An orthogonal approach for the precise synthesis of phenylpropanoid sucrose esters
Phenylpropanoid sucrose esters (PSEs) are plant-derived metabolites that exist widely in medicinal plants and possess important bioactivities. Their precise synthesis is challenging due to the distinct and diverse substitution patterns at the sugar framework, and it is scarcely reported. Orthogonal...
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sg-ntu-dr.10356-1621402023-03-05T16:28:45Z An orthogonal approach for the precise synthesis of phenylpropanoid sucrose esters Ong, Li Lin Wong, Kathy Pooi Wen Raj, Surhabi Deva Khong, Duc Thinh Panda, Parthasarathi Santoso, Mardi Judeh, Zaher M. A. School of Chemical and Biomedical Engineering Interdisciplinary Graduate School (IGS) NTU Institute for Health Technologies Engineering::Chemical engineering Custom Synthesis Deprotection Phenylpropanoid sucrose esters (PSEs) are plant-derived metabolites that exist widely in medicinal plants and possess important bioactivities. Their precise synthesis is challenging due to the distinct and diverse substitution patterns at the sugar framework, and it is scarcely reported. Orthogonal protection/deprotection strategies for disaccharides are more complex and less developed than those for monosaccharides. We disclose a precise synthesis of PSEs starting from 2,1′:4,6-di-O-diisopropylidene sucrose 7via an orthogonal protection/deprotection and selective cinnamoylation strategy. We demonstrate the strategy for the synthesis of several PSEs cinnamoylated at the O-3 and O-4′ positions of diisopropylidene sucrose 7. The strategy is enabled by a carefully selected and synergistic set of protecting groups and deprotecting agents under the optimized conditions. It potentially gives access to the ∼150 reported PSEs and opens the door for the custom synthesis of unnatural PSEs for industrial applications. The reported work also presents a viable strategy for the general orthogonal protection/deprotection of disaccharides for the precise synthesis of other classes of phenylpropanoid esters and related compounds. Nanyang Technological University Published version We thank the Interdisciplinary Graduate School and the School of Chemical and Biomedical Engineering, Nanyang Technological University, Singapore for financial support (CoE, Startup Grant). 2022-10-05T06:11:55Z 2022-10-05T06:11:55Z 2022 Journal Article Ong, L. L., Wong, K. P. W., Raj, S. D., Khong, D. T., Panda, P., Santoso, M. & Judeh, Z. M. A. (2022). An orthogonal approach for the precise synthesis of phenylpropanoid sucrose esters. New Journal of Chemistry, 46(20), 9710-9717. https://dx.doi.org/10.1039/d2nj00881e 1144-0546 https://hdl.handle.net/10356/162140 10.1039/d2nj00881e 2-s2.0-85131355843 20 46 9710 9717 en New Journal of Chemistry © 2022 The Royal Society of Chemistry and the Centre National de la Recherche Scientifique. This article is licensed under a Creative Commons Attribution 3.0 Unported Licence. application/pdf |
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Engineering::Chemical engineering Custom Synthesis Deprotection Ong, Li Lin Wong, Kathy Pooi Wen Raj, Surhabi Deva Khong, Duc Thinh Panda, Parthasarathi Santoso, Mardi Judeh, Zaher M. A. An orthogonal approach for the precise synthesis of phenylpropanoid sucrose esters |
| description |
Phenylpropanoid sucrose esters (PSEs) are plant-derived metabolites that exist widely in medicinal plants and possess important bioactivities. Their precise synthesis is challenging due to the distinct and diverse substitution patterns at the sugar framework, and it is scarcely reported. Orthogonal protection/deprotection strategies for disaccharides are more complex and less developed than those for monosaccharides. We disclose a precise synthesis of PSEs starting from 2,1′:4,6-di-O-diisopropylidene sucrose 7via an orthogonal protection/deprotection and selective cinnamoylation strategy. We demonstrate the strategy for the synthesis of several PSEs cinnamoylated at the O-3 and O-4′ positions of diisopropylidene sucrose 7. The strategy is enabled by a carefully selected and synergistic set of protecting groups and deprotecting agents under the optimized conditions. It potentially gives access to the ∼150 reported PSEs and opens the door for the custom synthesis of unnatural PSEs for industrial applications. The reported work also presents a viable strategy for the general orthogonal protection/deprotection of disaccharides for the precise synthesis of other classes of phenylpropanoid esters and related compounds. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Ong, Li Lin Wong, Kathy Pooi Wen Raj, Surhabi Deva Khong, Duc Thinh Panda, Parthasarathi Santoso, Mardi Judeh, Zaher M. A. |
| format |
Article |
| author |
Ong, Li Lin Wong, Kathy Pooi Wen Raj, Surhabi Deva Khong, Duc Thinh Panda, Parthasarathi Santoso, Mardi Judeh, Zaher M. A. |
| author_sort |
Ong, Li Lin |
| title |
An orthogonal approach for the precise synthesis of phenylpropanoid sucrose esters |
| title_short |
An orthogonal approach for the precise synthesis of phenylpropanoid sucrose esters |
| title_full |
An orthogonal approach for the precise synthesis of phenylpropanoid sucrose esters |
| title_fullStr |
An orthogonal approach for the precise synthesis of phenylpropanoid sucrose esters |
| title_full_unstemmed |
An orthogonal approach for the precise synthesis of phenylpropanoid sucrose esters |
| title_sort |
orthogonal approach for the precise synthesis of phenylpropanoid sucrose esters |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162140 |
| _version_ |
1759854546593513472 |