2016
DOI: 10.1073/pnas.1611994113
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Recognition of enzymes lacking bound cofactor by protein quality control

Abstract: Protein biogenesis is tightly linked to protein quality control (PQC). The role of PQC machinery in recognizing faulty polypeptides is becoming increasingly understood. Molecular chaperones and cytosolic and vacuolar degradation systems collaborate to detect, repair, or hydrolyze mutant, damaged, and mislocalized proteins. On the other hand, the contribution of PQC to cofactor bindingrelated enzyme maturation remains largely unexplored, although the loading of a cofactor represents an all-or-nothing transition… Show more

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Cited by 60 publications
(98 citation statements)
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“…Thus effects on the intracellular levels of NQO1 or in the strength of its interaction with partners may translate into altered stability of the nodes in the interactomic network. For instance, reducing the availability of the FAD precursor riboflavin leads to increased population of the flavin-free NQO1apo state, which is very sensitive to proteasomal degradation through ubiquitin-dependent and -independent mechanisms [115,116]. This is in part caused by the destabilization of the CTD of NQO1 in the absence of bound FAD that promotes its ubiquitination and degradation [116].…”
Section: Nqo1 Macromolecular Interactionsmentioning
confidence: 99%
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“…Thus effects on the intracellular levels of NQO1 or in the strength of its interaction with partners may translate into altered stability of the nodes in the interactomic network. For instance, reducing the availability of the FAD precursor riboflavin leads to increased population of the flavin-free NQO1apo state, which is very sensitive to proteasomal degradation through ubiquitin-dependent and -independent mechanisms [115,116]. This is in part caused by the destabilization of the CTD of NQO1 in the absence of bound FAD that promotes its ubiquitination and degradation [116].…”
Section: Nqo1 Macromolecular Interactionsmentioning
confidence: 99%
“…For instance, reducing the availability of the FAD precursor riboflavin leads to increased population of the flavin-free NQO1apo state, which is very sensitive to proteasomal degradation through ubiquitin-dependent and -independent mechanisms [115,116]. This is in part caused by the destabilization of the CTD of NQO1 in the absence of bound FAD that promotes its ubiquitination and degradation [116]. Remarkably, addition of the inhibitor dicoumarol does not stabilize the NQO1 protein intracellularly but seems to reduce its ability to interact with and stabilize these protein partners (see Table A2).…”
Section: Nqo1 Macromolecular Interactionsmentioning
confidence: 99%
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