Analysis of DNA repeats in bacterial plasmids reveals the potential for recurrent instability events |
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Authors: | Pedro H Oliveira Kristala Jones Prather Duarte M F Prazeres Gabriel A Monteiro |
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Institution: | 1. IBB—Institute for Biotechnology and Bioengineering, Centre for Biological and Chemical Engineering, Instituto Superior Técnico, Av. Rovisco Pais, 1049-001, Lisbon, Portugal 2. Department of Chemical Engineering, Massachusetts Institute of Technology, Room 66-458, Cambridge, MA, 02139, USA
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Abstract: | Structural instability has been frequently observed in natural plasmids and vectors used for protein expression or DNA vaccine
development. However, there is a lack of information concerning hotspot mapping, namely, DNA repeats or sequences identical
to the host genome. This led us to evaluate the abundance and distribution of direct, inverted, and tandem repeats with high
recombination potential in 36 natural plasmids from ten bacterial genera, as well as in several widely used bacterial and
mammalian expression vectors. In natural plasmids, we observed an overrepresentation of close direct repeats in comparison
to inverted ones and a preferential location of repeats with high recombination potential in intergenic regions, suggesting
a highly plastic and dynamic behavior. In plasmid vectors, we found a high density of repeats within eukaryotic promoters
and non-coding sequences. As a result of this in silico analysis, we detected a spontaneous recombination between two 21-bp
direct repeats present in the human cytomegalovirus early enhancer/promoter (huCMV EEP) of the pCIneo plasmid. This finding
is of particular importance, as the huCMV EEP is one of the most frequently used regulatory elements in plasmid vectors. Because
pDNA integration into host gDNA can have adverse consequences in terms of plasmid processing and host safety, we also mapped
several regions with high probability to mediate integration into the Escherichia coli or human genomes. Like repeated regions, some of these were located in non-coding regions of the plasmids, thus being preferential
targets to be removed. |
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