Valorization of Proteins from Co- and By-Products from the Fish and Meat Industry.

Large volumes of protein-rich residual raw materials, such as heads, bones, carcasses, blood, skin, viscera, hooves and feathers, are created as a result of processing of animals from fisheries, aquaculture, livestock and poultry sectors. These residuals contain proteins and other essential nutrients with potentially bioactive properties, eligible for recycling and upgrading for higher-value products, e.g.

Extraction and characterisation of gelatine from Atlantic salmon (Salmo salar) skin.

Gelatine was extracted from Atlantic salmon and Atlantic cod skin by the acid extraction process. After filtration and ion exchange treatment the extracts were colourless and free from fishy odour. In three separate experiments the average yields of gelatine from salmon and cod skins were 39.

Histone-like proteins from Atlantic cod milt: stimulatory effect on Atlantic salmon leucocytes in vivo and in vitro.

This study was carried out to reveal some characteristics of cationic proteins from Atlantic cod (Gadus morhua) milt chromatin and to investigate their ability to activate Atlantic salmon (Salmo salar) macrophages. Cationic proteins extracted from cod milt chromatin were fractionated on a cation exchange chromatography column. SDS-PAGE and amino acid analyses of the resulting fractions indicated that these proteins are similar to calf thymus histones.

Preparation and characterisation of gelatine from the skin of harp seal (Phoca groendlandica).

This paper describes a method for extraction of gelatine from the skin of harp seal at mild acid conditions and gives a chemical and physical comparison of this gelatine with other mammalian and cod-skin gelatines. As compared to the wet weight of unhaired skin, a recovery of 11% dry gelatine was achieved after acid treatment and a two step water extraction at 60 and 75 degrees C. The chemical and physical properties of the gelatine were similar to the properties of commercial gelatines made from bovine and porcine skin, but significantly different from the properties of Atlantic cod-skin gelatine.

HPLC preparation of fish waste hydrolysate fractions. Effect on guinea pig ileum and ACE activity.

The effect of RP-HPLC-purified fractions of fish waste hydrolysates issued from three fish industries was tested on guinea pig ileum in order to examine the presence of opioid molecules. The evaluation of anti-hypertensive activities of whole hydrolysates and fractions were also tested, monitoring the ability of the fraction to inhibit the activity of angiotensin I-converting enzyme involved in hypertension regulation. Sardine autolysate and cod head hydrolysate powder (50 microg) were able to inhibit near 30% of ACE activity, whereas 50 microg of shrimp hydrolysate allows the inhibition of 57% of ACE activity.