Ranilson S. Bezerra scite author profile

A 38.5 kDa alkaline protease from pyloric caeca of tambaqui (Colossoma macropomumj, a tropical freshwater fish, was partially purified in three steps: thermal treatment (45Cfor 30 min), salting‐out (ammonium sulfate at 40–80% of saturation) and gel filtration (Sephadex G‐75), The purification and yield were 51.2‐fold and 40%, respectively. The effects of pH, temperature, inhibitors, and substrates on proteolytic activities of partially purified enzyme were investigated. The optimum pH was 9.5, while the optimum temperature was 60C. This alkaline proteolytic activity remained unaltered after 30 min incubation at 55C. Active site inhibition provided additional evidence that this activity is attributed to a trypsin‐like enzyme.

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Trypsin-like enzyme from intestine and pyloric caeca of spotted goatfish (Pseudupeneus maculatus)

Souza

Amaral

Santo

et al. 2007

Food Chemistry

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Recovery of protein, chitin, carotenoids and glycosaminoglycans from Pacific white shrimp (Litopenaeus vannamei) processing waste

Cahú

Santos

Mendes

et al. 2012

Process Biochemistry

157

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Shrimp head waste is a major byproduct of crustacean processing in Northeastern Brazil and represents an interesting source of bioactive molecules. Additionally, its use increases the sustainability of processing fishery products. The present study reports a process developed for recovering bioactive molecules from shrimp heads through autolysis. A protein hydrolysate (120 ± 0.4 g) formed by a 9% (w/v) solution was recovered and lyophilized from 1 kg of shrimp heads. Approximately 195 ± 0.5 mg of carotenoids was recovered as an ethanolic extract. The recovery of chitin and chitosan were 25 ± 2 g kg −1 and 17 ± 4 g kg −1 wet processing waste, respectively. Chitosans were characterized by 13 C NMR, and FT-IR analysis and exhibited a variable degree of deacetylation (60-80%). Sulfated glycosaminoglycans that exhibited electrophoretic migration similar to mammalian standards were also recovered (79 ± 2 mg kg −1 wet processing waste), and their degradation products suggested the presence of C6sulfated heparan sulfate. These data point to the feasibility of an integrated process for isolating highly bioactive molecules, such as sulfated-and amino-polysaccharides, with a broad spectrum of applications from shrimp processing waste.

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