Export your current network:
... as a vector graphic:
SVG: scalable vector graphic - can be opened and edited in Illustrator, CorelDraw, Dia, etc
... as short tabular text output:
TSV: tab separated values - can be opened in Excel and Cytoscape (lists only one-way edges: A-B)
... as tabular text output:
TSV: tab separated values - can be opened in Excel (lists reciprocal edges: A-B,B-A)
... as an XML summary:
structured XML interaction data, according to the 'PSI-MI' data standard
... protein node degrees:
node degree of proteins in your network (given the current score cut-off)
... network coordinates:
a flat-file format describing the coordinates and colors of nodes in the network
... protein sequences:
MFA: multi-fasta format - containing the aminoacid sequences in the network
... protein annotations:
a tab-delimited file describing the names, domains and descriptions of proteins in your network
... functional annotations:
a tab-delimited file containing all known functional terms of protiens in your network
Browse interactions in tabular form:
| node1 | node2 | node1 accession | node2 accession | node1 annotation | node2 annotation | score |
| C11H1.3 | gbb-1 | C11H1.3.1 | Y41G9A.4b.1 | RING-type domain-containing protein. | Gamma-aminobutyric acid type B receptor subunit 1; Component of a heterodimeric G-protein coupled receptor for GABA, formed by gbb-1 and gbb-2 (By similarity). Within the heterodimeric GABA receptor, only gbb-1 seems to bind agonists, while gbb-2 mediates coupling to G proteins (By similarity). Ligand binding causes a conformation change that triggers signaling via guanine nucleotide-binding proteins (G proteins) and modulates the activity of down-stream effectors, such as adenylate cyclase (By similarity). Signaling inhibits adenylate cyclase, stimulates phospholipase A2, activates po [...] | 0.631 |
| C11H1.3 | gbb-2 | C11H1.3.1 | ZK180.1.1 | RING-type domain-containing protein. | Gamma-aminobutyric acid type B receptor subunit 2; Component of a heterodimeric G-protein coupled receptor for GABA, formed by gbb-1 and gbb-2 (By similarity). Within the heterodimeric GABA receptor, only gbb-1 seems to bind agonists, while gbb-2 mediates coupling to G proteins (By similarity). Ligand binding causes a conformation change that triggers signaling via guanine nucleotide-binding proteins (G proteins) and modulates the activity of down-stream effectors, such as adenylate cyclase (By similarity). Signaling inhibits adenylate cyclase, stimulates phospholipase A2, activates po [...] | 0.770 |
| gar-2 | gar-3 | F47D12.1c.1 | Y40H4A.1b.1 | Muscarinic acetylcholine receptor gar-2; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Regulates the activity of ventral cord motor neurons. Couples to the G(o) alpha G-protein subunit goa-1 to negatively regulate cholinergic receptor activity in the presence of high levels of the neurotransmitter acetylcholine in ventral cord motor neurons. As acetylcholin [...] | Muscarinic acetylcholine receptor gar-3; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Enhances the release of the neurotransmitter acetlycholine in cholinergic motor neurons, which in turn positively feeds back to depolarize body wall muscles and allows for the maintenance of normal body posture and locomotion. | 0.945 |
| gar-2 | gbb-1 | F47D12.1c.1 | Y41G9A.4b.1 | Muscarinic acetylcholine receptor gar-2; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Regulates the activity of ventral cord motor neurons. Couples to the G(o) alpha G-protein subunit goa-1 to negatively regulate cholinergic receptor activity in the presence of high levels of the neurotransmitter acetylcholine in ventral cord motor neurons. As acetylcholin [...] | Gamma-aminobutyric acid type B receptor subunit 1; Component of a heterodimeric G-protein coupled receptor for GABA, formed by gbb-1 and gbb-2 (By similarity). Within the heterodimeric GABA receptor, only gbb-1 seems to bind agonists, while gbb-2 mediates coupling to G proteins (By similarity). Ligand binding causes a conformation change that triggers signaling via guanine nucleotide-binding proteins (G proteins) and modulates the activity of down-stream effectors, such as adenylate cyclase (By similarity). Signaling inhibits adenylate cyclase, stimulates phospholipase A2, activates po [...] | 0.835 |
