2011
DOI: 10.1016/j.cbpb.2011.04.002
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Biochemical characterization of trypsins from the hepatopancreas of Japanese sea bass (Lateolabrax japonicus)

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Cited by 20 publications
(7 citation statements)
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“…These results are consistent with those reported for trypsin from fish species in literature [6]. Trypsin stability to pH variation was similar to the findings reported by Silva et al [7] for silver mojarra D. rhombeus remaining stable in a range of alkaline pH (8.5-11.0) and being unstable in pH below 8.5 and showing negligible activity at pH 4.5, while Cai et al [20] reported recovery of activity for Japanese sea bass L. japonicus in the pH range from 7.0 to 11.0.…”
Section: Discussionsupporting
confidence: 91%
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“…These results are consistent with those reported for trypsin from fish species in literature [6]. Trypsin stability to pH variation was similar to the findings reported by Silva et al [7] for silver mojarra D. rhombeus remaining stable in a range of alkaline pH (8.5-11.0) and being unstable in pH below 8.5 and showing negligible activity at pH 4.5, while Cai et al [20] reported recovery of activity for Japanese sea bass L. japonicus in the pH range from 7.0 to 11.0.…”
Section: Discussionsupporting
confidence: 91%
“…In this study, peak activity of trypsin was found in the pH 9.0. Similar reports have showed the optimum activity of enzymatic crude extracts from Brownstripe red snapper Lutjanus vitta [26], Japanese sea bass L. japonicus [20] and pirarucu A. gigas [8] in the range from 8.5 to 10.0. These results are consistent with those reported for trypsin from fish species in literature [6].…”
Section: Discussionsupporting
confidence: 79%
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“…Trypsins are mainly known to be more active at pH 7.5-10.5 (Simpson 2000). The optimum pH (8.5) recorded for trypsin in both ICEs was similar with results reported for trypsins from the brownstripe red snapper viscera and the albacore tuna liver (Khantaphant and Benjakul 2010; Klomkalo and Benjakul 2018), whereas both trypsins indicated the lower optimum temperature than those recorded for the Japanese sea bass, the albacore tuna spleen and the pirarucu (Cai et al 2011;Poonsin et al 2019; De Freitas-Junior et al 2021). However, optimum pH may differ depending upon the experimental conditions such as concentration and type of substrate, temperature and type of metal ions (Klomkalo et al 2006).…”
Section: Effect Of Ph On Activity and Stabilitysupporting
confidence: 82%
“…In the last 12 years, some other native fish trypsins have been characterized and are summarized in Table 1. BAPNA and TAME remain the preferred substrates for the enzymatic characterization; however, alternative synthetic substrates, such as t-butyloxy-carbonyl-Phe-Ser-Arg-4-methyl-coumaryl-7-amide (Boc-Phe-Ser-Arg-MCA), N-benzoyl-l-arginine ethyl ester HCl (BAEE), and benzyloxycarbonyl-l-Phe-l-Arg-p-nitroanilide (CBZ-FR-pNA) and benzyloxycarbonyl-Gly-Pro-Arg p-nitroanilide acetate salt (CBZ-GPR-pNA), have been recently assayed (Liu et al 2007;Lu et al 2008;Cai et al 2011;Stefansson et al 2017). These fluorogenic substrates facilitate the quantification of enzymatic activity; however, it is unknown whether the features observed using these synthetic substrates resemble those that would be obtained using natural substrates.…”
Section: Sources and Enzymatic Properties Of Native Fish Trypsinsmentioning
confidence: 99%