Leaf morphogenesis: the multifaceted roles of mechanics
Plants produce a rich diversity of biological forms, and the diversity of leaves is especially notable. Mechanisms of leaf morphogenesis have been studied in the past two decades, with a growing focus on the interactive roles of mechanics in recent years. Growth of plant organs involves feedback by...
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sg-ntu-dr.10356-1634092023-02-28T17:13:11Z Leaf morphogenesis: the multifaceted roles of mechanics Guo, Kexin Huang, Changjin Miao, Yansong Cosgrove, Daniel J. Hsia, K. Jimmy School of Mechanical and Aerospace Engineering School of Biological Sciences School of Chemical and Biomedical Engineering Science::Biological sciences Leaf Morphogenesis Cell-Wall Mechanics Plants produce a rich diversity of biological forms, and the diversity of leaves is especially notable. Mechanisms of leaf morphogenesis have been studied in the past two decades, with a growing focus on the interactive roles of mechanics in recent years. Growth of plant organs involves feedback by mechanical stress: growth induces stress, and stress affects growth and morphogenesis. Although much attention has been given to potential stress-sensing mechanisms and cellular responses, the mechanical principles guiding morphogenesis have not been well understood. Here we synthesize the overarching roles of mechanics and mechanical stress in multilevel and multiple stages of leaf morphogenesis, encompassing leaf primordium initiation, phyllotaxis and venation patterning, and the establishment of complex mature leaf shapes. Moreover, the roles of mechanics at multiscale levels, from subcellular cytoskeletal molecules to single cells to tissues at the organ scale, are articulated. By highlighting the role of mechanical buckling in the formation of three-dimensional leaf shapes, this review integrates the perspectives of mechanics and biology to provide broader insights into the mechanobiology of leaf morphogenesis. Ministry of Education (MOE) Nanyang Technological University Published version K.G. acknowledges financial support through a Nanyang President’s Graduate Scholarship from Nanyang Technological University. K.J.H. acknowledges financial support from Nanyang Technological University (grant no. M4082428). K.J.H. and C.H. acknowledge support from Nanyang Technological University under its Accelerating Creativity and Excellence (ACE) grant (grant no. NTU–ACE2020-07). For D.J.C., work on mechanobiology was supported by the Center for Engineering MechanoBiology, an National Science Foundation (NSF) Science and Technology Center, under grant agreement No. CMMI: 15-48571, and work on cell-wall loosening and expansins was supported by the U.S. Department of Energy (grant no. DE-FG2-84ER13179). Y.M. acknowledges financial support from the Ministry of Education - Singapore, under its Academic Research Fund Tier 1 (RT11/20 and RG32/20). 2022-12-05T08:53:07Z 2022-12-05T08:53:07Z 2022 Journal Article Guo, K., Huang, C., Miao, Y., Cosgrove, D. J. & Hsia, K. J. (2022). Leaf morphogenesis: the multifaceted roles of mechanics. Molecular Plant, 15(7), 1098-1119. https://dx.doi.org/10.1016/j.molp.2022.05.015 1674-2052 https://hdl.handle.net/10356/163409 10.1016/j.molp.2022.05.015 35662674 2-s2.0-85133223889 7 15 1098 1119 en M4082428 NTU–ACE2020-07 RT11/20 RG32/20 Molecular Plant © 2022 The Author. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). application/pdf |
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Science::Biological sciences Leaf Morphogenesis Cell-Wall Mechanics Guo, Kexin Huang, Changjin Miao, Yansong Cosgrove, Daniel J. Hsia, K. Jimmy Leaf morphogenesis: the multifaceted roles of mechanics |
| description |
Plants produce a rich diversity of biological forms, and the diversity of leaves is especially notable. Mechanisms of leaf morphogenesis have been studied in the past two decades, with a growing focus on the interactive roles of mechanics in recent years. Growth of plant organs involves feedback by mechanical stress: growth induces stress, and stress affects growth and morphogenesis. Although much attention has been given to potential stress-sensing mechanisms and cellular responses, the mechanical principles guiding morphogenesis have not been well understood. Here we synthesize the overarching roles of mechanics and mechanical stress in multilevel and multiple stages of leaf morphogenesis, encompassing leaf primordium initiation, phyllotaxis and venation patterning, and the establishment of complex mature leaf shapes. Moreover, the roles of mechanics at multiscale levels, from subcellular cytoskeletal molecules to single cells to tissues at the organ scale, are articulated. By highlighting the role of mechanical buckling in the formation of three-dimensional leaf shapes, this review integrates the perspectives of mechanics and biology to provide broader insights into the mechanobiology of leaf morphogenesis. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Guo, Kexin Huang, Changjin Miao, Yansong Cosgrove, Daniel J. Hsia, K. Jimmy |
| format |
Article |
| author |
Guo, Kexin Huang, Changjin Miao, Yansong Cosgrove, Daniel J. Hsia, K. Jimmy |
| author_sort |
Guo, Kexin |
| title |
Leaf morphogenesis: the multifaceted roles of mechanics |
| title_short |
Leaf morphogenesis: the multifaceted roles of mechanics |
| title_full |
Leaf morphogenesis: the multifaceted roles of mechanics |
| title_fullStr |
Leaf morphogenesis: the multifaceted roles of mechanics |
| title_full_unstemmed |
Leaf morphogenesis: the multifaceted roles of mechanics |
| title_sort |
leaf morphogenesis: the multifaceted roles of mechanics |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163409 |
| _version_ |
1759854941026910208 |