| gar-2 | gbb-2 | F47D12.1c.1 | ZK180.1.1 | Muscarinic acetylcholine receptor gar-2; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Regulates the activity of ventral cord motor neurons. Couples to the G(o) alpha G-protein subunit goa-1 to negatively regulate cholinergic receptor activity in the presence of high levels of the neurotransmitter acetylcholine in ventral cord motor neurons. As acetylcholin [...] | Gamma-aminobutyric acid type B receptor subunit 2; Component of a heterodimeric G-protein coupled receptor for GABA, formed by gbb-1 and gbb-2 (By similarity). Within the heterodimeric GABA receptor, only gbb-1 seems to bind agonists, while gbb-2 mediates coupling to G proteins (By similarity). Ligand binding causes a conformation change that triggers signaling via guanine nucleotide-binding proteins (G proteins) and modulates the activity of down-stream effectors, such as adenylate cyclase (By similarity). Signaling inhibits adenylate cyclase, stimulates phospholipase A2, activates po [...] | 0.746 |
| gar-2 | gpb-1 | F47D12.1c.1 | F13D12.7a.1 | Muscarinic acetylcholine receptor gar-2; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Regulates the activity of ventral cord motor neurons. Couples to the G(o) alpha G-protein subunit goa-1 to negatively regulate cholinergic receptor activity in the presence of high levels of the neurotransmitter acetylcholine in ventral cord motor neurons. As acetylcholin [...] | Guanine nucleotide-binding protein subunit beta-1; Guanine nucleotide-binding proteins (G proteins) are involved as a modulator or transducer in various transmembrane signaling systems. The beta and gamma chains are required for the GTPase activity, for replacement of GDP by GTP, and for G protein-effector interaction. In the early embryo, controls the magnitude of the forces acting on centrosomes but is not required for generating asymmetric forces. | 0.605 |
| gar-2 | gpb-2 | F47D12.1c.1 | F52A8.2a.1 | Muscarinic acetylcholine receptor gar-2; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Regulates the activity of ventral cord motor neurons. Couples to the G(o) alpha G-protein subunit goa-1 to negatively regulate cholinergic receptor activity in the presence of high levels of the neurotransmitter acetylcholine in ventral cord motor neurons. As acetylcholin [...] | Guanine nucleotide-binding protein subunit beta-2; Guanine nucleotide-binding proteins (G proteins) are involved as a modulator or transducer in various transmembrane signaling systems. The beta and gamma chains are required for the GTPase activity, for replacement of GDP by GTP, and for G protein-effector interaction. | 0.664 |
| gar-2 | mgl-1 | F47D12.1c.1 | ZC506.4c.1 | Muscarinic acetylcholine receptor gar-2; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Regulates the activity of ventral cord motor neurons. Couples to the G(o) alpha G-protein subunit goa-1 to negatively regulate cholinergic receptor activity in the presence of high levels of the neurotransmitter acetylcholine in ventral cord motor neurons. As acetylcholin [...] | Probable metabotropic glutamate receptor mgl-1; G-protein coupled receptor for glutamate. Ligand binding causes a conformation change that triggers signaling via guanine nucleotide-binding proteins (G proteins) and modulates the activity of down-stream effectors (By similarity). | 0.514 |
| gar-2 | mgl-3 | F47D12.1c.1 | Y4C6A.2d.2 | Muscarinic acetylcholine receptor gar-2; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Regulates the activity of ventral cord motor neurons. Couples to the G(o) alpha G-protein subunit goa-1 to negatively regulate cholinergic receptor activity in the presence of high levels of the neurotransmitter acetylcholine in ventral cord motor neurons. As acetylcholin [...] | G_PROTEIN_RECEP_F3_4 domain-containing protein. | 0.537 |
| gar-2 | unc-25 | F47D12.1c.1 | Y37D8A.23a.1 | Muscarinic acetylcholine receptor gar-2; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Regulates the activity of ventral cord motor neurons. Couples to the G(o) alpha G-protein subunit goa-1 to negatively regulate cholinergic receptor activity in the presence of high levels of the neurotransmitter acetylcholine in ventral cord motor neurons. As acetylcholin [...] | Glutamic acid decarboxylase. | 0.420 |
