• Journal of the Korean Society of Food Science and Nutrition
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• v.22 no.4
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• pp.448-457
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• 1993

Deterioration of fish muscle is known to occur more quickly in the dark fleshed fish than in the white fleshed fish, causing by their high intestinal proteolytic activity. Muscle degradation which suffer post-mortem autoproteolysis is affected by trypsin with its unique activation function towards other enzymes. To compare physicochemical and enzymatic properties for the trypsins of the dark fleshed fish, trypsins from the viscera of anchovy (Engraulis japonica), and the pyloric caeca of mackerel (Scomber japonicus), yellowfin tuna (Thunnus albacores) and albacore (Thunnus alalunga) were purified through ammonium sulfate fractionation, benzamidine-Sepharose 6B, DEAE-Sephadex A-50, and Sephadex G-75 chromatography Two trypsins from mackerel (designated mackerel trypsin A and mackerel trypsin B), and one each from anchovy, yellowfin tuna and albacore were isolated as electrophoretical homogeneity, The purities of anchovy trypsin, mackerel trypsin A and B, yellowfin tuna trypsin, and albacore trypsin increased to 78.1, 4.8, 9.3, 120, and 160-fold, respectively, compared to crude enzyme solutions. Molecular weights of the trypsins from the dark fleshed fish estimated by SDS-polyacrylamide electrophoresis were ranged from 22kDa to 26kDa. The trypsins contained higher amount of glycine, serine and aspartic acid, and less amount of tryptophan, methionine, lysine and tyrosine. Optimal conditions for amidotici reactions of the enzymes were pH 8.0 and 45$^{\circ}C$ for anchovy trypsin, pH 8.0 and 5$0^{\circ}C$ for mackerel trypsin A and B, pH 9.0 and 55$^{\circ}C$ for yellowfin tuna trypsin, and pH 9.0 and 5$0^{\circ}C$ for albacore trypsin. It was supposed that the habitat temperature of the dark fleshed fish is slightly connected with the optimal reaction temperature of the trypsins of the fish.

• Korean Journal of Fisheries and Aquatic Sciences
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• v.29 no.1
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• pp.64-70
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• 1996

Kinetic properties of typsins purified from dark-fleshed fish (anchovy, mackerel, yellowfin tuna, and albacore) were examined and analyzed on $benzoyl-_{D,L}-arginine-p-nitroanilide\;(BAPNA)$. The values of Km' and $k_{cat}$ of the purified trypsins from the four dark-fleshed fish were found to be $49.3{\mu}M$ and $90.9\;min^{-1}$ for anchovy, $53.7{\mu}M$ and $61.2min-^{-1}$ for mackerel A, $96.5{\mu}M$ and $76.6min^{-1}$ for mackerel B, $62.8{\mu}M$ and $46.6min^{-1}$ for yellowfin tuna, and $98.3{\mu}M$ and $47.7min^{-1}$ for albacore, respectively. The values of $K_i$ on $tosyl-_L-lysine$ chloromethyl ketone (TLCK) were determined to be $20.90{\mu}M$ for anchovy trypsin, $2.86{\mu}M$ for mackerel trypsin A, $3.90{\mu}M$ for mackerel trypsin B, $0.96{\mu}M$ for yellowfin tuna trypsin, and $1.82{\mu}M$ for albacore trypsin. Thus yellowfin tuna trypsin was the most sensitive to TLCK among all trypsins. The activities and catalytic efficiency of the trypsins purified from the temperate zone fish, anchovy and mackerel, were higher than those of the trypsins purified from yellowfin tuna and albacore which migrate widely from the tropic zone to the temperate zone.

• Korean Journal of Fisheries and Aquatic Sciences
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• v.29 no.6
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• pp.797-804
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• 1996

Two trypsins were purified from shrimp hepatopancreas through ammonium sulfate fractionation, Q-Sepharose ionic exchange, benzamidine Sepharose-6B affinity, and Sephacryl S-300 gel chromatography. Both enzymes had a single polypeptide chain with a molecular weight (M.W.) of 32 kDa by sodium dodecylsulfate polyacrylamide gel electrophoresis (SOS-PAGE), although trypsin A and B were estimated to be a molecular weight of 27.2 and 22.8 kDa, respectively, using Sephacryl S-300 gel filtration. Both trypsins had similar amino acid compositions and rich in glycine, valine, alanine, aspartic acid, and glutamic acid, but low in methionine and basic amino acids. Both enzymes were completely inactivated by soybean trypsin inhibitor (SBTI), phenylmethylsulfonyl fluoride (PMSF), tosyl-L-lysine chloromethyl ketone (TLCK), benzamidine, leupeptin, however, not affected by tosyl-L-phenylalanine chloromethyl ketone (TPCK) and pepstatin.

