ABSTRACTϕEf11 is a temperateSiphoviridaebacteriophage that infects strains ofEnterococcus faecalis. The ϕEf11 genome, encompassing 65 open reading frames (ORFs), is contained within 42,822 bp of DNA. Within this genome, a module of six lysis-related genes was identified. Based upon sequence homology, one of these six genes, ORF28, was predicted to code for anN-acetylmuramoyl-l-alanine amidase endolysin of 46.133 kDa, composed of 421 amino acids. The PCR-amplified ORF28 was cloned and expressed, and the resulting gene product was affinity purified to homogeneity. The purified protein was obtained from a fusion protein that exhibited a molecular mass of 72.5 kDa, consistent with a 46.1-kDa protein combined with a fused 26.5-kDa glutathioneS-transferase tag. It produced rapid, profound lysis inE. faecalispopulations and was active against 73 of 103 (71%)E. faecalisstrains tested. In addition, it caused substantial destruction ofE. faecalisbiofilms. The lysin was quite stable, retaining its activity for three years in refrigerated storage, was stable over a wide range of pHs, and was unaffected by the presence of a reducing agent; however, it was inhibited by increasing concentrations of Ca2+. Liquid chromatography-mass spectrometry analysis ofE. faecaliscell wall digestion products produced by the ORF28 endolysin indicated that the lysin acted as anN-acetylmuramidase, an endo-β-N-acetylglucosaminidase, and an endopeptidase, rather than anN-acetylmuramoyl-l-alanine amidase. The ϕEf11 ORF28 lysin shared 10% to 37% amino acid identity with the lytic enzymes of all other characterizedE. faecalisbacteriophages.IMPORTANCEThe emergence of multidrug-resistant pathogenic microorganisms has brought increasing attention to the urgent need for the development of alternative antimicrobial strategies. One such alternative to conventional antibiotics employs lytic enzymes (endolysins) that are produced by bacteriophages in the course of lytic infection. During lytic infection by a bacteriophage, these enzymes hydrolyze the cell wall peptidoglycan, resulting in the lysis of the host cell. However, external endolysin application can result in lysis from without. In this study, we have cloned, expressed, purified, and characterized an endolysin produced by a bacteriophage infecting strains ofEnterococcus faecalis. The lysin is broadly active against most of the testedE. faecalisstrains and exhibits multifunctional enzymatic specificities that differ from all other characterized endolysins produced byE. faecalisbacteriophages.
Quantitative confocal imaging method for analyzing cellulose dynamics during cell wall regeneration in Arabidopsis mesophyll protoplasts