Add to ORKGMembrane protein biogenesis poses enormous challenges to cellular protein homeostasis and requires effective molecular chaperones. Compared with chaperones that promote soluble protein folding, membrane protein chaperones require tight spatiotemporal coordination of their substrate binding and release cycles. Here we define the chaperone cycle for cpSRP43, which protects the largest family of membrane proteins, the light harvesting chlorophyll a/b-binding proteins (LHCPs), during their delivery. Biochemical and NMR analyses demonstrate that cpSRP43 samples three distinct conformations. The stromal factor cpSRP54 drives cpSRP43 to the active state, allowing it to tightly bind substrate in the aqueous compartment. Bidentate interactions with ...
Protein homeostasis is essential for all cells and requires proper control of the folding, localizat...
A novel signal recognition particle (SRP) found in the chloroplast (cpSRP) works in combination with...
Molecular chaperones are central to cellular protein homeostasis. Dynamic disorder is a key feature ...
Membrane protein biogenesis poses enormous challenges to cellular protein homeostasis and requires e...
The 43 kDa subunit of the chloroplast signal recognition particle, cpSRP43, is an ATP-independent ch...
Membrane proteins impose enormous challenges to cellular protein homeostasis during their post-trans...
Protein aggregation is detrimental to the maintenance of proper protein homeostasis in all cells. To...
The universally conserved signal recognition particle (SRP) co-translationally delivers newly synthe...
The ability of molecular chaperones to overcome the misfolding and aggregation of proteins is essent...
The universally conserved signal recognition particle (SRP) co-translationally delivers newly synthe...
Newly synthesized integral membrane proteins must traverse the aqueous cytosolic environment before ...
Assembly of light-harvesting complexes requires synchronization of chlorophyll (Chl) biosynthesis wi...
Outer membrane proteins (OMPs) of Gram-negative bacteria are synthesized in the cytosol and must cro...
Molecular chaperones are the key instruments of bacterial protein homeostasis. Chaperones not only f...
A cpSRP [chloroplast SRP (signal recognition particle)] comprising cpSRP54 and cpSRP43 subunits medi...
Protein homeostasis is essential for all cells and requires proper control of the folding, localizat...
A novel signal recognition particle (SRP) found in the chloroplast (cpSRP) works in combination with...
Molecular chaperones are central to cellular protein homeostasis. Dynamic disorder is a key feature ...
Membrane protein biogenesis poses enormous challenges to cellular protein homeostasis and requires e...
The 43 kDa subunit of the chloroplast signal recognition particle, cpSRP43, is an ATP-independent ch...
Membrane proteins impose enormous challenges to cellular protein homeostasis during their post-trans...
Protein aggregation is detrimental to the maintenance of proper protein homeostasis in all cells. To...
The universally conserved signal recognition particle (SRP) co-translationally delivers newly synthe...
The ability of molecular chaperones to overcome the misfolding and aggregation of proteins is essent...
The universally conserved signal recognition particle (SRP) co-translationally delivers newly synthe...
Newly synthesized integral membrane proteins must traverse the aqueous cytosolic environment before ...
Assembly of light-harvesting complexes requires synchronization of chlorophyll (Chl) biosynthesis wi...
Outer membrane proteins (OMPs) of Gram-negative bacteria are synthesized in the cytosol and must cro...
Molecular chaperones are the key instruments of bacterial protein homeostasis. Chaperones not only f...
A cpSRP [chloroplast SRP (signal recognition particle)] comprising cpSRP54 and cpSRP43 subunits medi...
Protein homeostasis is essential for all cells and requires proper control of the folding, localizat...
A novel signal recognition particle (SRP) found in the chloroplast (cpSRP) works in combination with...
Molecular chaperones are central to cellular protein homeostasis. Dynamic disorder is a key feature ...