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Journal Article

In-cell architecture of an actively transcribing-translating expressome

MPS-Authors
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Tegunov,  D.
Department of Molecular Biology, MPI for Biophysical Chemistry, Max Planck Society;

/persons/resource/persons127020

Cramer,  P.
Department of Molecular Biology, MPI for Biophysical Chemistry, Max Planck Society;

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Supplementary Material (public)

3247325-Suppl-1.pdf
(Supplementary material), 8MB

3247325-Suppl-2.xlsx
(Supplementary material), 917KB

3247325-Suppl-3.xlsx
(Supplementary material), 690KB

3247325-Suppl-4.xlsx
(Supplementary material), 15KB

3247325-Suppl-5.pdf
(Supplementary material), 109KB

3247325-Suppl-6.mp4
(Supplementary material), 12MB

3247325-Suppl-7.mp4
(Supplementary material), 12MB

Citation

O’Reilly, F. J., Xue, L., Graziadei, A., Sinn, L., Lenz, S., Tegunov, D., et al. (2020). In-cell architecture of an actively transcribing-translating expressome. Science, 369(6503), 554-557. doi:10.1126/science.abb3758.


Cite as: https://hdl.handle.net/21.11116/0000-0006-D2D7-A
Abstract
Structural biology studies performed inside cells can capture molecular machines in action within their native context. In this work, we developed an integrative in-cell structural approach using the genome-reduced human pathogen Mycoplasma pneumoniae. We combined whole-cell cross-linking mass spectrometry, cellular cryo–electron tomography, and integrative modeling to determine an in-cell architecture of a transcribing and translating expressome at subnanometer resolution. The expressome comprises RNA polymerase (RNAP), the ribosome, and the transcription elongation factors NusG and NusA. We pinpointed NusA at the interface between a NusG-bound elongating RNAP and the ribosome and propose that it can mediate transcription-translation coupling. Translation inhibition dissociated the expressome, whereas transcription inhibition stalled and rearranged it. Thus, the active expressome architecture requires both translation and transcription elongation within the cell.