Abstract
IncC from the low-copy number plasmid RK2, is a member of the ParA family of proteins required for partitioning DNA in many bacteria and plasmids. It is an ATPase that binds DNA and its ParB protein partner, KorB. Together, the proteins move replicated DNA to appropriate cellular positions, so that each daughter cell inherits a copy on cell division. IncC from RK2 is expressed in two forms. IncC2 is homologous to bacterial ParA proteins, while IncC1 has an N-terminal extension of 105 amino acids and is similar in length to ParA homologues in other plasmids. We have been examining the role of this extension, here called IncC NTD. We present its backbone NMR chemical shift assignments and show that it is entirely intrinsically disordered. The assignments were achieved using C-detected, CON-based spectra, complemented by HNN spectra to obtain connectivities from three adjacent amino acids. We also observed evidence of deamidation of the protein at a GNGG sequence, to give isoAsp, giving 2 sets of peaks for residues up to 5 amino acids on either side of the modification. We have assigned resonances from around the position of modification for this form of the protein.
Highlights
The partitioning of DNA to daughter cells is a vital process for all dividing organisms
In most bacteria this requires an ATPase from the ParA family of proteins, and a DNAbinding protein from the ParB family of proteins that recognises a specific, centromere-like, DNA site and stimulates the activity of the ATPase
The exact mechanism of this process is poorly understood and much has been learnt from the study of the process in low copy number plasmids, such as RK2
Summary
The partitioning of DNA to daughter cells is a vital process for all dividing organisms. This region of IncC1 is intrinsically disordered in the full-length protein. We have used carbon-detected NMR experiments in conjunction with HNN spectra to assign the isolated N-terminal extension of IncC as a first step towards examining any structural propensities in this region that may affect the function of the full-length protein.
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