Time-resolved observations of liquid − liquid phase separation at the nanoscale using in situ liquid transmission electron microscopy
Liquid–liquid phase separation (LLPS) of proteins into concentrated microdroplets (also called coacervation) is a phenomenon that is increasingly recognized to occur in many biological processes, both inside and outside the cell. While it has been established that LLPS can be described as a spinodal...
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sg-ntu-dr.10356-1509502021-05-31T07:00:37Z Time-resolved observations of liquid − liquid phase separation at the nanoscale using in situ liquid transmission electron microscopy Le Ferrand, Hortense Duchamp, Martial Gabryelczyk, Bartosz Cai, Hao Miserez, Ali School of Materials Science and Engineering School of Biological Sciences Biological & Biomimetic Material Laboratory @ NTU Centre for Biomimetic Sensor Science (CBSS) Laboratory for in Situ & Operando Electron Nanoscopy (LISION) Engineering::Materials Protein Nucleation Liquid–liquid phase separation (LLPS) of proteins into concentrated microdroplets (also called coacervation) is a phenomenon that is increasingly recognized to occur in many biological processes, both inside and outside the cell. While it has been established that LLPS can be described as a spinodal decomposition leading to demixing of an initially homogeneous protein solution, little is known about the assembly pathways by which soluble proteins aggregate into dense microdroplets. Using recent developments in techniques enabling the observation of matter suspended in liquid by transmission electron microscopy, we observed how a model intrinsically disordered protein phase-separates in liquid environment. Our observations reveal the dynamic mechanisms by which soluble proteins self-organize into condensed microdroplets with nanoscale and millisecond space and time resolution, respectively. With this method, the nucleation and initial growth steps of LLPS could be captured, opening the door for a deeper understanding of biomacromolecular complexes exhibiting LLPS ability. Ministry of Education (MOE) Nanyang Technological University This research was funded by the Singapore Ministry of Education (MOE) through an Academic Research Fund (AcRF) Tier 2 grant (Grant MOE2015-T2-1-062). The authors acknowledge the facilities for Analysis, Characterization, Testing and Simulations (FACTS) at Nanyang Technological University for access to TEM equipments. H.L.F. acknowledges the support from the Swiss National Foundation for an individual postdoctoral fellowship (Grant P2EZP2_172169). M.D. acknowledges the financial support from Nanyang Technological University start-up grant (Grant M4081924). 2021-05-31T07:00:37Z 2021-05-31T07:00:37Z 2019 Journal Article Le Ferrand, H., Duchamp, M., Gabryelczyk, B., Cai, H. & Miserez, A. (2019). Time-resolved observations of liquid − liquid phase separation at the nanoscale using in situ liquid transmission electron microscopy. Journal of the American Chemical Society, 141(17), 7202-7210. https://dx.doi.org/10.1021/jacs.9b03083 0002-7863 https://hdl.handle.net/10356/150950 10.1021/jacs.9b03083 30986043 2-s2.0-85065067079 17 141 7202 7210 en MOE2015-T2-1-062 M4081924 Journal of the American Chemical Society © 2019 American Chemical Society. All rights reserved. |
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Engineering::Materials Protein Nucleation Le Ferrand, Hortense Duchamp, Martial Gabryelczyk, Bartosz Cai, Hao Miserez, Ali Time-resolved observations of liquid − liquid phase separation at the nanoscale using in situ liquid transmission electron microscopy |
| description |
Liquid–liquid phase separation (LLPS) of proteins into concentrated microdroplets (also called coacervation) is a phenomenon that is increasingly recognized to occur in many biological processes, both inside and outside the cell. While it has been established that LLPS can be described as a spinodal decomposition leading to demixing of an initially homogeneous protein solution, little is known about the assembly pathways by which soluble proteins aggregate into dense microdroplets. Using recent developments in techniques enabling the observation of matter suspended in liquid by transmission electron microscopy, we observed how a model intrinsically disordered protein phase-separates in liquid environment. Our observations reveal the dynamic mechanisms by which soluble proteins self-organize into condensed microdroplets with nanoscale and millisecond space and time resolution, respectively. With this method, the nucleation and initial growth steps of LLPS could be captured, opening the door for a deeper understanding of biomacromolecular complexes exhibiting LLPS ability. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Le Ferrand, Hortense Duchamp, Martial Gabryelczyk, Bartosz Cai, Hao Miserez, Ali |
| format |
Article |
| author |
Le Ferrand, Hortense Duchamp, Martial Gabryelczyk, Bartosz Cai, Hao Miserez, Ali |
| author_sort |
Le Ferrand, Hortense |
| title |
Time-resolved observations of liquid − liquid phase separation at the nanoscale using in situ liquid transmission electron microscopy |
| title_short |
Time-resolved observations of liquid − liquid phase separation at the nanoscale using in situ liquid transmission electron microscopy |
| title_full |
Time-resolved observations of liquid − liquid phase separation at the nanoscale using in situ liquid transmission electron microscopy |
| title_fullStr |
Time-resolved observations of liquid − liquid phase separation at the nanoscale using in situ liquid transmission electron microscopy |
| title_full_unstemmed |
Time-resolved observations of liquid − liquid phase separation at the nanoscale using in situ liquid transmission electron microscopy |
| title_sort |
time-resolved observations of liquid − liquid phase separation at the nanoscale using in situ liquid transmission electron microscopy |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/150950 |
| _version_ |
1702418261532999680 |