SecA PBD motions
From Proteopedia
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Protein secretion is essential for all organisms. Bacteria have evolved a plethora of secretion systems to handle the various proteins that need to be exported from the cytoplasm <ref>pmid 17938627</ref>. Most of these proteins bear an amino terminal extension termed signal peptide and they are called preproteins. The Sec system is uniquitus and essential for cell viability. In bacteria, the Sec system consists of the membrane embedded heterotrimeric complex SecYEG that forms the channel through which preproteins are threaded and the cytoplasmic nanomotor SecA. SecA spends chemical energy to produce mechanical work that somehow pushes and threads preproteins through SecYEG. | Protein secretion is essential for all organisms. Bacteria have evolved a plethora of secretion systems to handle the various proteins that need to be exported from the cytoplasm <ref>pmid 17938627</ref>. Most of these proteins bear an amino terminal extension termed signal peptide and they are called preproteins. The Sec system is uniquitus and essential for cell viability. In bacteria, the Sec system consists of the membrane embedded heterotrimeric complex SecYEG that forms the channel through which preproteins are threaded and the cytoplasmic nanomotor SecA. SecA spends chemical energy to produce mechanical work that somehow pushes and threads preproteins through SecYEG. | ||
| - | SecA constists of 4 domains; the Nucleotide Binding Domain (NDB); the Preprotein Binding Domain (PBD); the Intramolecular Regulator of ATP hydrolysis (IRA2) and the C-teminal domain (C-domain). SecAs from different organisms have been visualized <ref>pmid20444093</ref>. The most prominent difference between the protomers of visualized SecAs is an 80o rotational and translational movement of the PBD around its stem that connects it with NBD. | + | SecA constists of 4 domains; the Nucleotide Binding Domain (NDB); the Preprotein Binding Domain (PBD); the Intramolecular Regulator of ATP hydrolysis (IRA2) and the C-teminal domain (C-domain). SecAs from different organisms have been visualized <ref>pmid20444093</ref>. The most prominent difference between the protomers of visualized SecAs is an 80o rotational and translational movement of the <scene name='SecA_PBD_motions/Pbdmagenta/1'>PBD</scene> around its stem that connects it with NBD. |
So far no functional role has been unequivocally has been atributed to this rotational motion. It has been suggested that PBD rotates to allow opening of a clamp-like structure and arrest preproteins destined to be secreted | So far no functional role has been unequivocally has been atributed to this rotational motion. It has been suggested that PBD rotates to allow opening of a clamp-like structure and arrest preproteins destined to be secreted | ||
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</StructureSection> | </StructureSection> | ||
Revision as of 09:14, 6 September 2012
SecA PBD motion
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- ↑ Papanikou E, Karamanou S, Economou A. Bacterial protein secretion through the translocase nanomachine. Nat Rev Microbiol. 2007 Nov;5(11):839-51. PMID:17938627 doi:nrmicro1771
- ↑ . PMID:216315890657
