SearchPublisher and Institutes
You are here: Home :: Area NEM :: Life sciences :: Biochemistry
Monika Oberer, Helmut Lindner, Otto Glatter, Christoph Kratky, Walter Keller
Thermodynamic Properties and DNA Binding of the ParD Protein from the Broad Host-Range Plasmid RK2/RP4 Killing System
ParD is a small, acidic protein from the partitioning
system of the plasmid RK2/RP4. The ParD protein exhibits
specific DNA binding activity and, as the antidote
component of a toxin-antidote plasmid addiction
system, ParD forms a tight complex in solution with its
toxin antagonist, the ParE protein. Unopposed ParE
acts as a toxin that causes growth retardation and
killing of plasmid cured cells. ParD negatively autoregulates
its expression by binding to an operator sequence
in the
In light scattering studies and gel filtration chromatography we observed the existence of a stable dimer of ParD in solution. The stoichiometry of ParD-DNA complex formation appeared to be 4:1, the molecular mass of the complex was 72.1 kDa. The ?-helical content of ParD as determined by CD-spectrometry was 35%. The protein exhibited high thermostability with a TM of 64°C and ?H of 25 kcal/mol as shown by differential scanning calorimetry. Upon complex formation the TM increased by 10°C. The thermal unfolding of the ParD protein was highly reversible as observed in repeated DSC scans of the same sample. The recovery of the native fold was proven by CDspectroscopy.
Biological Chemistry, Walter de Gruyter
Print ISSN: 1431-6730
Volume: 380, 12/1999
Pages: 1413 - 1420