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PDBsum entry 6w3e
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PDB id:
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Transferase
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Title:
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Structure of phosphorylated ire1 in complex with g-0701
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Structure:
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Serine/threonine-protein kinase/endoribonuclease ire1. Chain: a, b. Synonym: endoplasmic reticulum-to-nucleus signaling 1,inositol- requiring protein 1,hire1p,ire1-alpha,ire1a. Engineered: yes
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Source:
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Homo sapiens. Human. Organism_taxid: 9606. Gene: ern1, ire1. Expressed in: spodoptera frugiperda. Expression_system_taxid: 7108. Expression_system_cell_line: sf9
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Resolution:
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2.74Å
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R-factor:
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0.267
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R-free:
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0.317
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Authors:
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E.Ferri,W.Wang,R.Joachim,K.Mortara
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Key ref:
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E.Ferri
et al.
(2020).
Activation of the IRE1 RNase through remodeling of the kinase front pocket by ATP-competitive ligands.
Nat Commun,
11,
6387.
PubMed id:
DOI:
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Date:
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09-Mar-20
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Release date:
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09-Dec-20
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PROCHECK
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Headers
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References
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Enzyme class 1:
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Chains A, B:
E.C.2.7.11.1
- non-specific serine/threonine protein kinase.
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Reaction:
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1.
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L-seryl-[protein] + ATP = O-phospho-L-seryl-[protein] + ADP + H+
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2.
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L-threonyl-[protein] + ATP = O-phospho-L-threonyl-[protein] + ADP + H+
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L-seryl-[protein]
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+
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ATP
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=
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O-phospho-L-seryl-[protein]
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+
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ADP
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+
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H(+)
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L-threonyl-[protein]
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+
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ATP
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=
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O-phospho-L-threonyl-[protein]
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+
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ADP
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+
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H(+)
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Enzyme class 2:
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Chains A, B:
E.C.3.1.26.-
- ?????
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Note, where more than one E.C. class is given (as above), each may
correspond to a different protein domain or, in the case of polyprotein
precursors, to a different mature protein.
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Molecule diagrams generated from .mol files obtained from the
KEGG ftp site
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DOI no:
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Nat Commun
11:6387
(2020)
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PubMed id:
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Activation of the IRE1 RNase through remodeling of the kinase front pocket by ATP-competitive ligands.
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E.Ferri,
A.Le Thomas,
H.A.Wallweber,
E.S.Day,
B.T.Walters,
S.E.Kaufman,
M.G.Braun,
K.R.Clark,
M.H.Beresini,
K.Mortara,
Y.A.Chen,
B.Canter,
W.Phung,
P.S.Liu,
A.Lammens,
A.Ashkenazi,
J.Rudolph,
W.Wang.
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ABSTRACT
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Inositol-Requiring Enzyme 1 (IRE1) is an essential component of the Unfolded
Protein Response. IRE1 spans the endoplasmic reticulum membrane, comprising a
sensory lumenal domain, and tandem kinase and endoribonuclease (RNase)
cytoplasmic domains. Excess unfolded proteins in the ER lumen induce
dimerization and oligomerization of IRE1, triggering kinase
trans-autophosphorylation and RNase activation. Known ATP-competitive
small-molecule IRE1 kinase inhibitors either allosterically disrupt or stabilize
the active dimeric unit, accordingly inhibiting or stimulating RNase activity.
Previous allosteric RNase activators display poor selectivity and/or weak
cellular activity. In this study, we describe a class of ATP-competitive RNase
activators possessing high selectivity and strong cellular activity. This class
of activators binds IRE1 in the kinase front pocket, leading to a distinct
conformation of the activation loop. Our findings reveal exquisitely precise
interdomain regulation within IRE1, advancing the mechanistic understanding of
this important enzyme and its investigation as a potential small-molecule
therapeutic target.
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