• Korean Journal of Food Science and Technology
• /
• v.30 no.1
• /
• pp.49-53
• /
• 1998

For the effective utilization of by-products from pollack, Theragra chalcogramma, processing, low salt fermented pollack tripe were produced and changes in taste compounds of low salt fermented pollack tripe during the controlled freezing point aging were investigated. No significant changes in contents of moisture, crude protein, crude lipid and ash were found during aging. The volatile base nitrogen of low salt fermented pollack tripe increased steadily as aging progressed. Contents of amino nitrogen and nitrogenous compounds of extract reached a peak in 50 days of aging, as 190.7 mg% and 2085.8 mg%, respectively. Inosine(HxR) of low salt fermented pollack tripe increased as controlled freezing point aging progressed for 60 days. 18 species of amino acid were detected in raw pollack tripe and law salt fermented pollack tripe aged for 50 days. The major amino acids were tyrosine, phenylalanine, histidine, arginine, lycine, leucine, aspartic acid and glutamic acid in raw pollack tripe. After 50 days aging, increase of a series of bitter taste amino acid such as methionine, valine and isoleucine were higher than other amino acids.

• Korean Journal of Fisheries and Aquatic Sciences
• /
• v.28 no.3
• /
• pp.301-308
• /
• 1995

To establish the quality criteria of low-salt fermented seafoods in terms of consumer acceptability, sensory assessment and physicochemical analysis were undertaken using commercial products. In case of low-salt fermented Alaska pollack (Theragra chalcogramma) roe, Brix over $47.6\%$ for unseasoned products and $41.2\%$ for seasoned ones were considered as acceptable products. In spite of some variations between manufacturers, increase in whiteness was observed as consumer acceptability was decreased. In contrast, whiteness was not suitable criteria for low-salt fermented squid (Sepiella maindroni). Brix can be used as good criteria as long as its relationship was established to acceptability of different products; pH also showed the same tendency as Brix. In case of low-salt fermented Alaska pollack tripe, Brix was likely to be the best criteria; whiteness, in addition, could be used as quality criteria.

• The Korean Journal of Food And Nutrition
• /
• v.24 no.3
• /
• pp.340-349
• /
• 2011

This study examined the roles of autolytic enzymes and microorganisms in the ripening process of salted Alaska pollack tripe made with various concentrations of salt i.e, 7.5% and 20% by weight. Salted Alaska pollack tripe treated with antibiotic agents for the inhibition of microbial growth and a control were prepared experimentally, and changes in chemical composition and viable cell counts were investigated, individually, during the ripening process. Just after the preparation of the low salt Alaska pollack tripe made with 7.5% salt, viable bacterial cells occurred at a level of $10^5$ CFU/g. In the control, bacterial counts increased rapidly to $10^7$ CFU/g by the 14th day of ripening. However, in the sample treated with antibiotic agents, counts were decreased to a level of $10^4$ CFU/g by the 3rd day of ripening and increased gradually to $10^6$ CFU/g by the 5th day of ripening, and then the same value was maintained there-after. Just after the preparation of the high salt Alaska pollack tripe made with 20% salt, viable bacterial cells occurred at a level of $10^3$ CFU/g. In both the samples treated with antibiotic agents and the control, bacterial counts decreased rapidly to $10^0$ CFU/g by the 45th day of ripening and increased gradually there-after. The content of amino type nitrogen was 76.3 mg% just after the preparation of the low salt Alaska pollack tripe made with 7.5% salt. Amino type nitrogen content was increased to 283.5 mg% by the 5th day of proper ripening in the control, but it was increased to 208.0 mg% in the sample treated with antibiotic agents. The difference in amino type nitrogen content was 75.5 mg/100 g. The content of amino type nitrogen was 57.2 mg% just after the preparation of the high salt Alaska pollack tripe made with 20% salt. Amino type nitrogen content was increased to 198.3 mg by the 60th day of proper ripening in the control, but it was increased to 162.0 mg% in the sample treated with the antibiotic agents. The difference in amino type nitrogen content was 36.3 mg/100 g. The contents of VBN and TMA-N were 102.1 mg% and 20.5 mg%, respectively, at the 7th day of ripening in the low salt Alaska pollack tripe made with 7.5% salt. The content of VBN was 60.0 mg% and TMA-N was not detected at the 21st day of ripening in the sample treated with antibiotic agents. The control sample was spoiled by the 7th day of ripening but the sample treated with antibiotic agents was not spoiled by the 21st day of ripening. On the other hand, VBN content was 37.2 mg% and TMA-N was not detected at the 90th day of ripening in the high salt Alaska pollack tripe made with 20% salt, and the control sample was not spoiled.