Abstract
Whole fish and H&G (headed and gutted) fish were stored under refrigeration (<4°C) for 0, 2, and 5days and subsequently filleted and frozen at −18°C and −80°C. Frozen fillets were analyzed during 24weeks of storage. The activity of trimethylamine-N-oxide demethylase (TMAOase) decreased more quickly at −18°C than −80°C. TMAOase reduction was distinctively noted at −18°C storage. Formaldehyde (FA) induced by TMAOase increased at all treatments at −18°C as frozen storage extended to 24weeks, but it was near zero at −80°C up to 12weeks of storage. Textural toughening, low water retention ability, and low salt soluble protein resulted from the denaturation function of FA. A sudden decrease in surface hydrophobicity at 24weeks, when stored at −18°C, resulted from FA-induced unfolding and subsequent aggregation. FA concentration appeared to affect protein aggregations and textual toughening of fillets during frozen storage.
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