Identification of bioactive peptide from Oreochromis niloticus skin gelatin

Identification of bioactive peptide from Oreochromis niloticus skin gelatin

© 2015, Association of Food Scientists & Technologists (India). Fish skin, one type of wastes generated from Nile tilapia processing, is still a good source of collagen and gelatin. Bioactive peptides can be obtained from Nile tilapia skin gelatin by trypsin digestion. Trypsin hydrolysate was...

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Main Authors: Sadabpong Choonpicharn, Suriya Tateing, Sanchai Jaturasitha, Nuansri Rakariyatham, Nuttee Suree, Hataichanoke Niamsup
Format: Journal
Published: 2018
Subjects:
Agricultural and Biological Sciences
Online Access:https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84947447106&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/55045
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Institution: Chiang Mai University
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spelling th-cmuir.6653943832-550452018-09-05T02:51:16Z Identification of bioactive peptide from Oreochromis niloticus skin gelatin Sadabpong Choonpicharn Suriya Tateing Sanchai Jaturasitha Nuansri Rakariyatham Nuttee Suree Hataichanoke Niamsup Agricultural and Biological Sciences © 2015, Association of Food Scientists & Technologists (India). Fish skin, one type of wastes generated from Nile tilapia processing, is still a good source of collagen and gelatin. Bioactive peptides can be obtained from Nile tilapia skin gelatin by trypsin digestion. Trypsin hydrolysate was subsequently purified by gel filtration chromatography. Trypsin A fraction showed the greatest reducing power (5.138 ± 1.060 μM trolox/mg peptide) among all hydrolysate fractions, while trypsin B fraction from gel filtration column was found to exhibit the best radical scavenging and angiotensin-I-converting enzyme (ACE) inhibitory activities 8.16 ± 2.18 μg trolox/mg peptide and 59.32 ± 9.97 % inhibition, respectively. The most active fraction was subjected to MALDI-TOF/TOF MS/MS. After annotation by Mascot sequence matching software (Matrix Science) with Ludwig NR Database, two peptide sequences were identified; GPEGPAGAR (MW 810.87 Da) and GETGPAGPAGAAGPAGPR (MW 1490.61 Da). The docking analysis suggested that the shape of the shorter peptide may be slightly more proper, to fit into the binding cleft of the ACE. However, the binding affinities calculated from the docking showed no significant difference between the two peptides. In good agreement with the in silico data, results from the in vitro ACE inhibitory activity with synthetic peptides also showed no significant difference. Both peptides are thus interesting novel candidates suitable for further development as ACE inhibitory and antioxidant agents from the natural source. 2018-09-05T02:51:16Z 2018-09-05T02:51:16Z 2016-02-01 Journal 09758402 00221155 2-s2.0-84947447106 10.1007/s13197-015-2091-x https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84947447106&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/55045
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
topic Agricultural and Biological Sciences
spellingShingle Agricultural and Biological Sciences
Sadabpong Choonpicharn
Suriya Tateing
Sanchai Jaturasitha
Nuansri Rakariyatham
Nuttee Suree
Hataichanoke Niamsup
Identification of bioactive peptide from Oreochromis niloticus skin gelatin
description © 2015, Association of Food Scientists & Technologists (India). Fish skin, one type of wastes generated from Nile tilapia processing, is still a good source of collagen and gelatin. Bioactive peptides can be obtained from Nile tilapia skin gelatin by trypsin digestion. Trypsin hydrolysate was subsequently purified by gel filtration chromatography. Trypsin A fraction showed the greatest reducing power (5.138 ± 1.060 μM trolox/mg peptide) among all hydrolysate fractions, while trypsin B fraction from gel filtration column was found to exhibit the best radical scavenging and angiotensin-I-converting enzyme (ACE) inhibitory activities 8.16 ± 2.18 μg trolox/mg peptide and 59.32 ± 9.97 % inhibition, respectively. The most active fraction was subjected to MALDI-TOF/TOF MS/MS. After annotation by Mascot sequence matching software (Matrix Science) with Ludwig NR Database, two peptide sequences were identified; GPEGPAGAR (MW 810.87 Da) and GETGPAGPAGAAGPAGPR (MW 1490.61 Da). The docking analysis suggested that the shape of the shorter peptide may be slightly more proper, to fit into the binding cleft of the ACE. However, the binding affinities calculated from the docking showed no significant difference between the two peptides. In good agreement with the in silico data, results from the in vitro ACE inhibitory activity with synthetic peptides also showed no significant difference. Both peptides are thus interesting novel candidates suitable for further development as ACE inhibitory and antioxidant agents from the natural source.
format Journal
author Sadabpong Choonpicharn
Suriya Tateing
Sanchai Jaturasitha
Nuansri Rakariyatham
Nuttee Suree
Hataichanoke Niamsup
author_facet Sadabpong Choonpicharn
Suriya Tateing
Sanchai Jaturasitha
Nuansri Rakariyatham
Nuttee Suree
Hataichanoke Niamsup
author_sort Sadabpong Choonpicharn
title Identification of bioactive peptide from Oreochromis niloticus skin gelatin
title_short Identification of bioactive peptide from Oreochromis niloticus skin gelatin
title_full Identification of bioactive peptide from Oreochromis niloticus skin gelatin
title_fullStr Identification of bioactive peptide from Oreochromis niloticus skin gelatin
title_full_unstemmed Identification of bioactive peptide from Oreochromis niloticus skin gelatin
title_sort identification of bioactive peptide from oreochromis niloticus skin gelatin
publishDate 2018
url https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84947447106&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/55045
_version_ 1681424432909778944

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