Novel cyclotides and uncyclotides with highly shortened precursors from Chassalia chartacea and effects of methionine oxidation on bioactivities
Cyclotides are a new class of plant biologics that display a diverse range of bioactivities with therapeutic potentials. They possess an unusual end-to-end cyclic backbone combined with a cystine knot arrangement, making them exceptionally stable to heat, chemical and enzymatic degradation. Currentl...
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sg-ntu-dr.10356-1044082022-02-16T16:29:39Z Novel cyclotides and uncyclotides with highly shortened precursors from Chassalia chartacea and effects of methionine oxidation on bioactivities Nguyen, Giang Kien Truc Lim, Wei Han Nguyen, Phuong Quoc Thuc Tam, James P. School of Biological Sciences DRNTU::Science::Biological sciences Cyclotides are a new class of plant biologics that display a diverse range of bioactivities with therapeutic potentials. They possess an unusual end-to-end cyclic backbone combined with a cystine knot arrangement, making them exceptionally stable to heat, chemical and enzymatic degradation. Currently, >200 cyclotides have been discovered but only three naturally occurring linear variants (also known as uncyclotides) have been isolated. In this study, we report the discovery of 18 novel peptides, chassatides C1 to C18, composed of 14 new cyclotides and four uncyclotides from Chassalia chartacea (Rubiaceae family). Thus far, this is the largest number of uncyclotides being reported in a single species. Activity testing showed that the uncyclotides not only retain the effectiveness but also are the most potent chassatides in the assays for antimicrobial, cytotoxic, and hemolytic activities. Genetic characterization of novel chassatides revealed that they have the shortest precursors of all known cyclotides hitherto isolated, which represents a new class of cyclotide precursors. This is the first report of cyclotide genes in a second genus, the Chassalia, other than the Hedyotis (Oldenlandia) of the Rubiaceae family. In addition, we also report the characterization of two Met-oxidized derivatives of chassatides C2 and C11. The oxidation of Met residue causes loss of bioactivities, strengthening the importance of the hydrophobic patch for membrane interaction. 2013-10-30T04:51:40Z 2019-12-06T21:32:08Z 2013-10-30T04:51:40Z 2019-12-06T21:32:08Z 2012 2012 Journal Article Nguyen, G. K. T., Lim, W. H., Nguyen, P. Q. T., & Tam, J. P. (2012). Novel Cyclotides and Uncyclotides with Highly Shortened Precursors from Chassalia chartacea and Effects of Methionine Oxidation on Bioactivities. Journal of Biological Chemistry, 287(21), 17598-17607. https://hdl.handle.net/10356/104408 http://hdl.handle.net/10220/17059 10.1074/jbc.M111.338970 22467870 en Journal of biological chemistry |
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DRNTU::Science::Biological sciences Nguyen, Giang Kien Truc Lim, Wei Han Nguyen, Phuong Quoc Thuc Tam, James P. Novel cyclotides and uncyclotides with highly shortened precursors from Chassalia chartacea and effects of methionine oxidation on bioactivities |
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Cyclotides are a new class of plant biologics that display a diverse range of bioactivities with therapeutic potentials. They possess an unusual end-to-end cyclic backbone combined with a cystine knot arrangement, making them exceptionally stable to heat, chemical and enzymatic degradation. Currently, >200 cyclotides have been discovered but only three naturally occurring linear variants (also known as uncyclotides) have been isolated. In this study, we report the discovery of 18 novel peptides, chassatides C1 to C18, composed of 14 new cyclotides and four uncyclotides from Chassalia chartacea (Rubiaceae family). Thus far, this is the largest number of uncyclotides being reported in a single species. Activity testing showed that the uncyclotides not only retain the effectiveness but also are the most potent chassatides in the assays for antimicrobial, cytotoxic, and hemolytic activities. Genetic characterization of novel chassatides revealed that they have the shortest precursors of all known cyclotides hitherto isolated, which represents a new class of cyclotide precursors. This is the first report of cyclotide genes in a second genus, the Chassalia, other than the Hedyotis (Oldenlandia) of the Rubiaceae family. In addition, we also report the characterization of two Met-oxidized derivatives of chassatides C2 and C11. The oxidation of Met residue causes loss of bioactivities, strengthening the importance of the hydrophobic patch for membrane interaction. |
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School of Biological Sciences |
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School of Biological Sciences Nguyen, Giang Kien Truc Lim, Wei Han Nguyen, Phuong Quoc Thuc Tam, James P. |
| format |
Article |
| author |
Nguyen, Giang Kien Truc Lim, Wei Han Nguyen, Phuong Quoc Thuc Tam, James P. |
| author_sort |
Nguyen, Giang Kien Truc |
| title |
Novel cyclotides and uncyclotides with highly shortened precursors from Chassalia chartacea and effects of methionine oxidation on bioactivities |
| title_short |
Novel cyclotides and uncyclotides with highly shortened precursors from Chassalia chartacea and effects of methionine oxidation on bioactivities |
| title_full |
Novel cyclotides and uncyclotides with highly shortened precursors from Chassalia chartacea and effects of methionine oxidation on bioactivities |
| title_fullStr |
Novel cyclotides and uncyclotides with highly shortened precursors from Chassalia chartacea and effects of methionine oxidation on bioactivities |
| title_full_unstemmed |
Novel cyclotides and uncyclotides with highly shortened precursors from Chassalia chartacea and effects of methionine oxidation on bioactivities |
| title_sort |
novel cyclotides and uncyclotides with highly shortened precursors from chassalia chartacea and effects of methionine oxidation on bioactivities |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/104408 http://hdl.handle.net/10220/17059 |
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1725985762681290752 |