scholarly article | Q13442814 |
P356 | DOI | 10.1074/JBC.M117.815258 |
P8608 | Fatcat ID | release_kyh3owxz4zh4horwhnuceuad5a |
P932 | PMC publication ID | 5777263 |
P698 | PubMed publication ID | 29183996 |
P50 | author | Marcus Hartmann | Q42722512 |
P2093 | author name string | Jörg Martin | |
Katharina Hipp | |||
Adrian C D Fuchs | |||
Lorena Maldoner | |||
P2860 | cites work | NO-mediated cytoprotection: instant adaptation to oxidative stress in bacteria | Q24536030 |
A short history of SHELX | Q25938995 | ||
Bacterial Proteasomes | Q26778726 | ||
Crystal structure of Bacillus subtilis CodW, a noncanonical HslV-like peptidase with an impaired catalytic apparatus | Q27648945 | ||
Immuno- and constitutive proteasome crystal structures reveal differences in substrate and inhibitor specificity | Q27677313 | ||
Structure of p15(PAF)-PCNA complex and implications for clamp sliding during DNA replication and repair | Q27698433 | ||
The inhibition mechanism of human 20S proteasomes enables next-generation inhibitor design | Q27725464 | ||
XDS | Q27860472 | ||
Peroxynitrite toxicity in Escherichia coli K12 elicits expression of oxidative stress responses and protein nitration and nitrosylation | Q42737515 | ||
Severe oxidative stress causes inactivation of DnaK and activation of the redox-regulated chaperone Hsp33. | Q45252810 | ||
Reaction of 20S proteasome: shift of SDS-dependent activation profile by divalent cations | Q49052540 | ||
Actinomycete-like proteasomes in a Gram-negative bacterium. | Q50972043 | ||
Mutagenesis of two N-terminal Thr and five Ser residues in HslV, the proteolytic component of the ATP-dependent HslVU protease. | Q54561939 | ||
Determination of carbonyl content in oxidatively modified proteins | Q68161213 | ||
Sodium Dodecyl Sulfate (SDS) Activation of the 20S Proteasome in Rat Liver | Q71970237 | ||
Oxidative stress and heat-shock responses in Desulfovibrio vulgaris by genome-wide transcriptomic analysis | Q83300125 | ||
Coot: model-building tools for molecular graphics | Q27860505 | ||
The Buccaneer software for automated model building. 1. Tracing protein chains | Q27860979 | ||
Efficient anisotropic refinement of macromolecular structures using FFT | Q27861028 | ||
An approach to multi-copy search in molecular replacement | Q27861050 | ||
EMAN2: an extensible image processing suite for electron microscopy | Q27861052 | ||
The complete genome sequence of Cupriavidus metallidurans strain CH34, a master survivalist in harsh and anthropogenic environments | Q28752350 | ||
Iterated profile searches with PSI-BLAST--a tool for discovery in protein databases | Q29618634 | ||
The catalytic sites of 20S proteasomes and their role in subunit maturation: a mutational and crystallographic study | Q30779094 | ||
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Defense against protein carbonylation by DnaK/DnaJ and proteases of the heat shock regulon | Q33855499 | ||
Global transcriptional response of Bacillus subtilis to heat shock | Q33997293 | ||
Functional interactions of HslV (ClpQ) with the ATPase HslU (ClpY). | Q34063898 | ||
Regulating the 20S proteasome ubiquitin-independent degradation pathway | Q34318192 | ||
The genome sequence of the obligately chemolithoautotrophic, facultatively anaerobic bacterium Thiobacillus denitrificans | Q34353891 | ||
Purification and characterization of the heat shock proteins HslV and HslU that form a new ATP-dependent protease in Escherichia coli | Q34384407 | ||
Synergistic roles of HslVU and other ATP-dependent proteases in controlling in vivo turnover of sigma32 and abnormal proteins in Escherichia coli | Q34448690 | ||
2.8 Å resolution reconstruction of the Thermoplasma acidophilum 20S proteasome using cryo-electron microscopy | Q34466607 | ||
The MPI bioinformatics Toolkit as an integrative platform for advanced protein sequence and structure analysis | Q34524339 | ||
Web servers and services for electrostatics calculations with APBS and PDB2PQR | Q34706230 | ||
Barrel-shaped ClpP Proteases Display Attenuated Cleavage Specificities | Q35852486 | ||
The archaeal proteasome is regulated by a network of AAA ATPases | Q36386004 | ||
A unified mechanism for proteolysis and autocatalytic activation in the 20S proteasome. | Q36690211 | ||
FoXS, FoXSDock and MultiFoXS: Single-state and multi-state structural modeling of proteins and their complexes based on SAXS profiles | Q37182134 | ||
Operons | Q37418706 | ||
Structural basis for dynamic regulation of the human 26S proteasome | Q37469477 | ||
Regulated proteolysis in Gram-negative bacteria--how and when? | Q37948597 | ||
Degradation of damaged proteins: the main function of the 20S proteasome | Q38021167 | ||
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Mechanistic insights into bacterial AAA+ proteases and protein-remodelling machines | Q38660358 | ||
The Architecture of the Anbu Complex Reflects an Evolutionary Intermediate at the Origin of the Proteasome System | Q38799873 | ||
Degradation of oxidized proteins by the proteasome: Distinguishing between the 20S, 26S, and immunoproteasome proteolytic pathways. | Q38828129 | ||
Differential roles of proteasome and immunoproteasome regulators Pa28αβ, Pa28γ and Pa200 in the degradation of oxidized proteins. | Q39352530 | ||
Rethinking proteasome evolution: two novel bacterial proteasomes | Q39739226 | ||
PROMALS3D web server for accurate multiple protein sequence and structure alignments | Q39786818 | ||
A simple method for site-directed mutagenesis using the polymerase chain reaction | Q40452884 | ||
Identification of the Cdc48•20S proteasome as an ancient AAA+ proteolytic machine. | Q41953180 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 920-930 | |
P577 | publication date | 2017-11-28 | |
P1433 | published in | Journal of Biological Chemistry | Q867727 |
P1476 | title | Structural characterization of the bacterial proteasome homolog BPH reveals a tetradecameric double-ring complex with unique inner cavity properties | |
P478 | volume | 293 |
Q57806859 | A High-Content Screening Assay for the Discovery of Novel Proteasome Inhibitors from Formosan Soft Corals | cites work | P2860 |
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