Comparison studies with NCBI blastx program resulted significant similarities to Caulobacter phage φCd1, Ralstonia phage φRSB1,
Pseudomonas phage LKA1, Pseudomonas phage LKD16, Pseudomonas phage φKMV, Pantoea phage LIMEzero, Acinetobacter phage φAB1, and Klebsiella phage KP34. The analysis of the relationships between these phages and Bf7, with CoreGenes3.1 program at stringency setting 75, using threshold value of 40% orthologous proteins (Lavigne et al. 2008), resulted that φCd1, φRSB1, LKA1, LKD16, and φKMV are closely related (Table 3). Compared with the other members of the φKMV-like phages genus, the G+C content is lower, but the Bf7 phage’s genome size is nearly similar to the others. Known genome sizes are 41 593, 43 200, 42 519, and 43 079 bp for LKA1, LKD16, φKMV Pseudomonas aerginosa phages, and φRSB1 Ralstonia solanacearum cancer metabolism signaling pathway phage,
respectively (Lavigne et al., 2003; Ceyssens et al., 2006; Kawasaki et al., Selleckchem SB203580 2009). In the case of the Caulobacter phage φCd1, the estimated genome size is 41 581 bp without terminal repeats (Kropinski et al., 2010). Among the 46 predicted proteins, 26 were hypothetical ones, some of them could be assigned with hypothetical proteins, and some did not show any other similarities (Table 4). In case of 17 proteins, we could estimate putative and real functions (Table 4). This work was supported by the Hungarian National Office for Research and Technology (grant numbers: JAP OM-00136/2007, ALGOLABH OMFB-00356/2010). “
“The cell wall is responsible for cell integrity and the maintenance of cell shape in bacteria. The Gram-positive bacterial cell wall consists of a thick peptidoglycan layer located on the outside of the cytoplasmic membrane. Bacterial cell membranes, like eukaryotic cell membranes, are known this website to contain domains of specific lipid and protein
composition. Recently, using the membrane-binding fluorescent dye FM4-64, helix-like lipid structures extending along the long axis of the cell and consisting of negatively charged phospholipids were detected in the rod-shaped bacterium Bacillus subtilis. It was also shown that the cardiolipin-specific dye, nonyl acridine orange (NAO), is preferentially distributed at the cell poles and in the septal regions in both Escherichia coli and B. subtilis. These results suggest that phosphatidylglycerol is the principal component of the observed spiral domains in B. subtilis. Here, using the fluorescent dyes FM4-64 and NAO, we examined whether these lipid domains are linked to the presence of cell wall peptidoglycan. We show that in protoplasted cells, devoid of the peptidoglycan layer, helix-like lipid structures are not preserved.