Description : proton-translocating pyrophosphatase *(VHP1) & proton-translocating pyrophosphatase *(VHP1)
Gene families : OG_42_0001176 (Orthogroups_2024-Update) Phylogenetic Tree(s): OG0001176_tree
Note:Only the main profile, including all conditions, is shown. Additional statistics and tissue specific profiles are available here.
Type | Description | Actions |
---|---|---|
Neighborhood | Sorghum bicolor: Sobic.010G205500.1 | |
Cluster | HCAA Clusters: Cluster_92 |
Target | Alias | Description | ECC score | Gene Family Method | Actions |
---|---|---|---|---|---|
Bradi1g30550 | No alias | Inorganic H pyrophosphatase family protein | 0.04 | Orthogroups_2024-Update | |
Glyma.13G162800 | No alias | Inorganic H pyrophosphatase family protein | 0.03 | Orthogroups_2024-Update |
Type | GO Term | Name | Evidence | Source |
---|---|---|---|---|
MF | GO:0004427 | inorganic diphosphatase activity | IEA | 16Dec |
MF | GO:0009678 | hydrogen-translocating pyrophosphatase activity | IEA | 16Dec |
CC | GO:0016020 | membrane | IEA | 16Dec |
BP | GO:1902600 | proton transmembrane transport | IEA | 16Dec |
Type | GO Term | Name | Evidence | Source |
---|---|---|---|---|
MF | GO:0000774 | adenyl-nucleotide exchange factor activity | IEP | Predicted GO |
MF | GO:0003676 | nucleic acid binding | IEP | Predicted GO |
MF | GO:0003723 | RNA binding | IEP | Predicted GO |
MF | GO:0003747 | translation release factor activity | IEP | Predicted GO |
MF | GO:0003887 | DNA-directed DNA polymerase activity | IEP | Predicted GO |
MF | GO:0004527 | exonuclease activity | IEP | Predicted GO |
BP | GO:0006139 | nucleobase-containing compound metabolic process | IEP | Predicted GO |
BP | GO:0006415 | translational termination | IEP | Predicted GO |
BP | GO:0006725 | cellular aromatic compound metabolic process | IEP | Predicted GO |
MF | GO:0008079 | translation termination factor activity | IEP | Predicted GO |
MF | GO:0008408 | 3'-5' exonuclease activity | IEP | Predicted GO |
MF | GO:0008509 | anion transmembrane transporter activity | IEP | Predicted GO |
MF | GO:0008987 | quinolinate synthetase A activity | IEP | Predicted GO |
BP | GO:0009435 | NAD biosynthetic process | IEP | Predicted GO |
MF | GO:0015098 | molybdate ion transmembrane transporter activity | IEP | Predicted GO |
MF | GO:0015103 | inorganic anion transmembrane transporter activity | IEP | Predicted GO |
BP | GO:0015689 | molybdate ion transport | IEP | Predicted GO |
BP | GO:0015698 | inorganic anion transport | IEP | Predicted GO |
MF | GO:0016667 | oxidoreductase activity, acting on a sulfur group of donors | IEP | Predicted GO |
MF | GO:0016671 | oxidoreductase activity, acting on a sulfur group of donors, disulfide as acceptor | IEP | Predicted GO |
MF | GO:0016779 | nucleotidyltransferase activity | IEP | Predicted GO |
MF | GO:0016866 | intramolecular transferase activity | IEP | Predicted GO |
MF | GO:0016868 | intramolecular transferase activity, phosphotransferases | IEP | Predicted GO |
BP | GO:0019674 | NAD metabolic process | IEP | Predicted GO |
BP | GO:0022411 | cellular component disassembly | IEP | Predicted GO |
MF | GO:0030976 | thiamine pyrophosphate binding | IEP | Predicted GO |
BP | GO:0032984 | protein-containing complex disassembly | IEP | Predicted GO |
MF | GO:0034061 | DNA polymerase activity | IEP | Predicted GO |
MF | GO:0042802 | identical protein binding | IEP | Predicted GO |
MF | GO:0042803 | protein homodimerization activity | IEP | Predicted GO |
BP | GO:0043624 | cellular protein complex disassembly | IEP | Predicted GO |
BP | GO:0046483 | heterocycle metabolic process | IEP | Predicted GO |
MF | GO:0051087 | chaperone binding | IEP | Predicted GO |
MF | GO:0051539 | 4 iron, 4 sulfur cluster binding | IEP | Predicted GO |
MF | GO:0060590 | ATPase regulator activity | IEP | Predicted GO |
BP | GO:0070647 | protein modification by small protein conjugation or removal | IEP | Predicted GO |
BP | GO:1901360 | organic cyclic compound metabolic process | IEP | Predicted GO |
MF | GO:1901681 | sulfur compound binding | IEP | Predicted GO |
No external refs found! |