Add to ORKGMost membrane and secretory proteins are delivered co-translationally to protein translocation channels in their destination membrane by the signal recognition particle (SRP) and its receptor. This co-translational molecular machinery is conserved across all kingdoms of life, though it varies in composition and function. Here we report recent progress towards understanding the mechanism of SRP function, focusing on findings about Escherichia coli SRP's conformational dynamics throughout the targeting process. These insights shed light on a key checkpoint in the targeting cycle: how SRP regulates engagement of an actively translating ribosome with the translocation machinery at the membrane
Signal Recognition Particle (SRP) and its receptor (SR) are co-translational protein targeting machi...
Signal Recognition Particle (SRP) and its receptor (SR) are co-translational protein targeting machi...
AbstractAll living cells have co-translational pathways for targeting membrane proteins. Co-translat...
Signal recognition particle (SRP) and its receptor (SR) co-translationally target membrane and secre...
Signal recognition particle (SRP) and its receptor (SR) co-translationally target membrane and secre...
Signal recognition particle (SRP) and its receptor (SR) co-translationally target membrane and secre...
Co-translational protein targeting to membranes by the signal recognition particle (SRP) is a univer...
Summary: Co-translational protein targeting to membranes by the signal recognition particle (SRP) is...
The signal recognition particle (SRP) is a conserved ribonucleoprotein complex that binds to targeti...
In all three kingdoms of life, co-translational targeting of secretory and membrane proteins to the ...
In all three kingdoms of life, co-translational targeting of secretory and membrane proteins to the ...
The signal recognition particle (SRP) is a key component of the cellular machinery that couples the ...
AbstractCo-translational protein targeting by the Signal Recognition Particle (SRP) is an essential ...
Signal Recognition Particle (SRP) and its receptor (SR) are co-translational protein targeting machi...
Roughly one third of the proteome is initially destined for the eukaryotic endoplasmic reticulum or ...
Signal Recognition Particle (SRP) and its receptor (SR) are co-translational protein targeting machi...
Signal Recognition Particle (SRP) and its receptor (SR) are co-translational protein targeting machi...
AbstractAll living cells have co-translational pathways for targeting membrane proteins. Co-translat...
Signal recognition particle (SRP) and its receptor (SR) co-translationally target membrane and secre...
Signal recognition particle (SRP) and its receptor (SR) co-translationally target membrane and secre...
Signal recognition particle (SRP) and its receptor (SR) co-translationally target membrane and secre...
Co-translational protein targeting to membranes by the signal recognition particle (SRP) is a univer...
Summary: Co-translational protein targeting to membranes by the signal recognition particle (SRP) is...
The signal recognition particle (SRP) is a conserved ribonucleoprotein complex that binds to targeti...
In all three kingdoms of life, co-translational targeting of secretory and membrane proteins to the ...
In all three kingdoms of life, co-translational targeting of secretory and membrane proteins to the ...
The signal recognition particle (SRP) is a key component of the cellular machinery that couples the ...
AbstractCo-translational protein targeting by the Signal Recognition Particle (SRP) is an essential ...
Signal Recognition Particle (SRP) and its receptor (SR) are co-translational protein targeting machi...
Roughly one third of the proteome is initially destined for the eukaryotic endoplasmic reticulum or ...
Signal Recognition Particle (SRP) and its receptor (SR) are co-translational protein targeting machi...
Signal Recognition Particle (SRP) and its receptor (SR) are co-translational protein targeting machi...
AbstractAll living cells have co-translational pathways for targeting membrane proteins. Co-translat...