No transformant was obtained with pCM-P, confirming that CDSA, which encodes a putative Mob Capmatinib cell line protein (see before), is not the replication protein and that none of the intergenic regions is sufficient to sustain plasmid replication. In contrast, the replication of pCM-K1 in M. yeatsii was abolished after introducing a frameshift mutation that disrupts CDSB (pCM-K1 ΔB in Figure 2A). This strongly argues for CDSB encoding the replication protein of pMyBK1, a result that confirms recent findings [25]. Successive reductions of the region downstream of CDSB, including the GC rich sequence located immediately upstream of CDSA of the native selleck chemical plasmid, led to a minimal replicon pCM-K4 of 1,297 bp
(Figure 2A). In pCM-K4, the region downstream of CDSB is characterized
by the presence of two sets of direct repeats. In addition, a 44-bp partially palindromic sequence with the potential to form a stable stem-loop structure (ΔG = −8.71 kcal/mol) is located immediately downstream of the direct repeat region. Interestingly, this structure was found to be essential for plasmid replication as deletion of the stem-loop 5’arm in pCM-K5 totally abolished plasmid replication (Figure 3A). Detection of single-stranded (ssDNA) intermediates, generated during replication, is the hallmark of plasmids replicating via a rolling-circle mechanism [40, 52]. After treatment of some of the DNA samples with ssDNA-specific nuclease S1, total DNAs from M. yeatsii GIH TS were separated by agarose gel electrophoresis before being transferred to nylon membranes under C646 concentration non-denaturating conditions. Hybridization with the pMyBK1 probe could only be detected when S1-nuclease treatment was omitted (Additional file 5: Figure S2). The hybridization signal was completely absent in the corresponding, S1-nuclease treated samples (Additional file 5: Figure S2). These results confirmed the existence of ssDNA intermediates and indicate that pMyBK1 probably replicates via the RCR mechanism. Since CDSB protein has no similarity with any known replication protein, Adenosine triphosphate pMyBK1 is therefore considered as the first member of a new RCR
replicon family. Host specificity of pMyBK1 The lack of significant similarity between the putative Rep of pMyBK1 and the Rep proteins from other mycoplasma plasmids confirms that pMyBK1 belongs to a previously unknown class of RCR plasmids. However, the fact that pMyBK1 is hosted by a mycoplasma species (M. yeatsii) sharing a common host (goat) and body site (ear canal) with other ruminant mycoplasmas [53, 54] raises the question of the putative dissemination of this plasmid. Therefore, the ability of pMyBK1 derivatives to replicate in various mollicute species of the Mycoplasma and Spiroplasma genera was evaluated. Using the standard PEG-transformation protocol, the pMyBK1-derivatives pCM-K3/4 (Figure 2B) were successfully introduced into the following plasmid-free strains: M. yeatsii #13156, M. putrefaciens KS1 TS, M.