Unraveling the distinct germination processes of sporopollenin-based pollen grains and spores through morphological analyses upon natural nano-architectonics process
The outermost exine capsules of many pollen and spore grains are composed of a chemically inert yet mechanically robust sporopollenin biopolymer. These dynamically expansible and foldable capsules have great potential as renewable functional biomaterials with industrial applications. However, the me...
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sg-ntu-dr.10356-1624092022-10-18T04:23:41Z Unraveling the distinct germination processes of sporopollenin-based pollen grains and spores through morphological analyses upon natural nano-architectonics process Shi, Qian Mohammed Shahrudin Ibrahim Zhang, Xingyu Hwang, Youngkyu Chin, Hokyun Chen, Shengyang Tan, Wen See Li, Hua Song, Juha Cho, Nam-Joon School of Chemical and Biomedical Engineering School of Materials Science and Engineering School of Mechanical and Aerospace Engineering Engineering::Materials Engineering::Bioengineering Pollen Bioinspired Materials The outermost exine capsules of many pollen and spore grains are composed of a chemically inert yet mechanically robust sporopollenin biopolymer. These dynamically expansible and foldable capsules have great potential as renewable functional biomaterials with industrial applications. However, the mechanical and morphological variations in the shape, size, robustness, and apertural strength of the exine capsules across taxa of angiosperms and cryptogamic plants remains poorly understood. Thus, in this study, we unraveled the abortive microgel transformation of spores inspired by their germination mechanism, being compared with eudicot-based pollen microgels. After chemical treatments, significant mechanical degradation of exine was clearly observed for the Camellia pollen, whereas crosslinking density and modulus of spore exine remained almost constant. The significant volume expansion of Camellia pollen was observed akin to sunflower pollen; in contrast, the spores ballooned showed limited volume changes under equal levels of turgor pressure. Furthermore, spore underwent marked changes in volume when their aperture sutures were softened and ruptured, which are prerequisites for spore germination. Therefore, this study disentangled mechanical and morphological origins of biochemical pathways of pollen and spore germination, and germination-like hydration and desiccation, which will give clues about selection of pollen and spore species for potential biomaterial applications. Agency for Science, Technology and Research (A*STAR) This research was supported by Advanced Manufacturing and Engineering Individual Research Grants (AME IRG) (A1983c0031) through the Agency for Science, Technology and Research (A∗STAR). 2022-10-18T04:23:40Z 2022-10-18T04:23:40Z 2022 Journal Article Shi, Q., Mohammed Shahrudin Ibrahim, Zhang, X., Hwang, Y., Chin, H., Chen, S., Tan, W. S., Li, H., Song, J. & Cho, N. (2022). Unraveling the distinct germination processes of sporopollenin-based pollen grains and spores through morphological analyses upon natural nano-architectonics process. Applied Materials Today, 27, 101471-. https://dx.doi.org/10.1016/j.apmt.2022.101471 2352-9407 https://hdl.handle.net/10356/162409 10.1016/j.apmt.2022.101471 2-s2.0-85128527366 27 101471 en A1983c0031 Applied Materials Today © 2022 Elsevier Ltd. All rights reserved. |
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Engineering::Materials Engineering::Bioengineering Pollen Bioinspired Materials Shi, Qian Mohammed Shahrudin Ibrahim Zhang, Xingyu Hwang, Youngkyu Chin, Hokyun Chen, Shengyang Tan, Wen See Li, Hua Song, Juha Cho, Nam-Joon Unraveling the distinct germination processes of sporopollenin-based pollen grains and spores through morphological analyses upon natural nano-architectonics process |
| description |
The outermost exine capsules of many pollen and spore grains are composed of a chemically inert yet mechanically robust sporopollenin biopolymer. These dynamically expansible and foldable capsules have great potential as renewable functional biomaterials with industrial applications. However, the mechanical and morphological variations in the shape, size, robustness, and apertural strength of the exine capsules across taxa of angiosperms and cryptogamic plants remains poorly understood. Thus, in this study, we unraveled the abortive microgel transformation of spores inspired by their germination mechanism, being compared with eudicot-based pollen microgels. After chemical treatments, significant mechanical degradation of exine was clearly observed for the Camellia pollen, whereas crosslinking density and modulus of spore exine remained almost constant. The significant volume expansion of Camellia pollen was observed akin to sunflower pollen; in contrast, the spores ballooned showed limited volume changes under equal levels of turgor pressure. Furthermore, spore underwent marked changes in volume when their aperture sutures were softened and ruptured, which are prerequisites for spore germination. Therefore, this study disentangled mechanical and morphological origins of biochemical pathways of pollen and spore germination, and germination-like hydration and desiccation, which will give clues about selection of pollen and spore species for potential biomaterial applications. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Shi, Qian Mohammed Shahrudin Ibrahim Zhang, Xingyu Hwang, Youngkyu Chin, Hokyun Chen, Shengyang Tan, Wen See Li, Hua Song, Juha Cho, Nam-Joon |
| format |
Article |
| author |
Shi, Qian Mohammed Shahrudin Ibrahim Zhang, Xingyu Hwang, Youngkyu Chin, Hokyun Chen, Shengyang Tan, Wen See Li, Hua Song, Juha Cho, Nam-Joon |
| author_sort |
Shi, Qian |
| title |
Unraveling the distinct germination processes of sporopollenin-based pollen grains and spores through morphological analyses upon natural nano-architectonics process |
| title_short |
Unraveling the distinct germination processes of sporopollenin-based pollen grains and spores through morphological analyses upon natural nano-architectonics process |
| title_full |
Unraveling the distinct germination processes of sporopollenin-based pollen grains and spores through morphological analyses upon natural nano-architectonics process |
| title_fullStr |
Unraveling the distinct germination processes of sporopollenin-based pollen grains and spores through morphological analyses upon natural nano-architectonics process |
| title_full_unstemmed |
Unraveling the distinct germination processes of sporopollenin-based pollen grains and spores through morphological analyses upon natural nano-architectonics process |
| title_sort |
unraveling the distinct germination processes of sporopollenin-based pollen grains and spores through morphological analyses upon natural nano-architectonics process |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162409 |
| _version_ |
1749179152577069056 |