Reconstitution of Drosophila and human chromatins by wheat germ cell-free co-expression system
Autor: | Yaeta Endo, Taichi E. Takasuka, Szilvia K. Nagy, Shogo Hataya, Kei-Ichi Okimune |
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Rok vydání: | 2020 |
Předmět: |
Drosophila chromatin
Nucleosome assembly lcsh:Biotechnology Chromatin Remodeling Factor Chromatin remodeling Epigenesis Genetic Histones 03 medical and health sciences 0302 clinical medicine Wheat germ cell-free protein expression lcsh:TP248.13-248.65 Nucleosome Animals Humans Epigenetics Triticum 030304 developmental biology 0303 health sciences biology Cell-Free System Methodology Article RNA-Binding Proteins DNA Chromatin Cell biology Nucleosomes In vitro chromatin assembly Histone Chaperone (protein) biology.protein Human chromatin Drosophila Co-expression chromatin assembly 030217 neurology & neurosurgery Biotechnology Plasmids Transcription Factors |
Zdroj: | BMC Biotechnology BMC Biotechnology, Vol 20, Iss 1, Pp 1-12 (2020) |
ISSN: | 1472-6750 |
Popis: | Background Elaboration of the epigenetic regulation of chromatin is a long-standing aim in molecular and cellular biology. Hence, there is a great demand for the development of in vitro methods to reconstitute chromatin that can be used directly for biochemical assays. The widely used wheat germ cell-free protein expression method provides broad applications to investigate the function and structure of eukaryotic proteins. Such advantages, including high translation efficiency, flexibility, and possible automatization, are beneficial for achieving native-like chromatin substrates for in vitro studies. Results We describe a novel, single-step in vitro chromatin assembly method by using the wheat germ cell-free protein synthesis. We demonstrated that both Drosophila and human chromatins can be reconstituted in the course of the in vitro translation of core histones by the addition of chromatin assembly factors, circular plasmid, and topoisomerase I in an ATP-dependent manner. Drosophila chromatin assembly was performed in 4 h at 26 °C, in the presence of premixed mRNAs encoding the core histones, dAcf1/dISWI chromatin remodeling complex, and nucleosome assembly protein, dNAP1. Similarly, the human chromatin was assembled by co-expressing the human core histones with Drosophila chromatin remodeling factor, dISWI, and chromatin chaperone, dNLP, for 6 h at 26 °C. The presence of reconstituted chromatin was monitored by DNA supercoiling assay, also the regular spacing of nucleosomes was assessed by Micrococcal nuclease assay. Furthermore, Drosophila linker histone H1-containing chromatin was reconstituted, affirming that the in vitro assembled chromatin is suitable for downstream applications. Conclusions The method described in this study allows the assembly of Drosophila and human chromatins, possibly in native-like form, by using a wheat germ cell-free protein expression. Although both chromatins were reconstituted successfully, there were unexpected differences with respect to the required ratio of histone-coding mRNAs and the reaction time. Overall, our new in vitro chromatin reconstitution method will aid to characterize the unrevealed structure, function, and regulation of chromatin dynamics. |
Databáze: | OpenAIRE |
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