R. Hastings scite author profile

The diffusion of sodium chloride and acetic acid into herring muscle and their subsequent effects on the myotibrillar proteins were studied at different temperatures and fish:cure ratios. Acid was found to penetrate tissue more quickly than salt. The acid and salt cause an initial "hardening" of the tissue, the extent of which is proportional to the concentration of each, but it is considered that the resultant fall in pH activates muscle cathepsins. SDS PAGE indicated that proteolysis of the myosin heavy chains was concomitant with subsequent tissue softening. Electron microscopy detected little disintegration of myofilaments, but extensive break-up of Z-lines.

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Differential Scanning Calorimetry of Fish Muscle: The Effect of Processing and Species Variation

Hastings

Rodger

Park

et al. 1985

Journal of Food Science

106

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Differential Scanning Calorimetry (DSC) has been used to study the thermal properties of fish muscle proteins and to measure the extent of their denaturation under various processing conditions. Fish myosin was susceptible to denaturation by frozen storage and dehydration. Denaturation of certain fish proteins was partially reversible. Although fish myosin was very unstable, its thermal stability was found to increase in species adapted, to higher environmental temperatures.

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Effect Of Alkaline Protease Activity on Some Properties Of Comminuted Squid

et al. 1984

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A highly active protease exists in squid muscle. After comminution the muscle can autolyze to such a degree that its rheological properties show extensive change, SDS gel electrophoresis showed that this change is concomitant with progressive myosin degradation but Differential Scanning Calorimetry of autolyzed cornminutes showed no change in the characteristic thermal transitions relative to a control sample. Similarly sensory assessment of a cooked autolyzed comminute did not reflect the extent of change exhibited in the raw state. This preliminary evidence suggests that proteolysis of a raw muscle comminute need not affect its sensory properties.

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Comparison of the properties of gels derived from cod surimi and from unwashed and once‐washed cod mince

Hastings¹

1989

Int J of Food Sci Tech

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Surimi is a washed and stabilized fish mince with valuable gel-forming properties. However the preparation process is wasteful and a modified process, with less washing, was investigated. The properties of the gels (cooked at 40°C for 30 min followed by 90°C for 40 min) were assessed by instrumental and sensory methods. Gels prepared from surimi were soft and very flexible; gels from unwashed fresh cod mince were firmer and less elastic, but still gave a maximum score on the folding test. A single wash made the gels firmer and slightly more elastic than those from unwashed mince. Gels from unwashed mince of frozen cod were firmer than surimi-derived gels, and were the most brittle. Sensory assessment of the gels found no difference in firmness between the different washing procedures and small differences in elasticity and toughness. The addition of starch (fish: starch, 100: 5, w/w) increased the firmness and sensory toughness of each derived gel, and reduced the elasticity in the mouth of non-surimi gels. The colour of gels derived directly from fish was off-white, compared with the white surimi-derived gels. The colour of the former darkened during frozen storage, but lightened again after thawing.

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Effects of Water, Oil, Egg White and Starch on the Texture of Cod Surimi Gels by Response Surface Methodology

Hastings¹,

Currall²

1988

Journal of Texture Studies

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R. Hastings

Diffusion Properties of Salt and Acetic Acid into Herring and Their Subsequent Effect on the Muscle Tissue

Differential Scanning Calorimetry of Fish Muscle: The Effect of Processing and Species Variation

Effect Of Alkaline Protease Activity on Some Properties Of Comminuted Squid

Comparison of the properties of gels derived from cod surimi and from unwashed and once‐washed cod mince

Effects of Water, Oil, Egg White and Starch on the Texture of Cod Surimi Gels by Response Surface Methodology

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