The Sec translocon of bacterial plasma membranes mediates the linear translocation of secretory proteins as well as the lateral integration of membrane proteins. Integration of many membrane proteins occurs co-translationally via the signal recognition particle (SRP)-dependent targeting of ribosome-associated nascent chains to the Sec translocon. In contrast, translocation of classical secretory proteins across the Sec translocon is a post-translational event requiring no SRP but the motor protein SecA. Secretory proteins were, however, reported to utilize SRP in addition to SecA, if the hydrophobicity of their signal sequences exceeds a certain threshold value. Here we have analyzed transport of this subgroup of secretory proteins across t...
AbstractAs summarized in this minireview, two different signal recognition events, one involving SRP...
Two distinct protein targeting pathways can direct proteins to the Escherichia coli inner membrane. ...
AbstractIn Escherichia coli, protein export from the cytoplasm may occur via the signal recognition ...
More than a third of all bacterial polypeptides, comprising the 'exportome', are transported to extr...
ABSTRACT Bacteria execute a variety of protein transport systems for maintaining the proper composit...
In Escherichia coli, signal recognition particle (SRP)-dependent targeting of inner membrane protein...
In Escherichia coli, signal recognition particle (SRP)-dependent targeting of inner membrane protein...
AbstractMore than 30years of research have revealed that the dynamic nanomotor SecA is a central pla...
The general secretory (Sec) pathway comprises an essential, ubiquitous and universal export machiner...
More than 30years of research has revealed that the dynamic nanomotor SecA is a central player in ba...
Targeting of ribosome-nascent chain complexes to the translocon in the endoplasmic reticulum is medi...
Translocation across or integration into the rough endoplasmic reticulum (RER) membrane is the first...
About 25% to 30% of the bacterial proteins function in the cell envelope or outside of the cell. The...
In bacteria, more than one-third of the proteins synthesized in the cell accomplish their function o...
Proteins with RER-specific signal sequences are cotranslationally translocated across the rough endo...
AbstractAs summarized in this minireview, two different signal recognition events, one involving SRP...
Two distinct protein targeting pathways can direct proteins to the Escherichia coli inner membrane. ...
AbstractIn Escherichia coli, protein export from the cytoplasm may occur via the signal recognition ...
More than a third of all bacterial polypeptides, comprising the 'exportome', are transported to extr...
ABSTRACT Bacteria execute a variety of protein transport systems for maintaining the proper composit...
In Escherichia coli, signal recognition particle (SRP)-dependent targeting of inner membrane protein...
In Escherichia coli, signal recognition particle (SRP)-dependent targeting of inner membrane protein...
AbstractMore than 30years of research have revealed that the dynamic nanomotor SecA is a central pla...
The general secretory (Sec) pathway comprises an essential, ubiquitous and universal export machiner...
More than 30years of research has revealed that the dynamic nanomotor SecA is a central player in ba...
Targeting of ribosome-nascent chain complexes to the translocon in the endoplasmic reticulum is medi...
Translocation across or integration into the rough endoplasmic reticulum (RER) membrane is the first...
About 25% to 30% of the bacterial proteins function in the cell envelope or outside of the cell. The...
In bacteria, more than one-third of the proteins synthesized in the cell accomplish their function o...
Proteins with RER-specific signal sequences are cotranslationally translocated across the rough endo...
AbstractAs summarized in this minireview, two different signal recognition events, one involving SRP...
Two distinct protein targeting pathways can direct proteins to the Escherichia coli inner membrane. ...
AbstractIn Escherichia coli, protein export from the cytoplasm may occur via the signal recognition ...