In bacteria, two major pathways exist to secrete proteins across the cytoplasmic membrane.
The general Secretion route, termed Sec-pathway, catalyzes the transmembrane …

The Tat (t win‐a rginine t ranslocation) system is a bacterial protein export pathway with the
remarkable ability to transport folded proteins across the cytoplasmic membrane …

Harnessing the microbiota for beneficial outcomes is limited by our poor understanding of
the constituent bacteria, as the functions of most of their genes are unknown. Here, we …

To examine the relationship between folding and export competence by the twin-arginine
translocation (Tat) pathway we analyzed the subcellular localization of fusions between a …

Gram negative bacteria possess a large variety of protein transport systems, by which
proteins that are synthesised in the cytosol are exported to destinations in the cell envelope …

In Escherichia coli a subset of periplasmic proteins is exported through the Tat pathway to
which substrates are directed by an NH 2-terminal signal peptide containing a consensus …

Halophilic archaea thrive in environments with salt concentrations approaching saturation.
However, little is known about the way in which these organisms stabilize their secreted …

The twin-arginine protein translocation (Tat) system has been characterized in bacteria,
archaea and the chloroplast thylakoidal membrane. This system is distinct from other protein …

The Tat (twin a rginine t ranslocation) protein transport system functions to export folded
protein substrates across the bacterial cytoplasmic membrane and to insert certain integral …

The twin-arginine (Tat) protein translocase is a highly unusual protein transport machine that
is dedicated to the movement of folded proteins across the bacterial cytoplasmic membrane …