2004
DOI: 10.1073/pnas.0400957101
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A signal-arrest-release sequence mediates export and control of the phage P1 endolysin

Abstract: The Lyz endolysin of bacteriophage P1 was found to cause lysis of the host without a holin. Induction of a plasmid-cloned lyz resulted in lysis, and the lytic event could be triggered prematurely by treatments that dissipate the proton-motive force. Instead of requiring a holin, export was mediated by an N-terminal transmembrane domain (TMD) and required host sec function. Exported Lyz of identical SDS͞PAGE mobility was found in both the membrane and periplasmic compartments, indicating that periplasmic Lyz wa… Show more

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Cited by 153 publications
(210 citation statements)
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“…Although the processing of endolysin was observed in many other bacteriophages, there are some exceptions wherein the SAR sequence is not cleaved by the periplasmic protease. E. coli bacteriophage P1 lysin, for example, showed the presence of N-terminal SAR sequence when its periplasmic and cytoplasmic fractions were tested on SDS-PAGE, suggesting that the SAR sequence remains attached to the endolysin even after export (Xu et al, 2004). Similar observations were made for Erwinia amylovora phage ERA103 and other bacteriophages (Kuty et al, 2010;Briers et al, 2011).…”
Section: Regulation During Translocationsupporting
confidence: 67%
See 1 more Smart Citation
“…Although the processing of endolysin was observed in many other bacteriophages, there are some exceptions wherein the SAR sequence is not cleaved by the periplasmic protease. E. coli bacteriophage P1 lysin, for example, showed the presence of N-terminal SAR sequence when its periplasmic and cytoplasmic fractions were tested on SDS-PAGE, suggesting that the SAR sequence remains attached to the endolysin even after export (Xu et al, 2004). Similar observations were made for Erwinia amylovora phage ERA103 and other bacteriophages (Kuty et al, 2010;Briers et al, 2011).…”
Section: Regulation During Translocationsupporting
confidence: 67%
“…How do these endolysins block their active site? In the case of coliphage 21 endolysin (R 21 ), although a SAR domain is present at the N terminus of endolysin, it lacks a Cys residue (Xu et al, 2004). When the SAR-truncated derivative of R 21 was prepared, it showed no activity in vitro.…”
Section: Regulation By Inactivationmentioning
confidence: 99%
“…Activation of SAR lysozymes requires their release from the bilayer (8). In these cases, holins are not essential for lysis but are thought to impose timing on the lytic event, because holin triggering depolarizes the membrane, and depolarization accelerates the release of the SAR lysozyme from the bilayer (7).…”
mentioning
confidence: 99%
“…For phages like and T4, this allows release of an active lysozyme that has accumulated in the cytosol, and holin function is absolutely required for lysis. For others, like P1 and the lambdoid phage 21, the lysozyme is exported by the host sec system and accumulates in the periplasm as an enzymatically inactive form tethered to the membrane by an N-terminal SAR (''signal anchor-release'') sequence (7,8). Unlike canonical transmembrane domains (TMDs), SAR domains have the unique property of escaping from the bilayer, in part because of an elevated content of relatively nonhydrophobic residues like Gly, Ala, Ser, and Thr (Fig.…”
mentioning
confidence: 99%
“…Endolysins accumulate in the periplasm tethering to the membrane in an enzymically inactive form until the membrane is disrupted by the holin. They are then released from the membrane to the cell wall and convert into an enzymically active form (Xu et al, 2004(Xu et al, , 2005. The regulation of endolysins bearing the SAR domain from the membranetethered inactive form to the active form has been reported (Baase et al, 2010;Kuty et al, 2010;Sun et al, 2009).…”
Section: Introductionmentioning
confidence: 99%