| URL: | http://moondb.hb.univ-amu.fr |
| Full name: | |
| Description: | a database of predicted and manually curated extreme multifunctional (EMF) and moonlighting proteins, i.e. proteins that perform multiple unrelated functions. |
| Year founded: | 2015 |
| Last update: | |
| Version: | v2.0 |
| Accessibility: |
Accessible
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| Country/Region: | France |
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| University/Institution: | Aix Marseille University |
| Address: | Aix-Marseille Univ, INSERM, TAGC, UMR_S1090, Marseille, FranceCNRS, Marseille, France |
| City: | |
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| Country/Region: | France |
| Contact name (PI/Team): | Christine Brun |
| Contact email (PI/Helpdesk): | christine-g.brun@inserm.fr |
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MoonDB 2.0: an updated database of extreme multifunctional and moonlighting proteins. [PMID: 30371819]
MoonDB 2.0 (http://moondb.hb.univ-amu.fr/) is a database of predicted and manually curated extreme multifunctional (EMF) and moonlighting proteins, i.e. proteins that perform multiple unrelated functions. We have previously shown that such proteins can be predicted through the analysis of their molecular interaction subnetworks, their functional annotations and their association to distinct groups of proteins that are involved in unrelated functions. In MoonDB 2.0, we updated the set of human EMF proteins (238 proteins), using the latest functional annotations and protein-protein interaction networks. Furthermore, for the first time, we applied our method to four additional model organisms - mouse, fly, worm and yeast - and identified 54 novel EMF proteins in these species. In addition to novel predictions, this update contains 63 human and yeast proteins that were manually curated from literature, including descriptions of moonlighting functions and associated references. Importantly, MoonDB's interface was fully redesigned and improved, and its entries are now cross-referenced in the UniProt Knowledgebase (UniProtKB). MoonDB will be updated once a year with the novel EMF candidates calculated from the latest available protein interactions and functional annotations. |
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Extreme multifunctional proteins identified from a human protein interaction network. [PMID: 26054620]
Moonlighting proteins are a subclass of multifunctional proteins whose functions are unrelated. Although they may play important roles in cells, there has been no large-scale method to identify them, nor any effort to characterize them as a group. Here, we propose the first method for the identification of 'extreme multifunctional' proteins from an interactome as a first step to characterize moonlighting proteins. By combining network topological information with protein annotations, we identify 430 extreme multifunctional proteins (3% of the human interactome). We show that the candidates form a distinct sub-group of proteins, characterized by specific features, which form a signature of extreme multifunctionality. Overall, extreme multifunctional proteins are enriched in linear motifs and less intrinsically disordered than network hubs. We also provide MoonDB, a database containing information on all the candidates identified in the analysis and a set of manually curated human moonlighting proteins. |