%0 Journal Article %1 renzIdentificationCellCycle2016 %A Renz, Christian %A Oeljeklaus, Silke %A Grinhagens, Sören %A Warscheid, Bettina %A Johnsson, Nils %A Gronemeyer, Thomas %C United States %D 2016 %J PloS one %K *Gene Binding,Protein Cycle Cycle/*genetics,Cytoskeleton/genetics/metabolism,Mass Expression Fungal,Binding Interaction Isoforms/genetics/metabolism,Protein Mapping,Protein Multimerization,Saccharomyces Proteins/*genetics/metabolism,Cell Proteins/*genetics/metabolism,Saccharomyces Regulation Sites,Cell Spectrometry/methods,Protein cerevisiae cerevisiae/*genetics/metabolism,Septins/*genetics/metabolism,to_read %N 2 %P e0148340 %R 10.1371/journal.pone.0148340 %T Identification of Cell Cycle Dependent Interaction Partners of the Septins by Quantitative Mass Spectrometry. %V 11 %X The septins are a conserved family of GTP-binding proteins that, in the baker's yeast, assemble into a highly ordered array of filaments at the mother bud neck. These filaments undergo significant structural rearrangements during the cell cycle. We aimed at identifying key components that are involved in or regulate the transitions of the septins. By combining cell synchronization and quantitative affinity-purification mass-spectrometry, we performed a screen for specific interaction partners of the septins at three distinct stages of the cell cycle. A total of 83 interaction partners of the septins were assigned. Surprisingly, we detected DNA-interacting/nuclear proteins and proteins involved in ribosome biogenesis and protein synthesis predominantly present in alpha-factor arrested that do not display an assembled septin structure. Furthermore, two distinct sets of regulatory proteins that are specific for cells at S-phase with a stable septin collar or at mitosis with split septin rings were identified. Complementary methods like SPLIFF and immunoprecipitation allowed us to more exactly define the spatial and temporal characteristics of selected hits of the AP-MS screen.

@article{renzIdentificationCellCycle2016, abstract = {The septins are a conserved family of GTP-binding proteins that, in the baker's yeast, assemble into a highly ordered array of filaments at the mother bud neck. These filaments undergo significant structural rearrangements during the cell cycle. We aimed at identifying key components that are involved in or regulate the transitions of the septins. By combining cell synchronization and quantitative affinity-purification mass-spectrometry, we performed a screen for specific interaction partners of the septins at three distinct stages of the cell cycle. A total of 83 interaction partners of the septins were assigned. Surprisingly, we detected DNA-interacting/nuclear proteins and proteins involved in ribosome biogenesis and protein synthesis predominantly present in alpha-factor arrested that do not display an assembled septin structure. Furthermore, two distinct sets of regulatory proteins that are specific for cells at S-phase with a stable septin collar or at mitosis with split septin rings were identified. Complementary methods like SPLIFF and immunoprecipitation allowed us to more exactly define the spatial and temporal characteristics of selected hits of the AP-MS screen.}, added-at = {2024-05-17T13:01:35.000+0200}, address = {United States}, author = {Renz, Christian and Oeljeklaus, Silke and Grinhagens, S{\"o}ren and Warscheid, Bettina and Johnsson, Nils and Gronemeyer, Thomas}, biburl = {https://www.bibsonomy.org/bibtex/22ed8425e71ef2e10b21e43206e2769ff/warscheidlab}, doi = {10.1371/journal.pone.0148340}, interhash = {f215f938648bceabf92487f05b46b211}, intrahash = {2ed8425e71ef2e10b21e43206e2769ff}, issn = {1932-6203}, journal = {PloS one}, keywords = {*Gene Binding,Protein Cycle Cycle/*genetics,Cytoskeleton/genetics/metabolism,Mass Expression Fungal,Binding Interaction Isoforms/genetics/metabolism,Protein Mapping,Protein Multimerization,Saccharomyces Proteins/*genetics/metabolism,Cell Proteins/*genetics/metabolism,Saccharomyces Regulation Sites,Cell Spectrometry/methods,Protein cerevisiae cerevisiae/*genetics/metabolism,Septins/*genetics/metabolism,to_read}, langid = {english}, number = 2, pages = {e0148340}, pmcid = {PMC4752459}, pmid = {26871441}, timestamp = {2024-05-17T13:01:35.000+0200}, title = {Identification of {{Cell Cycle Dependent Interaction Partners}} of the {{Septins}} by {{Quantitative Mass Spectrometry}}.}, volume = 11, year = 2016 }