The rest of the constructs failed to replicate in both strains. The plasmid pDOP-C1-1086 expresses a hybrid protein containing the first 362 amino acid residues (aa) of the p42d RepC protein and the last 39 aa carboxy-terminal region of the pSymA RepC protein. With respect to plasmid incompatibility, this recombinant plasmid behaved the same as plasmid pDOP-CSymA, i.e., it replicated similarly in the strains JNJ-26481585 mw CFNX101 and CFNX107. This result Selleck P505-15 indicates that the RepC region involved in plasmid incompatibility resides in the last 39 amino acid residues of the protein. Figure 6 Protein alignment of p42d RepC from R. etli CFN42 and pSymA

RepC from S. meliloti 1021 and where identical amino acid residues are marked in red. The secondary structures of these proteins are also shown. Coiled regions are marked with C; helical regions are marked with boxed H letters; and with letter E, the stranded regions. Arrows with an associated numbers indicates the positions where the genes were swap, in the hybrid genes (see table 1). Figure 7 a) Plasmid profiles

of CFNX101 (lane 1) and CFNX101/pDOP-CsA (lane 2), showing that plasmid p42d and pDOP-CsA are compatible. b) Linear representation of constructs containing SymA repC gene (blue arrow), p42d repC gene (red arrow) and SymA/p42d hybrid derivatives (blue/red arrows), and their associated replication capabilities when introduced into R. etli CFNX101 (with p42d) and CFNX107 (a p42d cured derivative) strains (table at left). “”+”" Symbols indicate that the construct Silmitasertib nmr are capable to replicate, and “”-”" that the construct is incapable to do that. Construct names are listed at the right of the figure. Black squares indicate the relative position of the Plac promoter, and the white rectangles the position of the Shine-Dalgarno (SD) sequences. Numbers at top indicate the positions where the

SymA/p42d regions were swap. Discussion Plasmids in which the oriV is located in the gene encoding an initiation protein are uncommon but not exceptional. The Enterococcus faecalis pheromone-responding plasmid pAD1 [31] (Francia, see more et al., 2004), the Staphylococcus xylosus plasmid pSX267 [32], the plasmids pAMβ1 and pLS32 from Bacillus subtilis [33–35], and the Staphylococcus aureus multiresistance plasmids pSK1 and pSK41 [36, 37] fall into this category. However, the origins of replication in all of these plasmids have recognizable iterons, and an insert that contains some or all of the iterons from these plasmids is usually capable of driving plasmid replication if the initiator protein is provided in trans. The minimal replicon of the p42d plasmid is the repC ORF sequence driven by a constitutive promoter (Plac) with an SD sequence that we designed. Frame shift and deletion mutants of the repC gene disrupted the capacity for replication of the minimal replicon, indicating that RepC is essential for replication and is likely the initiator protein.