scholarly article | Q13442814 |
P819 | ADS bibcode | 2020NatCo..11.2365P |
P356 | DOI | 10.1038/S41467-020-16211-X |
P932 | PMC publication ID | 7217864 |
P698 | PubMed publication ID | 32398758 |
P50 | author | Kedar Puvar | Q91873169 |
Kristos I Negrón Terón | Q94600136 | ||
Zhao-Qing Luo | Q58337907 | ||
Chittaranjan Das | Q90620664 | ||
P2093 | author name string | Peter S Brzovic | |
Shalini Iyer | |||
Jiaqi Fu | |||
Rachel E Klevit | |||
Sebastian Kenny | |||
P2860 | cites work | Uncovering the Structural Basis of a New Twist in Protein Ubiquitination | Q90744152 |
Legionella pneumophila regulates the activity of UBE2N by deamidase-mediated deubiquitination | Q91873176 | ||
Chaperoned ubiquitylation--crystal structures of the CHIP U box E3 ubiquitin ligase and a CHIP-Ubc13-Uev1a complex | Q24296990 | ||
MolProbity: all-atom structure validation for macromolecular crystallography | Q24649111 | ||
PHENIX: a comprehensive Python-based system for macromolecular structure solution | Q24654617 | ||
Ubc13: the Lys63 ubiquitin chain building machine | Q26739716 | ||
E2 enzymes: more than just middle men | Q26752818 | ||
Processing of X-ray diffraction data collected in oscillation mode | Q26778468 | ||
Molecular insights into polyubiquitin chain assembly: crystal structure of the Mms2/Ubc13 heterodimer | Q27633059 | ||
A bacterial type III effector family uses the papain-like hydrolytic activity to arrest the host cell cycle | Q27653841 | ||
Structural mechanism of ubiquitin and NEDD8 deamidation catalyzed by bacterial effectors that induce macrophage-specific apoptosis | Q27675204 | ||
The Shigella flexneri effector OspI deamidates UBC13 to dampen the inflammatory response | Q27677993 | ||
Structural basis for the recognition of Ubc13 by the Shigella flexneri effector OspI | Q27684322 | ||
The Legionella effector SidC defines a unique family of ubiquitin ligases important for bacterial phagosomal remodeling. | Q27684624 | ||
Structure of ubiquitin refined at 1.8 A resolution | Q27728512 | ||
Inference of macromolecular assemblies from crystalline state | Q27860457 | ||
NMRPipe: a multidimensional spectral processing system based on UNIX pipes | Q27860859 | ||
Phasercrystallographic software | Q27860930 | ||
NMR View: A computer program for the visualization and analysis of NMR data | Q27860951 | ||
Features and development of Coot | Q27861079 | ||
The CCP4 suite: programs for protein crystallography | Q27861090 | ||
Stereochemistry of polypeptide chain configurations | Q28190300 | ||
The ubiquitin code | Q28265104 | ||
Ubiquitination independent of E1 and E2 enzymes by bacterial effectors | Q28485635 | ||
Structural basis of substrate recognition by a bacterial deubiquitinase important for dynamics of phagosome ubiquitination | Q28485638 | ||
Complex structure of OspI and Ubc13: the molecular basis of Ubc13 deamidation and convergence of bacterial and host E2 recognition | Q28486903 | ||
Crystal Structure of a Ube2S-Ubiquitin Conjugate | Q28553007 | ||
Mms2-Ubc13 covalently bound to ubiquitin reveals the structural basis of linkage-specific polyubiquitin chain formation | Q29619698 | ||
Exploitation of eukaryotic ubiquitin signaling pathways by effectors translocated by bacterial type III and type IV secretion systems | Q33270514 | ||
Inhibition of host vacuolar H+-ATPase activity by a Legionella pneumophila effector. | Q33545239 | ||
Glutamine Deamidation and Dysfunction of Ubiquitin/NEDD8 Induced by a Bacterial Effector Family | Q34540701 | ||
Ubiquitin in motion: structural studies of the ubiquitin-conjugating enzyme∼ubiquitin conjugate | Q34666396 | ||
Hell's BELs: bacterial E3 ligases that exploit the eukaryotic ubiquitin machinery | Q35224575 | ||
Multiple substrates of the Legionella pneumophila Dot/Icm system identified by interbacterial protein transfer. | Q35554474 | ||
The spatial and temporal organization of ubiquitin networks | Q36844591 | ||
Manipulation of host-cell pathways by bacterial pathogens | Q36974212 | ||
Genomic analysis of 38 Legionella species identifies large and diverse effector repertoires. | Q37309818 | ||
The Molecular Basis for Ubiquitin and Ubiquitin-like Specificities in Bacterial Effector Proteases | Q37835973 | ||
Using chemical shift perturbation to characterise ligand binding | Q38130403 | ||
The demographics of the ubiquitin system | Q38439051 | ||
Ubiquitin enzymes in the regulation of immune responses | Q39317949 | ||
Legionella and Coxiella effectors: strength in diversity and activity | Q39437877 | ||
Protein interactions within the N-end rule ubiquitin ligation pathway | Q44276071 | ||
Stereospecific interactions of proline residues in protein structures and complexes | Q44543301 | ||
Ubiquitin manipulation by an E2 conjugating enzyme using a novel covalent intermediate. | Q46598593 | ||
A Single Legionella Effector Catalyzes a Multistep Ubiquitination Pathway to Rearrange Tubular Endoplasmic Reticulum for Replication. | Q49628029 | ||
Phosphoribosylation of Ubiquitin Promotes Serine Ubiquitination and Impairs Conventional Ubiquitination. | Q51289549 | ||
Discovery of Ubiquitin Deamidases in the Pathogenic Arsenal of Legionella pneumophila. | Q52324948 | ||
Legionella pneumophila inhibits immune signalling via MavC-mediated transglutaminase-induced ubiquitination of UBE2N | Q58869238 | ||
Two distinct defects in intracellular growth complemented by a single genetic locus in Legionella pneumophila | Q72951041 | ||
Post-translational regulation of ubiquitin signaling | Q89997332 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 1 | |
P304 | page(s) | 2365 | |
P577 | publication date | 2020-05-12 | |
P1433 | published in | Nature Communications | Q573880 |
P1476 | title | Legionella effector MavC targets the Ube2N~Ub conjugate for noncanonical ubiquitination | |
P478 | volume | 11 |
Q99712065 | Divergence of Legionella Effectors Reversing Conventional and Unconventional Ubiquitination | cites work | P2860 |
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