Hierarchical Assembly of Tough Bioelastomeric Egg Capsules is Mediated by a Bundling Protein
Marine snail egg capsules are shock-absorbing bioelastomers made from precursor “egg case proteins” (ECPs) that initially lack long-range order. During capsule formation, these proteins self-assemble into coiled-coil filaments that subsequently align into microscopic layers, a multiscale process whi...
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sg-ntu-dr.10356-832032020-06-01T10:13:40Z Hierarchical Assembly of Tough Bioelastomeric Egg Capsules is Mediated by a Bundling Protein Loke, Jun Jie Kumar, Akshita Hoon, Shawn Verma, Chandra Miserez, Ali School of Materials Science & Engineering School of Biological Sciences Binding sites Encapsulation Marine snail egg capsules are shock-absorbing bioelastomers made from precursor “egg case proteins” (ECPs) that initially lack long-range order. During capsule formation, these proteins self-assemble into coiled-coil filaments that subsequently align into microscopic layers, a multiscale process which is crucial to the capsules’ shock-absorbing properties. In this study, we show that the self-assembly of ECPs into their functional capsule material is mediated by a bundling protein that facilitates the aggregation of coiled-coil building blocks and their gelation into a prefinal capsule prior to final stabilization. This low molecular weight bundling protein, termed Pugilina cochlidium Bundling Protein (PcBP), led to gelation of native extracts from gravid snails, whereas crude extracts lacking PcBP did not gelate and remained as a protein solution. Refolding and reconcentration of recombinant PcBP induced bundling and aggregation of ECPs, as evidenced by ECPs oligomerization. We propose that the secretion of PcBP in vivo is a time-specific event during the embryo encapsulation process prior to cross-linking in the ventral pedal gland (VPG). Using molecular dynamics (MD) simulations, we further propose plausible disulfide binding sites stabilizing two PcBP monomers, as well as a polarized surface charge distribution, which we suggest plays an important role in the bundling mechanism. Overall, this study shows that controlled bundling is a key step during the extra-cellular self-assembly of egg capsules, which has previously been overlooked. NRF (Natl Research Foundation, S’pore) ASTAR (Agency for Sci., Tech. and Research, S’pore) MOE (Min. of Education, S’pore) 2017-05-22T04:47:38Z 2019-12-06T15:13:56Z 2017-05-22T04:47:38Z 2019-12-06T15:13:56Z 2017 2017 Journal Article Loke, J. J., Kumar, A., Hoon, S., Verma, C., & Miserez, A. (2017). Hierarchical Assembly of Tough Bioelastomeric Egg Capsules is Mediated by a Bundling Protein. Biomacromolecules, 18(3), 931-942. 1525-7797 https://hdl.handle.net/10356/83203 http://hdl.handle.net/10220/42459 10.1021/acs.biomac.6b01810 200844 en Biomacromolecules © 2017 American Chemical Society. |
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Binding sites Encapsulation Loke, Jun Jie Kumar, Akshita Hoon, Shawn Verma, Chandra Miserez, Ali Hierarchical Assembly of Tough Bioelastomeric Egg Capsules is Mediated by a Bundling Protein |
| description |
Marine snail egg capsules are shock-absorbing bioelastomers made from precursor “egg case proteins” (ECPs) that initially lack long-range order. During capsule formation, these proteins self-assemble into coiled-coil filaments that subsequently align into microscopic layers, a multiscale process which is crucial to the capsules’ shock-absorbing properties. In this study, we show that the self-assembly of ECPs into their functional capsule material is mediated by a bundling protein that facilitates the aggregation of coiled-coil building blocks and their gelation into a prefinal capsule prior to final stabilization. This low molecular weight bundling protein, termed Pugilina cochlidium Bundling Protein (PcBP), led to gelation of native extracts from gravid snails, whereas crude extracts lacking PcBP did not gelate and remained as a protein solution. Refolding and reconcentration of recombinant PcBP induced bundling and aggregation of ECPs, as evidenced by ECPs oligomerization. We propose that the secretion of PcBP in vivo is a time-specific event during the embryo encapsulation process prior to cross-linking in the ventral pedal gland (VPG). Using molecular dynamics (MD) simulations, we further propose plausible disulfide binding sites stabilizing two PcBP monomers, as well as a polarized surface charge distribution, which we suggest plays an important role in the bundling mechanism. Overall, this study shows that controlled bundling is a key step during the extra-cellular self-assembly of egg capsules, which has previously been overlooked. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Loke, Jun Jie Kumar, Akshita Hoon, Shawn Verma, Chandra Miserez, Ali |
| format |
Article |
| author |
Loke, Jun Jie Kumar, Akshita Hoon, Shawn Verma, Chandra Miserez, Ali |
| author_sort |
Loke, Jun Jie |
| title |
Hierarchical Assembly of Tough Bioelastomeric Egg Capsules is Mediated by a Bundling Protein |
| title_short |
Hierarchical Assembly of Tough Bioelastomeric Egg Capsules is Mediated by a Bundling Protein |
| title_full |
Hierarchical Assembly of Tough Bioelastomeric Egg Capsules is Mediated by a Bundling Protein |
| title_fullStr |
Hierarchical Assembly of Tough Bioelastomeric Egg Capsules is Mediated by a Bundling Protein |
| title_full_unstemmed |
Hierarchical Assembly of Tough Bioelastomeric Egg Capsules is Mediated by a Bundling Protein |
| title_sort |
hierarchical assembly of tough bioelastomeric egg capsules is mediated by a bundling protein |
| publishDate |
2017 |
| url |
https://hdl.handle.net/10356/83203 http://hdl.handle.net/10220/42459 |
| _version_ |
1681056690445746176 |