Dual hijack model of Vif in HIV infection (WP3300)
Homo sapiens
By hijacking CBF-b, Vif (Viral infectivity factor, HIV protein) is manipulating the ubquitination machinery and adversely effecting host transcriptional regulation. This pathways was adapted from figure 3 in [https://www.ncbi.nlm.nih.gov/pubmed/23352243 Fraser et al]. Viral proteins are highlighted in yellow.
Authors
Kristina Hanspers , Susan Coort , Andika Tan , Egon Willighagen , and Andra WaagmeesterActivity
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Organisms
Homo sapiensCommunities
DiseasesAnnotations
Pathway Ontology
regulatory pathwayDisease Ontology
human immunodeficiency virus infectious disease| Label | Type | Compact URI | Comment |
|---|---|---|---|
| CUL5 | GeneProduct | ensembl:ENSG00000166266 | |
| RUNX1 | GeneProduct | ensembl:ENSG00000159216 | |
| ELOC | GeneProduct | ensembl:ENSG00000154582 | |
| A3G | GeneProduct | ensembl:ENSG00000239713 | |
| CBFB | GeneProduct | ensembl:ENSG00000067955 | |
| UBB | GeneProduct | ensembl:ENSG00000170315 | |
| ELOB | GeneProduct | ensembl:ENSG00000103363 | |
| Vif | GeneProduct | uniprot:P69723 | |
| RBX1 | GeneProduct | ensembl:ENSG00000100387 | |
| E2 | GeneProduct | ensembl:ENSG00000067955 |
References
- From systems to structure: bridging networks and mechanism. Fraser JS, Gross JD, Krogan NJ. Mol Cell. 2013 Jan 24;49(2):222–31. PubMed Europe PMC Scholia