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Target Concepts:
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Query: UNIPROT:P62988 (
Ubiquitin
)
4,326
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Diverse cellular events are regulated by post-translational modification of substrate proteins via covalent attachment of one or a chain of ubiquitin molecules. The outcome of (poly)ubiquitination depends upon the specific lysine residues involved in the formation of
polyubiquitin
chains. Lys48-linked chains act as a universal signal for proteasomal degradation, whereas Lys63-linked chains act as a specific signal in several non-degradative processes. Although it has been anticipated that functional diversity between alternatively linked
polyubiquitin
chains relies on linkage-dependent differences in chain conformation/topology, direct structural evidence in support of this model has been lacking. Here we use NMR methods to determine the structure of a Lys63-linked di-ubiquitin chain. The structure is characterized by an extended conformation, with no direct contact between the hydrophobic residues Leu8, Ile44, and Val70 on the ubiquitin units. This structure contrasts with the closed conformation observed for Lys48-linked di-ubiquitin wherein these residues form the interdomain interface (Cook, W. J., Jeffrey, L. C., Carson, M., Zhijian, C., and Pickart, C. M. (1992) J. Biol. Chem. 267, 16467-16471; Varadan, R., Walker, O., Pickart, C., and Fushman, D. (2002) J. Mol. Biol. 324, 637-647). Consistent with the open conformation of the Lys(63)-linked di-ubiquitin, our binding studies show that both ubiquitin domains in this chain can bind a ubiquitin-associated domain from
HHR23A
independently and in a mode similar to that for mono-ubiquitin. In contrast, Lys48-linked di-ubiquitin binds in a different, higher affinity mode that has yet to be determined. This is the first experimental evidence that alternatively linked
polyubiquitin
chains adopt distinct conformations.
...
PMID:Solution conformation of Lys63-linked di-ubiquitin chain provides clues to functional diversity of polyubiquitin signaling. 1464 57
Ubiquitin
-associated (UBA) domains are found in a large number of proteins with diverse functions involved in ubiquitination, DNA repair, and signaling pathways. Recent studies have shown that several UBA domain proteins interact with ubiquitin (Ub), specifically p62, the phosphotyrosine-independent ligand of the SH2 domain of p56(lck);
HHR23A
, a human nucleotide excision repair protein; and DDI1, another damage-inducible protein. NMR chemical shift mapping reveals that Ub binds specifically but weakly to a conserved hydrophobic epitope on
HHR23A
UBA(1) and UBA(2) and that the UBA domains bind on the hydrophobic patch on the surface of the five-stranded beta-sheet of Ub. Models of the UBA(1)-Ub and UBA(2)-Ub complexes obtained from de novo docking reveal different orientations of the UBA domains on the Ub surface compared with those obtained by homology modeling with the related CUE domains, which also bind Ub. Our results suggest that UBA domains may interact with Ub as well as other proteins in more than one way while utilizing the same binding surface.
...
PMID:Specificity of the interaction between ubiquitin-associated domains and ubiquitin. 1470 25
Ubiquitin
-associated (UBA) domains are small protein domains that occur in the context of larger proteins and are likely to function as inter- and intramolecular communication elements in ubiquitin/
polyubiquitin
signaling. Although monoubiquitin/UBA complexes are well characterized, much less is known about UBA/
polyubiquitin
complexes, even though
polyubiquitin
chains are believed to be biologically relevant ligands of many UBA domain proteins. Here, we report the results of a quantitative study of the interaction of K48-linked
polyubiquitin
chains with UBA domains of the DNA repair/proteolysis protein
HHR23A
, using surface plasmon resonance and other approaches. We present evidence that the UBL domain of
HHR23A
negatively regulates
polyubiquitin
/UBA interactions and identify leucine 8 of ubiquitin as an important determinant of chain recognition. A striking relationship between binding affinity and chain length suggests that maximum affinity is associated with a conformational feature that is fully formed in chains of n = 4-6 and can be recognized by a single UBA domain of
HHR23A
. Our findings provide new insights into
polyubiquitin
chain recognition and set the stage for future structural investigations of UBA/
polyubiquitin
complexes.
...
PMID:Binding of polyubiquitin chains to ubiquitin-associated (UBA) domains of HHR23A. 1532 27
