scholarly article | Q13442814 |
P50 | author | Annie Heroux | Q28324268 |
P2093 | author name string | Howard Robinson | |
David G Myszka | |||
Christopher P Hill | |||
Beth M Stadtmueller | |||
Frank G Whitby | |||
Katherine Ferrell | |||
P2860 | cites work | PA200, a nuclear proteasome activator involved in DNA repair | Q24536971 |
Mechanism of gate opening in the 20S proteasome by the proteasomal ATPases | Q24564109 | ||
Docking of the proteasomal ATPases' carboxyl termini in the 20S proteasome's alpha ring opens the gate for substrate entry | Q24674433 | ||
MolProbity: all-atom contacts and structure validation for proteins and nucleic acids | Q24684673 | ||
Structural basis for the activation of 20S proteasomes by 11S regulators | Q27628418 | ||
The structure of the mammalian 20S proteasome at 2.75 A resolution | Q27638997 | ||
Investigations on the maturation and regulation of archaebacterial proteasomes | Q27640607 | ||
Structure and activity of the N-terminal substrate recognition domains in proteasomal ATPases | Q27655687 | ||
Structural Insights into the Regulatory Particle of the Proteasome from Methanocaldococcus jannaschii | Q27655690 | ||
Crystal structure of the 20S proteasome from the archaeon T. acidophilum at 3.4 A resolution | Q27730197 | ||
Structure of 20S proteasome from yeast at 2.4 A resolution | Q27735081 | ||
Multiple associated proteins regulate proteasome structure and function | Q27931244 | ||
The regulatory particle of the Saccharomyces cerevisiae proteasome. | Q27936746 | ||
Active site mutants in the six regulatory particle ATPases reveal multiple roles for ATP in the proteasome | Q27937064 | ||
The HEAT repeat protein Blm10 regulates the yeast proteasome by capping the core particle | Q27938094 | ||
Purification of an 11 S regulator of the multicatalytic protease | Q28202111 | ||
The proteasome | Q33689946 | ||
An archaebacterial ATPase, homologous to ATPases in the eukaryotic 26 S proteasome, activates protein breakdown by 20 S proteasomes | Q33873082 | ||
The 1.9 A structure of a proteasome-11S activator complex and implications for proteasome-PAN/PA700 interactions. | Q33987362 | ||
ATP binding to PAN or the 26S ATPases causes association with the 20S proteasome, gate opening, and translocation of unfolded proteins. | Q33991996 | ||
Distinct 19 S and 20 S subcomplexes of the 26 S proteasome and their distribution in the nucleus and the cytoplasm | Q34060474 | ||
Structure of the Blm10-20 S proteasome complex by cryo-electron microscopy. Insights into the mechanism of activation of mature yeast proteasomes. | Q34307472 | ||
Proteasome from Thermoplasma acidophilum: a threonine protease | Q34309062 | ||
The proteasome: a supramolecular assembly designed for controlled proteolysis | Q34545602 | ||
The axial channel of the 20S proteasome opens upon binding of the PA200 activator | Q34555139 | ||
Identification of an activation region in the proteasome activator REGalpha | Q35972023 | ||
Mobilizing the proteolytic machine: cell biological roles of proteasome activators and inhibitors | Q36010873 | ||
The pore of activated 20S proteasomes has an ordered 7-fold symmetric conformation | Q36065854 | ||
Functions of the proteasome: from protein degradation and immune surveillance to cancer therapy | Q36703005 | ||
Structural and functional characterizations of the proteasome-activating protein PA26 from Trypanosoma brucei | Q41703202 | ||
ATP hydrolysis by the proteasome regulatory complex PAN serves multiple functions in protein degradation | Q44283109 | ||
Identification, purification, and characterization of a high molecular weight, ATP-dependent activator (PA700) of the 20 S proteasome. | Q47379441 | ||
Functional and structural characterization of the Methanosarcina mazei proteasome and PAN complexes. | Q50730739 | ||
Purification and characterization of a multiprotein component of the Drosophila 26 S (1500 kDa) proteolytic complex. | Q52545359 | ||
Multiple forms of the 20 S multicatalytic and the 26 S ubiquitin/ATP-dependent proteases from rabbit reticulocyte lysate | Q54258141 | ||
