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Whole genome re-sequencing to identify suppressor mutations of mutant and foreign Escherichia coli FtsZ.
Abstract
FtsZ is an essential protein for bacterial cell division, where it forms the cytoskeletal
scaffold and may generate the constriction force. We have found previously that some
mutant and foreign FtsZ that do not complement an ftsZ null can function for cell
division in E. coli upon acquisition of a suppressor mutation somewhere in the genome.
We have now identified, via whole genome re-sequencing, single nucleotide polymorphisms
in 11 different suppressor strains. Most of the mutations are in genes of various
metabolic pathways, which may modulate cell division indirectly. Mutations in three
genes, ispA, accD and nlpI, may be more directly involved in cell division. In addition
to the genomic suppressor mutations, we identified intragenic suppressors of three
FtsZ point mutants (R174A, E250K and L272V).
Type
Journal articlePermalink
https://hdl.handle.net/10161/14347Published Version (Please cite this version)
10.1371/journal.pone.0176643Publication Info
(2017). Whole genome re-sequencing to identify suppressor mutations of mutant and foreign
Escherichia coli FtsZ. PLoS One, 12(4). pp. e0176643. 10.1371/journal.pone.0176643. Retrieved from https://hdl.handle.net/10161/14347.This is constructed from limited available data and may be imprecise. To cite this
article, please review & use the official citation provided by the journal.
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Show full item recordScholars@Duke
Harold Paul Erickson
James B. Duke Distinguished Professor Emeritus
Recent research has been on cytoskeleton (eukaryotes and bacteria); a skirmish to
debunk the irisin story; a reinterpretation of proposed multivalent binders of the
coronavirus spike protein. I have also published an ebook on "Principles of Protein-Protein
Association" suitable for a course module or individual learning.
Masaki Osawa
Assistant Research Professor of Cell Biology
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