VirE2 from Agrobacterium tumefaciens is a single-stranded (ss) DNA-binding protein involved in delivery of ssT-DNA (single-stranded transfer DNA) from the agrobacterial Ti plasmid into the eukaryotic cell nucleus. The crystallized part of VirE2 was studied by X-ray diffraction, and the noncrystallized parts of the C- (40 amino acid residues [aars]) and N- (111 aars) termini of the protein, which are presumably disordered, were evaluated by computational methods. We did a molecular dynamics simulation of VirE2 without VirE1 and observed no large changes in domain orientation. The interaction of VirE2 with ssDNA and formation of ssDNA-VirE2 complexes in silico were studied. We also used computer-aided methods to design model complexes consisting from two- and four-subunit VirE2 proteins. We examined the implication of disordered sites in formation of two- and four-subunit VirE2 complexes. Formation of VirE2 dimers and tetramers within ssDNA-VirE2 complexes was demonstrated by computational methods. Using the Platinum program, we found that hydrophilic amino acids were predominant on the surface of the four-subunit VirE2 complex.
Keywords: ssDNA; ssDNA-binding protein VirE2; supramolecular complexes.