Measurement and modeling of intrinsic transcription terminators

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The reliable forward engineering of genetic systems remains limited by the ad hoc reuse of many types of basic genetic elements. Although a few intrinsic prokaryotic transcription terminators are used routinely, termination efficiencies have not been studied systematically. Here, we developed and va...

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Autores principales: Cambray, Guillaume, Guimaraes, Joao C., Mutalik, Vivek K., Lam, Colin, Mai, Quynh-Anh, Thimmaiah, Tim, Carothers, James M., Arkin, Adam P., Endy, Drew
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2013
Materias:
Synthetic Biology and Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3643576/
https://www.ncbi.nlm.nih.gov/pubmed/23511967
http://dx.doi.org/10.1093/nar/gkt163
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author Cambray, Guillaume
Guimaraes, Joao C.
Mutalik, Vivek K.
Lam, Colin
Mai, Quynh-Anh
Thimmaiah, Tim
Carothers, James M.
Arkin, Adam P.
Endy, Drew
author_facet Cambray, Guillaume
Guimaraes, Joao C.
Mutalik, Vivek K.
Lam, Colin
Mai, Quynh-Anh
Thimmaiah, Tim
Carothers, James M.
Arkin, Adam P.
Endy, Drew
author_sort Cambray, Guillaume
collection PubMed
description The reliable forward engineering of genetic systems remains limited by the ad hoc reuse of many types of basic genetic elements. Although a few intrinsic prokaryotic transcription terminators are used routinely, termination efficiencies have not been studied systematically. Here, we developed and validated a genetic architecture that enables reliable measurement of termination efficiencies. We then assembled a collection of 61 natural and synthetic terminators that collectively encode termination efficiencies across an ∼800-fold dynamic range within Escherichia coli. We simulated co-transcriptional RNA folding dynamics to identify competing secondary structures that might interfere with terminator folding kinetics or impact termination activity. We found that structures extending beyond the core terminator stem are likely to increase terminator activity. By excluding terminators encoding such context-confounding elements, we were able to develop a linear sequence-function model that can be used to estimate termination efficiencies (r = 0.9, n = 31) better than models trained on all terminators (r = 0.67, n = 54). The resulting systematically measured collection of terminators should improve the engineering of synthetic genetic systems and also advance quantitative modeling of transcription termination.
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spelling pubmed-36435762013-05-03 Measurement and modeling of intrinsic transcription terminators Cambray, Guillaume Guimaraes, Joao C. Mutalik, Vivek K. Lam, Colin Mai, Quynh-Anh Thimmaiah, Tim Carothers, James M. Arkin, Adam P. Endy, Drew Nucleic Acids Res Synthetic Biology and Chemistry The reliable forward engineering of genetic systems remains limited by the ad hoc reuse of many types of basic genetic elements. Although a few intrinsic prokaryotic transcription terminators are used routinely, termination efficiencies have not been studied systematically. Here, we developed and validated a genetic architecture that enables reliable measurement of termination efficiencies. We then assembled a collection of 61 natural and synthetic terminators that collectively encode termination efficiencies across an ∼800-fold dynamic range within Escherichia coli. We simulated co-transcriptional RNA folding dynamics to identify competing secondary structures that might interfere with terminator folding kinetics or impact termination activity. We found that structures extending beyond the core terminator stem are likely to increase terminator activity. By excluding terminators encoding such context-confounding elements, we were able to develop a linear sequence-function model that can be used to estimate termination efficiencies (r = 0.9, n = 31) better than models trained on all terminators (r = 0.67, n = 54). The resulting systematically measured collection of terminators should improve the engineering of synthetic genetic systems and also advance quantitative modeling of transcription termination. Oxford University Press 2013-05 2013-03-19 /pmc/articles/PMC3643576/ /pubmed/23511967 http://dx.doi.org/10.1093/nar/gkt163 Text en © The Author(s) 2013. Published by Oxford University Press. http://creativecommons.org/licenses/by-nc/3.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0/), which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Synthetic Biology and Chemistry
Cambray, Guillaume
Guimaraes, Joao C.
Mutalik, Vivek K.
Lam, Colin
Mai, Quynh-Anh
Thimmaiah, Tim
Carothers, James M.
Arkin, Adam P.
Endy, Drew
Measurement and modeling of intrinsic transcription terminators
title Measurement and modeling of intrinsic transcription terminators
title_full Measurement and modeling of intrinsic transcription terminators
title_fullStr Measurement and modeling of intrinsic transcription terminators
title_full_unstemmed Measurement and modeling of intrinsic transcription terminators
title_short Measurement and modeling of intrinsic transcription terminators
title_sort measurement and modeling of intrinsic transcription terminators
topic Synthetic Biology and Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3643576/
https://www.ncbi.nlm.nih.gov/pubmed/23511967
http://dx.doi.org/10.1093/nar/gkt163
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