1. NAC functions as a modulator of SRP during the early steps of protein targeting to the endoplasmic reticulum
- Author
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Tina Wölfle, Edith Fitzke, Hanna Gölz, Arlette Tais, Ying Zhang, Sabine Rospert, Stefan Oellerer, and Uta Berndt
- Subjects
Ribosomal Proteins ,Signal peptide ,Saccharomyces cerevisiae Proteins ,Biosynthesis and Biodegradation ,Saccharomyces cerevisiae ,Plasma protein binding ,Biology ,Endoplasmic Reticulum ,medicine.disease_cause ,environment and public health ,Ribosome ,Protein targeting ,medicine ,Dipeptidyl-Peptidases and Tripeptidyl-Peptidases ,Molecular Biology ,Signal recognition particle receptor ,Sequence Deletion ,Signal recognition particle ,Endoplasmic reticulum ,Articles ,Cell Biology ,Cell biology ,Transport protein ,DNA-Binding Proteins ,Protein Transport ,Biochemistry ,Protein Biosynthesis ,Signal Recognition Particle ,Molecular Chaperones ,Protein Binding ,Transcription Factors - Abstract
NAC acts as a modulator of SRP function. It can bind to signal sequences directly. SRP initially displaces NAC from RNCs; however, when the signal sequence emerges, trimeric NAC·RNC·SRP complexes form. Upon docking NAC·RNC·SRP complexes to the ER, NAC remains bound, allowing NAC to shield cytosolically exposed nascent chain domains., Nascent polypeptide-associated complex (NAC) was initially found to bind to any segment of the nascent chain except signal sequences. In this way, NAC is believed to prevent mistargeting due to binding of signal recognition particle (SRP) to signalless ribosome nascent chain complexes (RNCs). Here we revisit the interplay between NAC and SRP. NAC does not affect SRP function with respect to signalless RNCs; however, NAC does affect SRP function with respect to RNCs targeted to the endoplasmic reticulum (ER). First, early recruitment of SRP to RNCs containing a signal sequence within the ribosomal tunnel is NAC dependent. Second, NAC is able to directly and tightly bind to nascent signal sequences. Third, SRP initially displaces NAC from RNCs; however, when the signal sequence emerges further, trimeric NAC·RNC·SRP complexes form. Fourth, upon docking to the ER membrane NAC remains bound to RNCs, allowing NAC to shield cytosolically exposed nascent chain domains not only before but also during cotranslational translocation. The combined data indicate a functional interplay between NAC and SRP on ER-targeted RNCs, which is based on the ability of the two complexes to bind simultaneously to distinct segments of a single nascent chain.
- Published
- 2012