G. Vieira scite author profile

The function of the N-terminal region of the Oenococcus oeni phage fOg44 lysin (Lys44) as an export signal was investigated. We observed that when induced in Escherichia coli, Lys44 was cleaved between residues 27 and 28 in a SecA-dependent manner. Lys44 processing could be blocked by a specific signal peptidase inhibitor and was severely reduced by modification of the cleavage site. The lethal effect of Lys44 expression observed in E. coli was ascribed to the presence of its N-terminal 27-residue sequence, as its deletion resulted in the production of a nontoxic, albeit active, product. We have further established that lytic activity in oenococcal cells was dependent on Lys44 processing. An active protein with the molecular mass expected for the cleaved enzyme was detected in extracts from O. oeni-infected cells. The temporal pattern of its appearance suggests that synthesis and export of Lys44 in the infected host progress along with phage maturation. Overall, these results provide, for the first time, experimental evidence for the presence of a signal peptide in a bacteriophage lysin. Database searches and alignment of protein sequences support the prediction that other known O. oeni and Lactococcus lactis phages also encode secretory lysins. The evolutionary significance of a putative phage lysis mechanism relying on secretory lytic enzymes is tentatively discussed, on the basis of host cell wall structure and autolytic capacity.All tailed bacteriophages with double-stranded DNA genomes appear to accomplish lysis of the host cell by the concerted action of a peptidoglycan hydrolase (referred to as endolysin or lysin) and a small hydrophobic protein (holin) presumed to form nonspecific lesions upon oligomerization in the membrane (for a review, see reference 41). The latter function seems essential to allow access of the lytic enzyme to the cell wall compartment since in the phage lysins examined so far, the presence of a signal peptide (SP) that would target them to the translocase of the general secretion pathway (GSP) has never been demonstrated.We have recently described the sequences of the lysin and holin genes from the Oenococcus oeni bacteriophage fOg44 and noted that the N-terminal region of its putative lysin (Lys44) was highly hydrophobic (23). A similar observation was made earlier concerning a related enzyme from the lactococcal phage Tuc2009 (2). In spite of its hydrophobic character, the function of the N-terminal sequence of the Tuc2009 lysin as a possible SP was not considered, presumably because the presence of a holin gene upstream of lys argued for a standard holin-dependent lysin export mechanism. This assumption was strengthened by the observation that the expression of an almost identical lysin in Escherichia coli (LysB from the Lactococcus lactis phage LC3) did not result in a decrease in culture absorbance unless the corresponding holin was simultaneously induced (3).Interestingly, however, during an attempt to overproduce Lys44 in an easily purifiable form (as a histidine-tagged fusi...

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Inter‐strain relationships among wine leuconostocs and their divergence from other Leuconostoc species, as revealed by low frequency restriction fragment analysis of genomic DNA

Tenreiro¹,

Santos²,

Paveia³

et al. 1994

Journal of Applied Bacteriology

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Thirty Leuconostoc oenos strains, representing 28 different isolates, were distributed into 20 genomic groups according to PFGE patterns of restriction digests. The 8 bp-specific enzymes Sfi I, Not I and Asc I cleaved the Leuc. oenos DNA in a mean of 17, 11 and four fragments respectively and Sma I produced more than 50 fragments per genome. The strain differentiating capacity of the four enzymes was similar; only two related genomic groups failed to be distinguished by Asc I or Not I. Genomic relationships between Leuc. oenos strains were quantified by numerical analysis of Not I and Sfi I banding patterns. More than half of the strains, including the starters ML34 and PSU-1, formed a major cluster. The average size of the Leuc. oenos genome was estimated as 1.86 Mb. Although similar values were obtained for the genomes of Leuc. mesenteroides, Leuc. pseudomesenteroides, Leuc. gelidum and Leuc. citreum, a significant divergence between wine and non-wine species was inferred from comparisons of genome cleavage frequencies, determined with five different enzymes.

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Gene organization in a central DNA fragment of Oenococcus oeni bacteriophage fOg44 encoding lytic, integrative and non-essential functions

Parreira

São-José

Isidro

et al. 1999

Gene

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Bacteriophages induced by mitomycin C treatment of Leuconostoc oenos strains from Portuguese wines

Tenreiro

Santos

Brito³

et al. 1993

Lett Appl Microbiol

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Nucleotide Sequence Analysis of pOg32, a Cryptic Plasmid fromLeuconostoc oenos

Brito¹,

Vieira

Santos

et al. 1996

Plasmid

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G. Vieira

The N-Terminal Region of the Oenococcus oeni Bacteriophage fOg44 Lysin Behaves as a Bona Fide Signal Peptide in Escherichia coli and as a cis -Inhibitory Element, Preventing Lytic Activity on Oenococcal Cells

Inter‐strain relationships among wine leuconostocs and their divergence from other Leuconostoc species, as revealed by low frequency restriction fragment analysis of genomic DNA

Gene organization in a central DNA fragment of Oenococcus oeni bacteriophage fOg44 encoding lytic, integrative and non-essential functions

Bacteriophages induced by mitomycin C treatment of Leuconostoc oenos strains from Portuguese wines

Nucleotide Sequence Analysis of pOg32, a Cryptic Plasmid fromLeuconostoc oenos

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