| scholarly article | Q13442814 |
| P2093 | author name string | Geng Tian | |
| Daniel Finley | |||
| Soyeon Park | |||
| Vladyslava Sokolova | |||
| Frances Li | |||
| Deanna Langager | |||
| P2860 | cites work | Subcellular localization, stoichiometry, and protein levels of 26 S proteasome subunits in yeast | Q22010425 |
| Increased proteasome activity in human embryonic stem cells is regulated by PSMD11 | Q24298544 | ||
| Assembly pathway of the Mammalian proteasome base subcomplex is mediated by multiple specific chaperones | Q24316277 | ||
| Chaperone-mediated pathway of proteasome regulatory particle assembly | Q24321620 | ||
| Mechanism of gate opening in the 20S proteasome by the proteasomal ATPases | Q24564109 | ||
| Deep classification of a large cryo-EM dataset defines the conformational landscape of the 26S proteasome | Q24567788 | ||
| Docking of the proteasomal ATPases' carboxyl termini in the 20S proteasome's alpha ring opens the gate for substrate entry | Q24674433 | ||
| A gated channel into the proteasome core particle | Q27627907 | ||
| Structural basis for the recognition between the regulatory particles Nas6 and Rpt3 of the yeast 26S proteasome | Q27645374 | ||
| The proteasomal subunit Rpn6 is a molecular clamp holding the core and regulatory subcomplexes together | Q27676340 | ||
| Reconfiguration of the proteasome during chaperone-mediated assembly | Q27677979 | ||
| Dual functions of the Hsm3 protein in chaperoning and scaffolding regulatory particle subunits during the proteasome assembly | Q27678263 | ||
| Formation of an intricate helical bundle dictates the assembly of the 26S proteasome lid | Q27685325 | ||
| Structural basis for proteasome formation controlled by an assembly chaperone nas2 | Q27689676 | ||
| Global analysis of protein expression in yeast | Q27860658 | ||
| UCSF Chimera--a visualization system for exploratory research and analysis | Q27860666 | ||
| Hexameric assembly of the proteasomal ATPases is templated through their C termini | Q27931123 | ||
| An inducible chaperone adapts proteasome assembly to stress | Q27933155 | ||
| Multiple proteasome-interacting proteins assist the assembly of the yeast 19S regulatory particle | Q27936642 | ||
| Structural defects in the regulatory particle-core particle interface of the proteasome induce a novel proteasome stress response | Q27938348 | ||
| Hsm3/S5b participates in the assembly pathway of the 19S regulatory particle of the proteasome | Q27938858 | ||
| The catalytic activity of Ubp6 enhances maturation of the proteasomal regulatory particle | Q27938889 | ||
| Multiple assembly chaperones govern biogenesis of the proteasome regulatory particle base | Q27939675 | ||
| An asymmetric interface between the regulatory and core particles of the proteasome | Q28251784 | ||
| Incorporation of the Rpn12 subunit couples completion of proteasome regulatory particle lid assembly to lid-base joining | Q28256050 | ||
| Complete subunit architecture of the proteasome regulatory particle | Q28257212 | ||
| Molecular architecture of the 26S proteasome holocomplex determined by an integrative approach | Q28259014 | ||
| Conformational switching of the 26S proteasome enables substrate degradation | Q28292908 | ||
| The C Terminus of Rpt3, an ATPase Subunit of PA700 (19 S) Regulatory Complex, Is Essential for 26 S Proteasome Assembly but Not for Activation | Q28295352 | ||
| The yeast polyubiquitin gene is essential for resistance to high temperatures, starvation, and other stresses | Q29616169 | ||
| The 1.9 A structure of a proteasome-11S activator complex and implications for proteasome-PAN/PA700 interactions. | Q33987362 | ||
| Structure of the 26S proteasome with ATP-γS bound provides insights into the mechanism of nucleotide-dependent substrate translocation | Q34339520 | ||
| C termini of proteasomal ATPases play nonequivalent roles in cellular assembly of mammalian 26 S proteasome | Q35128239 | ||
| Loss of Rpt5 protein interactions with the core particle and Nas2 protein causes the formation of faulty proteasomes that are inhibited by Ecm29 protein. | Q35378632 | ||
| A Single α Helix Drives Extensive Remodeling of the Proteasome Lid and Completion of Regulatory Particle Assembly | Q36146766 | ||
| Structure of an endogenous yeast 26S proteasome reveals two major conformational states | Q36684717 | ||
| Subcomplexes of PA700, the 19 S regulator of the 26 S proteasome, reveal relative roles of AAA subunits in 26 S proteasome assembly and activation and ATPase activity | Q37375673 | ||
| Reconstitution of the 26S proteasome reveals functional asymmetries in its AAA+ unfoldase | Q37406494 | ||
| The intrinsically disordered Sem1 protein functions as a molecular tether during proteasome lid biogenesis. | Q37626715 | ||
| Structural biology of the proteasome | Q38081952 | ||
| Stable incorporation of ATPase subunits into 19 S regulatory particle of human proteasome requires nucleotide binding and C-terminal tails | Q38466156 | ||
| Proteasome Activation is Mediated via a Functional Switch of the Rpt6 C-terminal Tail Following Chaperone-dependent Assembly. | Q40451741 | ||
| Heterohexameric ring arrangement of the eukaryotic proteasomal ATPases: implications for proteasome structure and assembly. | Q40836221 | ||
| Molecular model of the human 26S proteasome | Q41613713 | ||
| Time-resolved measurements of intracellular ATP in the yeast Saccharomyces cerevisiae using a new type of nanobiosensor | Q41713897 | ||
| Ubiquitin ligase Hul5 is required for fragment-specific substrate degradation in endoplasmic reticulum-associated degradation | Q46626985 | ||
| Purification of proteasomes, proteasome subcomplexes, and proteasome-associated proteins from budding yeast | Q81786895 | ||
| P433 | issue | 7 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | molecular chaperones | Q422496 |
| P304 | page(s) | 1548-1553 | |
| P577 | publication date | 2017-01-30 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | Nucleotide-dependent switch in proteasome assembly mediated by the Nas6 chaperone | |
| P478 | volume | 114 |
| Q61450205 | An Allosteric Interaction Network Promotes Conformation State-Dependent Eviction of the Nas6 Assembly Chaperone from Nascent 26S Proteasomes |
| Q40130408 | Conformational Landscape of the p28-Bound Human Proteasome Regulatory Particle. |
| Q90078103 | Identification of ubiquitin-proteasome system components affecting the degradation of the transcription factor Pap1 |
| Q91643887 | Native Gel Approaches in Studying Proteasome Assembly and Chaperones |
| Q39352782 | Proteasome Structure and Assembly |
| Q90673658 | Regulation of proteasome assembly and activity in health and disease |
| Q48092080 | Sophisticated lessons from simple organisms: appreciating the value of curiosity-driven research |
| Q95650650 | The proteasome as a druggable target with multiple therapeutic potentialities: Cutting and non-cutting edges |
| Q91983592 | Two alternative mechanisms regulate the onset of chaperone-mediated assembly of the proteasomal ATPases |
| Q90365039 | Ubiquitin-dependent switch during assembly of the proteasomal ATPases mediated by Not4 ubiquitin ligase |
Search more.