Identification, purification, and characterization of a protein activator (PA28) of the 20 S proteasome (macropain) | Q68127933 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | cell biology | Q7141 |
P304 | page(s) | 13-7 | |
P577 | publication date | 2010-01-01 | |
P1433 | published in | Journal of Biological Chemistry | Q867727 |
P1476 | title | Structural Models for Interactions between the 20S Proteasome and Its PAN/19S Activators | |
P478 | volume | 285 |
Q34928089 | A conserved 20S proteasome assembly factor requires a C-terminal HbYX motif for proteasomal precursor binding |
Q36579541 | ATP binding by proteasomal ATPases regulates cellular assembly and substrate-induced functions of the 26 S proteasome |
Q28251784 | An asymmetric interface between the regulatory and core particles of the proteasome |
Q33674570 | Architecture and assembly of the archaeal Cdc48*20S proteasome |
Q36200349 | Assembly manual for the proteasome regulatory particle: the first draft |
Q35128239 | C termini of proteasomal ATPases play nonequivalent roles in cellular assembly of mammalian 26 S proteasome |
Q60952470 | Cryo-EM structures of the archaeal PAN-proteasome reveal an around-the-ring ATPase cycle |
Q90064937 | Cryo-EM structures of the human PA200 and PA200-20S complex reveal regulation of proteasome gate opening and two PA200 apertures |
Q41094657 | Crystal structure of a low molecular weight activator Blm-pep with yeast 20S proteasome - insights into the enzyme activation mechanism |
Q27660397 | Dynamic regulation of archaeal proteasome gate opening as studied by TROSY NMR |
Q38237803 | Emerging mechanistic insights into AAA complexes regulating proteasomal degradation |
Q41953180 | Identification of the Cdc48•20S proteasome as an ancient AAA+ proteolytic machine. |
Q35378632 | Loss of Rpt5 protein interactions with the core particle and Nas2 protein causes the formation of faulty proteasomes that are inhibited by Ecm29 protein. |
Q33792867 | Molecular and cellular roles of PI31 (PSMF1) protein in regulation of proteasome function |
Q27693890 | Molecular architecture and assembly of the eukaryotic proteasome |
Q43107129 | N-terminal α7 deletion of the proteasome 20S core particle substitutes for yeast PI31 function |
Q40942447 | Potential allosteric modulators of the proteasome activity. |
Q93210381 | Proline- and Arginine-Rich Peptides as Flexible Allosteric Modulators of Human Proteasome Activity |
Q34611628 | Proteasomal degradation of Sfp1 contributes to the repression of ribosome biogenesis during starvation and is mediated by the proteasome activator Blm10. |
Q37826501 | Proteasome activators |
Q36483667 | Proteasome allostery as a population shift between interchanging conformers |
Q28259286 | Rpn1 and Rpn2 coordinate ubiquitin processing factors at proteasome |
Q89087470 | Small Molecule Modulation of Proteasome Assembly |
Q38466156 | Stable incorporation of ATPase subunits into 19 S regulatory particle of human proteasome requires nucleotide binding and C-terminal tails |
Q37469477 | Structural basis for dynamic regulation of the human 26S proteasome |
Q38081952 | Structural biology of the proteasome |
Q53831231 | Structural mechanism for nucleotide-driven remodeling of the AAA-ATPase unfoldase in the activated human 26S proteasome. |
Q27691353 | Structure characterization of the 26S proteasome |
Q27660222 | Structure of a Blm10 Complex Reveals Common Mechanisms for Proteasome Binding and Gate Opening |
Q27671782 | Structure of a Proteasome Pba1-Pba2 Complex: IMPLICATIONS FOR PROTEASOME ASSEMBLY, ACTIVATION, AND BIOLOGICAL FUNCTION |
Q100946120 | Tagging the proteasome active site β5 causes tag specific phenotypes in yeast |
Q28295352 | 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 |
Q36386004 | The archaeal proteasome is regulated by a network of AAA ATPases |
Q37226121 | The proteasome-associated protein Ecm29 inhibits proteasomal ATPase activity and in vivo protein degradation by the proteasome |