Ginsentide-like coffeetides isolated from coffee waste are cell-penetrating and metal-binding microproteins
Coffee processing generates a huge amount of waste that contains many natural products. Here, we report the discovery of a panel of novel cell-penetrating and metal ion-binding microproteins designated coffeetide cC1a–c and cL1–6 from the husk of two popular coffee plants, Coffea canephora and Coffe...
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sg-ntu-dr.10356-1706132023-09-25T15:32:15Z Ginsentide-like coffeetides isolated from coffee waste are cell-penetrating and metal-binding microproteins Tam, James P. Huang, Jiayi Loo, Shining Li, Yimeng Kam, Antony School of Biological Sciences Xi’an Jiaotong-Liverpool University South China University of Technology Synthetic Enzymes and Natural Products Center Science::Biological sciences Cysteine-Rich Peptides Cell Penetration Microproteins Metal-Binding Peptides Coffee Waste Product Chemical Synthesis Hevein-Like Peptide Non-Chitin Binding Hevein Ginsentide Coffee processing generates a huge amount of waste that contains many natural products. Here, we report the discovery of a panel of novel cell-penetrating and metal ion-binding microproteins designated coffeetide cC1a–c and cL1–6 from the husk of two popular coffee plants, Coffea canephora and Coffea liberica, respectively. Combining sequence determination and a database search, we show that the prototypic coffeetide cC1a is a 37-residue, eight-cysteine microprotein with a hevein-like cysteine motif, but without a chitin-binding domain. NMR determination of cC1a reveals a compact structure that confers its resistance to heat and proteolytic degradation. Disulfide mapping together with chemical synthesis reveals that cC1a has a ginsentide-like, and not a hevein-like, disulfide connectivity. In addition, transcriptomic analysis showed that the 98-residue micrcoproten-like coffeetide precursor contains a three-domain arrangement, like ginsentide precursors. Molecular modeling, together with experimental validation, revealed a Mg2+ and Fe3+ binding pocket at the N-terminus formed by three glutamic acids. Importantly, cC1a is amphipathic with a continuous stretch of 19 apolar amino acids, which enables its cell penetration to target intracellular proteins, despite being highly negatively charged. Our findings suggest that coffee by-products could provide a source of ginsentide-like bioactive peptides that have the potential to target intracellular proteins. Nanyang Technological University Published version This research was supported in part by a grant by Nanyang Technological University to Synzymes and Natural Products Center (SYNC). SL and AK are recipients of the Mistletoe Research Fellowship. Yimeng Li is a recipient funded by National Natural Science Foundation of the People’s Republic of China (No. 31972193). 2023-09-25T05:17:41Z 2023-09-25T05:17:41Z 2023 Journal Article Tam, J. P., Huang, J., Loo, S., Li, Y. & Kam, A. (2023). Ginsentide-like coffeetides isolated from coffee waste are cell-penetrating and metal-binding microproteins. Molecules, 28(18), 6556-. https://dx.doi.org/10.3390/molecules28186556 1420-3049 https://hdl.handle.net/10356/170613 10.3390/molecules28186556 18 28 6556 en Molecules © 2023 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). application/pdf |
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Science::Biological sciences Cysteine-Rich Peptides Cell Penetration Microproteins Metal-Binding Peptides Coffee Waste Product Chemical Synthesis Hevein-Like Peptide Non-Chitin Binding Hevein Ginsentide |
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Science::Biological sciences Cysteine-Rich Peptides Cell Penetration Microproteins Metal-Binding Peptides Coffee Waste Product Chemical Synthesis Hevein-Like Peptide Non-Chitin Binding Hevein Ginsentide Tam, James P. Huang, Jiayi Loo, Shining Li, Yimeng Kam, Antony Ginsentide-like coffeetides isolated from coffee waste are cell-penetrating and metal-binding microproteins |
| description |
Coffee processing generates a huge amount of waste that contains many natural products. Here, we report the discovery of a panel of novel cell-penetrating and metal ion-binding microproteins designated coffeetide cC1a–c and cL1–6 from the husk of two popular coffee plants, Coffea canephora and Coffea liberica, respectively. Combining sequence determination and a database search, we show that the prototypic coffeetide cC1a is a 37-residue, eight-cysteine microprotein with a hevein-like cysteine motif, but without a chitin-binding domain. NMR determination of cC1a reveals a compact structure that confers its resistance to heat and proteolytic degradation. Disulfide mapping together with chemical synthesis reveals that cC1a has a ginsentide-like, and not a hevein-like, disulfide connectivity. In addition, transcriptomic analysis showed that the 98-residue micrcoproten-like coffeetide precursor contains a three-domain arrangement, like ginsentide precursors. Molecular modeling, together with experimental validation, revealed a Mg2+ and Fe3+ binding pocket at the N-terminus formed by three glutamic acids. Importantly, cC1a is amphipathic with a continuous stretch of 19 apolar amino acids, which enables its cell penetration to target intracellular proteins, despite being highly negatively charged. Our findings suggest that coffee by-products could provide a source of ginsentide-like bioactive peptides that have the potential to target intracellular proteins. |
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School of Biological Sciences |
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School of Biological Sciences Tam, James P. Huang, Jiayi Loo, Shining Li, Yimeng Kam, Antony |
| format |
Article |
| author |
Tam, James P. Huang, Jiayi Loo, Shining Li, Yimeng Kam, Antony |
| author_sort |
Tam, James P. |
| title |
Ginsentide-like coffeetides isolated from coffee waste are cell-penetrating and metal-binding microproteins |
| title_short |
Ginsentide-like coffeetides isolated from coffee waste are cell-penetrating and metal-binding microproteins |
| title_full |
Ginsentide-like coffeetides isolated from coffee waste are cell-penetrating and metal-binding microproteins |
| title_fullStr |
Ginsentide-like coffeetides isolated from coffee waste are cell-penetrating and metal-binding microproteins |
| title_full_unstemmed |
Ginsentide-like coffeetides isolated from coffee waste are cell-penetrating and metal-binding microproteins |
| title_sort |
ginsentide-like coffeetides isolated from coffee waste are cell-penetrating and metal-binding microproteins |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170613 |
| _version_ |
1779156738540306432 |