Abstract
In Escherichia coli, two main protein targeting pathways to the inner membrane exist: the SecB pathway for the essentially posttranslational targeting of secretory proteins and the SRP pathway for cotranslational targeting of inner membrane proteins (IMPs). At the inner membrane both pathways converge at the Sec translocase, which is capable of both linear transport into the periplasm and lateral transport into the lipid bilayer. The Sec-associated YidC appears to assist the lateral transport of IMPs from the Sec translocase into the lipid bilayer. It should be noted that targeting and translocation of only a handful of secretory proteins and IMPs have been studied. These model proteins do not include lipoproteins. Here, we have studied the targeting and translocation of two secretory lipoproteins, the murein lipoprotein and the bacteriocin release protein, using a combined in vivo and in vitro approach. The data indicate that both murein lipoprotein and bacteriocin release protein require the SRP pathway for efficient targeting to the Sec translocase. Furthermore, we show that YidC plays an important role in the targeting/translocation of both lipoproteins.
Highlights
In the bacterium Escherichia coli, the SecB pathway targets a subset of secretory proteins to the Sec translocase [1]
This does not have a significant impact on the predicted hydrophobicity of the Lpp and bacteriocin release protein (BRP) signal sequences, and we felt confident that the introduction of a methionine would affect Lpp and BRP signal sequence interactions only marginally at the most
In the ColA and ColN BRPs, which are homologous to the pCloDF13 BRP, a methionine naturally occurs at this position
Summary
In the bacterium Escherichia coli, the SecB pathway targets a subset of secretory proteins to the Sec translocase [1]. The Sec translocase catalyzes linear transport of secretory proteins and of periplasmic domains of IMPs across the membrane. No evidence has been obtained that points to a role of YidC in the targeting/translocation of secretory proteins across the inner membrane [7, 9].2. It should be noted that in E. coli targeting and translocation of only a handful of secretory proteins and IMPs have been studied thoroughly. Secretory lipoproteins can, depending on the sequence of the early mature region, remain associated to the outer leaflet of the inner membrane or be transported by the Lol system to the outer membrane [12]. The BRP is essential for the translocation of the bacteriocin cloacin
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