Chloroplast membrane lipid remodeling protects against dehydration by limiting membrane fusion and distortion
Dehydration damages the structural integrity of the chloroplast membrane and, consequently, the normal photosynthetic function of this organelle. Remodeling of galactolipids by converting monogalactosyl-diacylglycerol (MGDG) to digalactosyl-diacylglycerol (DGDG) and oligo-galactolipids is an effecti...
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sg-ntu-dr.10356-1533242023-02-28T17:09:42Z Chloroplast membrane lipid remodeling protects against dehydration by limiting membrane fusion and distortion Chng, Choon-Peng Wang, Kun Ma, Wei Hsia, K. Jimmy Huang, Changjin School of Mechanical and Aerospace Engineering School of Biological Sciences School of Chemical and Biomedical Engineering Science::Biological sciences::Biophysics Lipid Remodeling Dehydration Dehydration damages the structural integrity of the chloroplast membrane and, consequently, the normal photosynthetic function of this organelle. Remodeling of galactolipids by converting monogalactosyl-diacylglycerol (MGDG) to digalactosyl-diacylglycerol (DGDG) and oligo-galactolipids is an effective adaptation strategy for protecting against dehydration damage to the chloroplast membrane. However, detailed molecular mechanisms are missing. In this study, by performing molecular-level simulations of bi-lamellar membranes under various dehydration conditions, we find that MGDG-to-DGDG remodeling protects the chloroplast membrane in a unique manner by simultaneously dictating both the extent and the pattern of fusion stalks formed with the apposed membrane. Specifically, MGDG-rich membranes form elongated stalks at a moderate dehydration level, whereas DGDG-rich membranes form smaller, rounded stalks. Simulations of wild-type and mutant Arabidopsis (Arabidopsis thaliana) outer chloroplast membranes further confirm that the mutant membrane without galactolipid remodeling is more susceptible to membrane fusion due to its higher MGDG content. Our work reveals the underlying physical mechanisms that govern the pattern and extent of membrane fusion structures, paving the way for rational genetic engineering of crops with improved dehydration tolerance. Ministry of Education (MOE) Nanyang Technological University Accepted version This work was supported by Nanyang Technological University under its Accelerating Creativity and Excellence (ACE) grant (grant no. NTU–ACE2020-07 to W.M., K.J.H and C.H.), Nanyang Technological University start-up grants (grant nos. M4082428 to K.J.H. and M4082352 to C.H.), and Ministry of Education, Singapore, under its Academic Research Fund Tier 1 (grant no. RG92/19). 2021-12-14T13:36:08Z 2021-12-14T13:36:08Z 2021 Journal Article Chng, C., Wang, K., Ma, W., Hsia, K. J. & Huang, C. (2021). Chloroplast membrane lipid remodeling protects against dehydration by limiting membrane fusion and distortion. Plant Physiology, 188(1), 526-539. https://dx.doi.org/10.1093/plphys/kiab512 0032-0889 https://hdl.handle.net/10356/153324 10.1093/plphys/kiab512 34730798 1 188 526 539 en NTU–ACE2020-07 RG92/19 M4082428 M4082352 Plant Physiology 10.21979/N9/WTDBTD © 2021 American Society of Plant Biologists. All rights reserved. This paper was published in Plant Physiology and is made available with permission of American Society of Plant . application/pdf application/pdf |
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Science::Biological sciences::Biophysics Lipid Remodeling Dehydration |
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Science::Biological sciences::Biophysics Lipid Remodeling Dehydration Chng, Choon-Peng Wang, Kun Ma, Wei Hsia, K. Jimmy Huang, Changjin Chloroplast membrane lipid remodeling protects against dehydration by limiting membrane fusion and distortion |
| description |
Dehydration damages the structural integrity of the chloroplast membrane and, consequently, the normal photosynthetic function of this organelle. Remodeling of galactolipids by converting monogalactosyl-diacylglycerol (MGDG) to digalactosyl-diacylglycerol (DGDG) and oligo-galactolipids is an effective adaptation strategy for protecting against dehydration damage to the chloroplast membrane. However, detailed molecular mechanisms are missing. In this study, by performing molecular-level simulations of bi-lamellar membranes under various dehydration conditions, we find that MGDG-to-DGDG remodeling protects the chloroplast membrane in a unique manner by simultaneously dictating both the extent and the pattern of fusion stalks formed with the apposed membrane. Specifically, MGDG-rich membranes form elongated stalks at a moderate dehydration level, whereas DGDG-rich membranes form smaller, rounded stalks. Simulations of wild-type and mutant Arabidopsis (Arabidopsis thaliana) outer chloroplast membranes further confirm that the mutant membrane without galactolipid remodeling is more susceptible to membrane fusion due to its higher MGDG content. Our work reveals the underlying physical mechanisms that govern the pattern and extent of membrane fusion structures, paving the way for rational genetic engineering of crops with improved dehydration tolerance. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Chng, Choon-Peng Wang, Kun Ma, Wei Hsia, K. Jimmy Huang, Changjin |
| format |
Article |
| author |
Chng, Choon-Peng Wang, Kun Ma, Wei Hsia, K. Jimmy Huang, Changjin |
| author_sort |
Chng, Choon-Peng |
| title |
Chloroplast membrane lipid remodeling protects against dehydration by limiting membrane fusion and distortion |
| title_short |
Chloroplast membrane lipid remodeling protects against dehydration by limiting membrane fusion and distortion |
| title_full |
Chloroplast membrane lipid remodeling protects against dehydration by limiting membrane fusion and distortion |
| title_fullStr |
Chloroplast membrane lipid remodeling protects against dehydration by limiting membrane fusion and distortion |
| title_full_unstemmed |
Chloroplast membrane lipid remodeling protects against dehydration by limiting membrane fusion and distortion |
| title_sort |
chloroplast membrane lipid remodeling protects against dehydration by limiting membrane fusion and distortion |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/153324 |
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1759855835982331904 |