A gene product of ORF24' was identified on the genome of corynephage BFK20 as a putative phage endolysin. The protein of endolysin BFK20 (gp24') has a modular structure consisting of an N-terminal amidase_2 domain (gp24CD) and a C-terminal cell wall binding domain (gp24BD). The C-terminal domain is unrelated to any of the known cell wall binding domains of phage endolysins. The whole endolysin gene and the sequences of its N-terminal and C-terminal domains were cloned; proteins were expressed in Escherichia coli and purified to homogeneity. The lytic activities of endolysin and its catalytic domain were demonstrated on corynebacteria and bacillus substrates. The binding activity of cell wall binding domain alone and in fusion with green fluorescent protein (gp24BD-GFP) were shown by specific binding assays to the cell surface of BFK20 host Brevibacterium flavum CCM 251 as well as those of other corynebacteria.
A bacteriophage PhiBP infecting Paenibacillus polymyxa CCM 7400 was isolated from culture lysate. Electron microscopy of lysate samples revealed the presence of bacteriophage particles with polyhedral heads 56 nm in diameter and flexible noncontractile tails 144 nm in length. The profile of PhiBP structural proteins resembles that of other bacteriophages. The PhiBP genome consists of double-stranded DNA of 43-kbp size. Homology search of sequenced DNA fragments from EcoRI digest revealed regions with significant similarity to other known bacteriophage genes. Regions similar to phage terminase genes were identified within the 1.2-kbp fragment. Three lytic genes, two holin genes and one endolysin gene were identified within the 2.5-kbp fragment. We tested the isolates of P. polymyxa CCM 7400 for the presence of phage DNA on bacterial chromosome using PCR amplification with primers derived from proposed terminase and holin gene sequences. We confirmed the presence of PhiBP DNA on P. polymyxa chromosome by Southern hybridization. The bacteriophage PhiBP was capable of causing lysis of a P. polymyxaPhiBP lysogen despite the presence of the phage DNA on bacterial chromosome. Therefore, we concluded that PhiBP was a virulent mutant phage.
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