Table 1 Ontology analysis of genes with altered expression (clusters 7 and 10 in Fig. 2a) in eriocitrin administration
From: Eriocitrin ameliorates diet-induced hepatic steatosis with activation of mitochondrial biogenesis
Group | GO ID | GO Terms | genes | P value |
|---|---|---|---|---|
ATP synthesis | GO:0006119 | Oxidative phosphorylation | atp5o, ndufs3, atp5d, ndufa4, atp5h, ndufa8, atp5l, ndufa6, atp6v1f, hcg_25371, ndufb5, ndufs6, atp5c1, ndufb6, ndufb2, ndufb8, ndufa2 | 1.84E-17 |
GO:0042775 | Organelle ATP synthesis coupled electron transport | hcg_25371, ndufb5, ndufs6, ndufs3, ndufb6, ndufa4, ndufa8, ndufb2, ndufa6, ndufb8, ndufa2 | 1.30E-12 | |
GO:0009145 | Purine nucleoside triphosphate biosynthetic process | atp5o, atp6v1f, atp5c1, atp5d, atp5j2, atp5h, nme1, atp5l | 1.10E-06 | |
GO:0009108 | Coenzyme biosynthetic process | atp5o, atp5h, atp6v1f, atp5l, atp5c1, atp5d, atp5j2 | 0.000211878 | |
Electron transport | GO:0006120 | Mitochondrial electron transport, NADH to ubiquinone | ndufb5, ndufs6, ndufs3, ndufb6, ndufa4, ndufa8, ndufb2, ndufa6, ndufb8, ndufa2 | 1.54E-12 |
GO:0015985 | Energy coupled proton transport, down electrochemical gradient | atp5o, atp5h, atp6v1f, atp5l, atp5c1, atp5d | 1.39E-05 | |
GO:0015992 | Proton transport | atp5o, atp5h, atp6v1f, atp5l, atp5c1, atp5d, atp5j2 | 2.07E-05 | |
Other | GO:0006752 | Group transfer coenzyme metabolic process | atp5o, atp5h, atp6v1f, atp5l, atp5c1, atp5d, atp5j2 | 2.39E-05 |
GO:0006414 | Translational elongation | rplp0, rplp1, eef1b2, rplp2 | 0.001341631 | |
GO:0051289 | Protein homotetramerization | atpif1, pcbd1 | 0.006574703 |
