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PDBsum entry 5ckf
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References listed in PDB file
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Key reference
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Title
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Substrate recognition and activity regulation of the escherichia coli mRNA endonuclease mazf.
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Authors
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V.Zorzini,
A.Mernik,
J.Lah,
Y.G.Sterckx,
N.De jonge,
A.Garcia-Pino,
H.De greve,
W.Versées,
R.Loris.
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Ref.
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J Biol Chem, 2016,
291,
10950-10960.
[DOI no: ]
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PubMed id
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Abstract
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Escherichia coli MazF (EcMazF) is the archetype of a large family of
ribonucleases involved in bacterial stress response. The crystal structure of
EcMazF in complex with a 7-nucleotide substrate mimic explains the relaxed
substrate specificity of the E. coli enzyme relative to its Bacillus subtilis
counterpart and provides a framework for rationalizing specificity in this
enzyme family. In contrast to a conserved mode of substrate recognition and a
conserved active site, regulation of enzymatic activity by the antitoxin EcMazE
diverges from its B. subtilis homolog. Central in this regulation is an
EcMazE-induced double conformational change as follows: a rearrangement of a
crucial active site loop and a relative rotation of the two monomers in the
EcMazF dimer. Both are induced by the C-terminal residues Asp-78-Trp-82 of
EcMazE, which are also responsible for strong negative cooperativity in
EcMazE-EcMazF binding. This situation shows unexpected parallels to the
regulation of the F-plasmid CcdB activity by CcdA and further supports a common
ancestor despite the different activities of the MazF and CcdB toxins. In
addition, we pinpoint the origin of the lack of activity of the E24A point
mutant of EcMazF in its inability to support the substrate binding-competent
conformation of EcMazF.
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