• Korean Journal of Fisheries and Aquatic Sciences
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• v.24 no.5
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• pp.273-288
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• 1991

To elucidate the physiological and biochemical differences between chondrichthyes and osteichthyes, the properties of the specific digestive enzymes in cat-shark, Cephaloscyllium umbratile, and mackerel, Scomber japonicus, were studied. Homogenous trypsin proved through the disc-electrophoresis, SDS-PAG electrophoresis and gel filtration was obtained from the pancreas of cat-shark by $50-70\%$ saturated ammonium sulphate fractionation, DEAE-Sephadex A-50 column chromatography, benzamidine-Sepharose 6B affinity chromatography and Sephadex G-75-120 gel filtration. Two types of trypsins were also obtained from the pyloric caeca of mackerel by $30-70\%$ saturated ammonium sulphate fractionation and the slightly modified procedure from the method adopted in the purification of cat-shark trypsin. The two trypsins, designated trypsin A and B, were proved their homogeneity by disc- and SDS-PAG electrophoresis and gel filtration. The molecular weights of the trypsins were estimated to be 31,700 for cat-shark trypsin, 30,000 for mackerel trypsin A and 29,000 for mackerel trypsin B by SDS-PAG electrophoresis, but those were estimated to be 21,500 for cat-shark trypsin, 23,700 for mackerel trypsin A and 21,500 for mackerel trypsin B by gel filtration. The trypsins exhibited their optimum conditions at pH 9.0 and on temperature ranged from $45^{\circ}C\;to\;50^{\circ}C$ for cat-shark, and at pH 8.0 and a temperature of $50^{\circ}C$ for mackerel trypsin A and B, respectively. The cat-shark trypsin was stable at pH 10.0 and the temperature below $10^{\circ}C$, whereas the mackerel trypsin A and B, were stable in the range over pH 7.0 to pH 9.0 below $10^{\circ}C$ and at pH 8.0 below $35^{\circ}C$, respectively. The mackerel trypsins were severely inhibited by some heavy metal ions such as $Ag^{2+},\;Cu^{2+}\;and\;Hg^{2+}$ compared to cat-shark trypsin. All of the enzymes were also inhibited by antipain, leupeptin, TLCK(tosyllysine chloromethyl ketone) and SBTI(soybean trypsin inhibitor) remarkably. The inhibitory effects of PMSF(phenylmethane sulphonylfluoride), DFP(diisopropyl fluorophosphate) and benzamidine were indicated that these enzymes belong to serine-proteases.

• Journal of the Korean Society of Food Science and Nutrition
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• v.22 no.4
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• pp.458-464
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• 1993

In the present paper enzymatic properties of the trypsins from the four dark fleshed fish were compared with each other and thermal stabilities of the enzymes were also investigated. The trypsins from the dark fleshed fish showed their activity only in BA-p-NA substrate of the amide substrates such as BA-p-NA and SP-p-NA, and BAEE and TAME of the ester substrate such as ATEE, BAEE, BTEE, and TAME. The enzymes were strongly inhibited by the serine protease inhibitors such as antipain, leupeptin, TLCK, DFP and SBTI, and were also inhibited by such metal ions as Cu$^{2＋}$ and Hg$^{2＋}$, but fairly activated by $Mg^{2＋}$. Denaturation constants of the enzymes were 13.4$\times$10$^{-4}$ sec$^{-1}$ for anchovy trypsin, 47.18$\times$10$^{-4}$ sec$^{-1}$ for mackerel trypsin A, 34.06$\times$10$^{-4}$ sec$^{-1}$ mackerel trypsin B, 42.28$\times$10$^{-4}$ sec$^{-1}$ for yellowfin tuna trypsin and 16.6$\times$10$^{-4}$ sec$^{-1}$ for albacore trypsin at 55$^{\circ}C$. The activation energies of the trypsins at a temperature range of 3$0^{\circ}C$ to 5$0^{\circ}C$ were estimated to be 13.91 ㎉/mole for anchovy trypsin, 11.61㎉/mo1e and 8.43㎉/mole for mackerel trypsin A and for mackerel typsin B, 4.35㎉/mole for yellowfin tuna trypsin, and 3.76㎉/mole for albacore trypsin.

