Engineering nucleosomes for generating diverse chromatin assemblies
Structural characterization of chromatin is challenging due to conformational and compositional heterogeneity in vivo and dynamic properties that limit achievable resolution in vitro. Although the maximum resolution for solving structures of large macromolecular assemblies by electron microscopy has...
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sg-ntu-dr.10356-1475762023-02-28T16:59:29Z Engineering nucleosomes for generating diverse chromatin assemblies Adhireksan, Zenita Sharma, Deepti Lee, Phoi Leng Bao, Qiuye Padavattan, Sivaraman Shum, Wayne K. Davey, Gabriela Elzbieta Davey, Curtis Alexander School of Biological Sciences NTU Institute of Structural Biology Science::Biological sciences Chromatin Fibre Nucleosome Structural characterization of chromatin is challenging due to conformational and compositional heterogeneity in vivo and dynamic properties that limit achievable resolution in vitro. Although the maximum resolution for solving structures of large macromolecular assemblies by electron microscopy has recently undergone profound increases, X-ray crystallographic approaches may still offer advantages for certain systems. One such system is compact chromatin, wherein the crystalline state recapitulates the crowded molecular environment within the nucleus. Here we show that nucleosomal constructs with cohesive-ended DNA can be designed that assemble into different types of circular configurations or continuous fibers extending throughout crystals. We demonstrate the utility of the method for characterizing nucleosome compaction and linker histone binding at near-atomic resolution but also advance its application for tackling further problems in chromatin structural biology and for generating novel types of DNA nanostructures. We provide a library of cohesive-ended DNA fragment expression constructs and a strategy for engineering DNA-based nanomaterials with a seemingly vast potential variety of architectures and histone chemistries. Ministry of Education (MOE) Published version Singapore Ministry of Education Academic Research Fund Tier 1 [2014-T1-001-049, 2017-T1-002-020, 2020-T1-001-128]; Tier 2 [MOE2015-T2-2-089]; Tier 3 [MOE2012-T3-1-001]; European Union's Horizon 2020 research and innovation program [grant agreement #730872], project CALIPSOplus. Funding for open access charge: Singapore Ministry of Education Academic Research Fund Tier 1 [2020-T1-001-128]. 2021-04-12T02:35:27Z 2021-04-12T02:35:27Z 2021 Journal Article Adhireksan, Z., Sharma, D., Lee, P. L., Bao, Q., Padavattan, S., Shum, W. K., Davey, G. E. & Davey, C. A. (2021). Engineering nucleosomes for generating diverse chromatin assemblies. Nucleic Acid Research, 49(9), e52-. https://dx.doi.org/10.1093/nar/gkab070 1362-496 https://hdl.handle.net/10356/147576 10.1093/nar/gkab070 9 49 e52 en MOE AcRF Tier 1 [2014-T1-001-049] MOE AcRF Tier 2 [MOE2015-T2-2-089] MOE AcRF Tier 3 [MOE2012-T3-1-001] MOE AcRF Tier 1 [2017-T1-002-020] MOE AcRF Tier 1 [2020-T1-001-128] Nucleic Acid Research © 2021 The Author(s). Published by Oxford University Press on behalf of Nucleic Acids Research. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited. application/pdf |
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Science::Biological sciences Chromatin Fibre Nucleosome |
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Science::Biological sciences Chromatin Fibre Nucleosome Adhireksan, Zenita Sharma, Deepti Lee, Phoi Leng Bao, Qiuye Padavattan, Sivaraman Shum, Wayne K. Davey, Gabriela Elzbieta Davey, Curtis Alexander Engineering nucleosomes for generating diverse chromatin assemblies |
| description |
Structural characterization of chromatin is challenging due to conformational and compositional heterogeneity in vivo and dynamic properties that limit achievable resolution in vitro. Although the maximum resolution for solving structures of large macromolecular assemblies by electron microscopy has recently undergone profound increases, X-ray crystallographic approaches may still offer advantages for certain systems. One such system is compact chromatin, wherein the crystalline state recapitulates the crowded molecular environment within the nucleus. Here we show that nucleosomal constructs with cohesive-ended DNA can be designed that assemble into different types of circular configurations or continuous fibers extending throughout crystals. We demonstrate the utility of the method for characterizing nucleosome compaction and linker histone binding at near-atomic resolution but also advance its application for tackling further problems in chromatin structural biology and for generating novel types of DNA nanostructures. We provide a library of cohesive-ended DNA fragment expression constructs and a strategy for engineering DNA-based nanomaterials with a seemingly vast potential variety of architectures and histone chemistries. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Adhireksan, Zenita Sharma, Deepti Lee, Phoi Leng Bao, Qiuye Padavattan, Sivaraman Shum, Wayne K. Davey, Gabriela Elzbieta Davey, Curtis Alexander |
| format |
Article |
| author |
Adhireksan, Zenita Sharma, Deepti Lee, Phoi Leng Bao, Qiuye Padavattan, Sivaraman Shum, Wayne K. Davey, Gabriela Elzbieta Davey, Curtis Alexander |
| author_sort |
Adhireksan, Zenita |
| title |
Engineering nucleosomes for generating diverse chromatin assemblies |
| title_short |
Engineering nucleosomes for generating diverse chromatin assemblies |
| title_full |
Engineering nucleosomes for generating diverse chromatin assemblies |
| title_fullStr |
Engineering nucleosomes for generating diverse chromatin assemblies |
| title_full_unstemmed |
Engineering nucleosomes for generating diverse chromatin assemblies |
| title_sort |
engineering nucleosomes for generating diverse chromatin assemblies |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/147576 |
| _version_ |
1759853500804628480 |