The composition-processing-properties relationship of imine containing reversible covalent bonds containing polymers (RCBPs) was studied using an innovative (regarding this type of polymers) combination of characterization methods. This combination led, for...
Gene V protein (gVp) of the bacteriophages of the Ff family is a non-specific single-stranded DNA (ssDNA) binding protein. gVp binds to viral DNA during phage replication inside host Escherichia coli cells, thereby blocking further replication and signaling the assembly of new phage particles. gVp is a dimer in solution and in crystal form. A structural model of the complex between gVp and ssDNA was obtained via docking the free gVp to structures of short ssDNA segments and via the detection of residues involved in DNA binding in solution. Using solid-state NMR, we characterized structural features of the gVp in complex with full-length viral ssDNA. We show that gVp binds ssDNA with an average distance of 5.5 Å between the amino acid residues of the protein and the phosphate backbone of the DNA. Torsion angle predictions and chemical shift perturbations indicate that there were considerable structural changes throughout the protein upon complexation with ssDNA, with the most significant variations occurring at the ssDNA binding loop and the C-terminus. Our data suggests that the structure of gVp in complex with ssDNA differs significantly from the structure of gVp in the free form, presumably to allow for cooperative binding of dimers to form the filamentous phage particle.
F-specific filamentous phages, elongated particles with
circular
single-stranded DNA encased in a symmetric protein capsid, undergo
an intermediate step, where thousands of homodimers of a non-structural
protein, gVp, bind to newly synthesized strands of DNA, preventing
further DNA replication and preparing the circular genome in an elongated
conformation for assembly of a new virion structure at the membrane.
While the structure of the free homodimer is known, the ssDNA-bound
conformation has yet to be determined. We report an atomic-resolution
structure of the gVp monomer bound to ssDNA of fd phage in the nucleoprotein
complex elucidated via magic-angle spinning solid-state NMR. The model
presents significant conformational changes with respect to the free
form. These modifications facilitate the binding mechanism and possibly
promote cooperative binding in the assembly of the gVp–ssDNA
complex.
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