• Korean Journal of Fisheries and Aquatic Sciences
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• v.25 no.5
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• pp.383-391
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• 1992

A comparative study of enzymatic properties between the trypsin from the cat-shark Cephaloscyllium umbratile ( C-T) and the two trypsins from the mackerel Scomber japonicus $(M-T_A\;and\;M-T_B)$ was carried out following after the previous paper(Pyeun et al., 1991). Trypsin from cat-shark(C-T) showed the higher heat stability compared to the others $(M-T_A\;and\;M-T_B)$ and its denaturation constant$(K_D)$ was $10.68\times10^{-4}\;sec^{-1}\;at\;55^{\circ}C$ with BA-p-NA substrate. The activation energies(Ea) of the trypsins measured at a temperature range from $30^{\circ}C\;to\;50^{\circ}C$ were estimated to be 4.07 kcal/mole for C-T, 11.61 kcal/mole for $M-T_A$, and 8.43kcal/mole for $M-T_B$, respectively. The Km values were $24.9\times10^{-5}\;M\;for\;C-T,\;5.37\times10^{-5}\;M\;for\;M-T_A,\;and\;9.65\times10^{-5}\;M\;for\;M-T_B$. On the other hand, the Ki values for TLCK and DFP determined by Dixon plot were $1.50\times10^{-6}\;M\;and\;9.28\times10^{-6}\;M\;for\;C-T\;2.86\times10^{-6}\;M\;and\;2.11\times10^{-4}\;M\;for\;M-T_A\;and\;3.90\times10^{-6}\;M\;and\;1.60\times10^{-4}\;M\;for\;M-T_B$ Similar amino acid profiles were showed between three trypsins each other, with few exceptions of $M-T_B$ containing higher amount of arginine, and the smaller amount of tryptophan in C-T than the others.

• Korean Journal of Fisheries and Aquatic Sciences
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• v.23 no.1
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• pp.12-24
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• 1990

Two trypsin-like enzymes, designated trypsin A and 3, purified from the intestine of menhaden by $(NH_4)_2SO_4$ fractionation, Benzamidine-Sepharose 6B affinity chromatography, DEAE-Sephacel ion exchange chromatography and Sephadex G-75 gel filtration chromatography. The two trypsins were subjected to compare the enzymatic properties of the trypsin-like enzymes from the other dark fleshed fishes. Both trypsins catalysed the hydrolysis of N$\alpha$-benzoyl-DL-arginine-p-nitroanilide and they were remarkably inhibited by several well known trypsin-inhibitors, tosyllysyl chloromethyl ketone, soybean trypsin inhibitor, be-nzamidine, leupeptin and antipain, etc. Therefore, it was ascertained that the two enzymes are serine-type trypsins. The molecular weights of these enzymes were about 25,000 and 26,200, respectively, ;Is determined by SDS-PAG electrophoresis and by Sephadex G-100 gel filtration, and the molecular weights of these two enzymes are somewhat fewer than those from the other dark fleshed fishes. Both enzymes had less basic amino acids such as arginine and Iysine, whereas they had slightly high contents of neutral amino acids, glycine, alanine and tryptophane. The enzymes showed a pH optimum of $8\~11$ at $60^{\circ}C$ against the $N\alpha$-benzoyl-DL-argi-nine-p-nitroanilide substrate and they were quite unstable above $40^{\circ}C$ and under the atidic pH region. The Km constant of the two enzymes against the $N\alpha$-benzoyl-DL-arginine-p-nitroanilide was $1.4\times10^{-4}M$ for trypsin A and $4.3\times10^{-5}M$ for trypsin B, respectively.

• Journal of Microbiology and Biotechnology
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• v.15 no.5
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• pp.1125-1129
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• 2005

Cloning of a 6.6-kb BamHI digested chromosomal DNA from S. griseus IFO13350 revealed the presence of an additional gene encoding a novel trypsin-like enzyme, named SprU. The SprU protein shows a high homology ($79\%$ identity, $88\%$ similarity) with the SGT protease, which has been reported as a bacterial trypsin in the same strain. The amino acid sequence deduced from the nucleotide sequence of the sprU gene suggests that SprU is produced as a precursor consisting of an amino-terminal presequence (29 amino acid residues), prosequence (4 residues), and mature trypsin consisting of 222 amino acids with a molecular weight of 22.94 kDa and a calculated pI of 4.13. The serine, histidine, and aspartic acid residues composing the catalytic triad of typical serine proteases are also well conserved. When the trypsin activity of the SprU was spectrophotometrically measured by the enzymatic hydrolysis of the artificial chromogenic substrate, N-${alpha}$-benzoyl-DL-arginine-p-nitroanilide, the S. lividans transformant with pWHM3-U gave 3 times higher activity than that of control. When the same recombinant plasmid was introduced into S. griseus, however, the gene dosage effect was not so significant, as in the cases of other genes encoding serine proteases, such as sprA, sprB, and sprD. Although two trypsins, SprU and SGT, have a high degree of homology, the pI values, the gene dosage effect in S. griseus, and the gene arrangement adjacent to the two genes are very different, suggesting that the biochemical and biological function of the SprU might be quite different from that of the SGT.