noted on the gel-forming ability of fish protein isolate (FPI). The effect of salt on the gelation of tilapia muscle with different rigor states or refining method was also determined. The addition of salt appeared to readily unfold protein structures in FPI as measured by surface hydrophobicity, surface reactive sulfhydryl content, dynamic rheology, and Raman spectroscopy. However, the effect of salt on the degree of unfolding in surimi was not as sensitive as in FPI.

Original language	English
Pages (from-to)	17-23
Number of pages	7
Journal	Food Bioscience
Volume	17
DOIs	https://doi.org/10.1016/j.fbio.2016.11.001
Publication status	Published - 2017 Mar 1
Externally published	Yes

Keywords

Fish protein isolate
Gelation
Rigor mortis
Surimi
Tilapia

ASJC Scopus subject areas

Food Science
Biochemistry

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10.1016/j.fbio.2016.11.001

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title = "Gelation properties of tilapia fish protein isolate and surimi pre- and post-rigor: Rigor condition of tilapia FPI and surimi",

abstract = "The structural changes and rheological properties of tilapia proteins prepared using two refining methods (pH shift processing and surimi processing, respectively) with pre- and post-rigor muscle were investigated. Higher storage modulus (G′) and better gel texture were observed in surimi produced from pre-rigor fish than surimi made from post-rigor fish, but no rigor effect was noted on the gel-forming ability of fish protein isolate (FPI). The effect of salt on the gelation of tilapia muscle with different rigor states or refining method was also determined. The addition of salt appeared to readily unfold protein structures in FPI as measured by surface hydrophobicity, surface reactive sulfhydryl content, dynamic rheology, and Raman spectroscopy. However, the effect of salt on the degree of unfolding in surimi was not as sensitive as in FPI.",

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T2 - Rigor condition of tilapia FPI and surimi

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AU - Mayer, Steven G.

AU - Park, Jae W.

PY - 2017/3/1

Y1 - 2017/3/1

N2 - The structural changes and rheological properties of tilapia proteins prepared using two refining methods (pH shift processing and surimi processing, respectively) with pre- and post-rigor muscle were investigated. Higher storage modulus (G′) and better gel texture were observed in surimi produced from pre-rigor fish than surimi made from post-rigor fish, but no rigor effect was noted on the gel-forming ability of fish protein isolate (FPI). The effect of salt on the gelation of tilapia muscle with different rigor states or refining method was also determined. The addition of salt appeared to readily unfold protein structures in FPI as measured by surface hydrophobicity, surface reactive sulfhydryl content, dynamic rheology, and Raman spectroscopy. However, the effect of salt on the degree of unfolding in surimi was not as sensitive as in FPI.

AB - The structural changes and rheological properties of tilapia proteins prepared using two refining methods (pH shift processing and surimi processing, respectively) with pre- and post-rigor muscle were investigated. Higher storage modulus (G′) and better gel texture were observed in surimi produced from pre-rigor fish than surimi made from post-rigor fish, but no rigor effect was noted on the gel-forming ability of fish protein isolate (FPI). The effect of salt on the gelation of tilapia muscle with different rigor states or refining method was also determined. The addition of salt appeared to readily unfold protein structures in FPI as measured by surface hydrophobicity, surface reactive sulfhydryl content, dynamic rheology, and Raman spectroscopy. However, the effect of salt on the degree of unfolding in surimi was not as sensitive as in FPI.

KW - Fish protein isolate

KW - Gelation

KW - Rigor mortis

KW - Surimi

KW - Tilapia

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Gelation properties of tilapia fish protein isolate and surimi pre- and post-rigor: Rigor condition of tilapia FPI and surimi

Abstract

Keywords

ASJC Scopus subject areas

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