| gar-3 | gar-2 | Y40H4A.1b.1 | F47D12.1c.1 | Muscarinic acetylcholine receptor gar-3; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Enhances the release of the neurotransmitter acetlycholine in cholinergic motor neurons, which in turn positively feeds back to depolarize body wall muscles and allows for the maintenance of normal body posture and locomotion. | Muscarinic acetylcholine receptor gar-2; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Regulates the activity of ventral cord motor neurons. Couples to the G(o) alpha G-protein subunit goa-1 to negatively regulate cholinergic receptor activity in the presence of high levels of the neurotransmitter acetylcholine in ventral cord motor neurons. As acetylcholin [...] | 0.945 |
| gar-3 | gbb-1 | Y40H4A.1b.1 | Y41G9A.4b.1 | Muscarinic acetylcholine receptor gar-3; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Enhances the release of the neurotransmitter acetlycholine in cholinergic motor neurons, which in turn positively feeds back to depolarize body wall muscles and allows for the maintenance of normal body posture and locomotion. | Gamma-aminobutyric acid type B receptor subunit 1; Component of a heterodimeric G-protein coupled receptor for GABA, formed by gbb-1 and gbb-2 (By similarity). Within the heterodimeric GABA receptor, only gbb-1 seems to bind agonists, while gbb-2 mediates coupling to G proteins (By similarity). Ligand binding causes a conformation change that triggers signaling via guanine nucleotide-binding proteins (G proteins) and modulates the activity of down-stream effectors, such as adenylate cyclase (By similarity). Signaling inhibits adenylate cyclase, stimulates phospholipase A2, activates po [...] | 0.738 |
| gar-3 | gbb-2 | Y40H4A.1b.1 | ZK180.1.1 | Muscarinic acetylcholine receptor gar-3; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Enhances the release of the neurotransmitter acetlycholine in cholinergic motor neurons, which in turn positively feeds back to depolarize body wall muscles and allows for the maintenance of normal body posture and locomotion. | Gamma-aminobutyric acid type B receptor subunit 2; Component of a heterodimeric G-protein coupled receptor for GABA, formed by gbb-1 and gbb-2 (By similarity). Within the heterodimeric GABA receptor, only gbb-1 seems to bind agonists, while gbb-2 mediates coupling to G proteins (By similarity). Ligand binding causes a conformation change that triggers signaling via guanine nucleotide-binding proteins (G proteins) and modulates the activity of down-stream effectors, such as adenylate cyclase (By similarity). Signaling inhibits adenylate cyclase, stimulates phospholipase A2, activates po [...] | 0.688 |
| gar-3 | gpb-1 | Y40H4A.1b.1 | F13D12.7a.1 | Muscarinic acetylcholine receptor gar-3; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Enhances the release of the neurotransmitter acetlycholine in cholinergic motor neurons, which in turn positively feeds back to depolarize body wall muscles and allows for the maintenance of normal body posture and locomotion. | Guanine nucleotide-binding protein subunit beta-1; Guanine nucleotide-binding proteins (G proteins) are involved as a modulator or transducer in various transmembrane signaling systems. The beta and gamma chains are required for the GTPase activity, for replacement of GDP by GTP, and for G protein-effector interaction. In the early embryo, controls the magnitude of the forces acting on centrosomes but is not required for generating asymmetric forces. | 0.625 |
| gar-3 | gpb-2 | Y40H4A.1b.1 | F52A8.2a.1 | Muscarinic acetylcholine receptor gar-3; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Enhances the release of the neurotransmitter acetlycholine in cholinergic motor neurons, which in turn positively feeds back to depolarize body wall muscles and allows for the maintenance of normal body posture and locomotion. | Guanine nucleotide-binding protein subunit beta-2; Guanine nucleotide-binding proteins (G proteins) are involved as a modulator or transducer in various transmembrane signaling systems. The beta and gamma chains are required for the GTPase activity, for replacement of GDP by GTP, and for G protein-effector interaction. | 0.795 |
| gar-3 | mgl-1 | Y40H4A.1b.1 | ZC506.4c.1 | Muscarinic acetylcholine receptor gar-3; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Enhances the release of the neurotransmitter acetlycholine in cholinergic motor neurons, which in turn positively feeds back to depolarize body wall muscles and allows for the maintenance of normal body posture and locomotion. | Probable metabotropic glutamate receptor mgl-1; G-protein coupled receptor for glutamate. Ligand binding causes a conformation change that triggers signaling via guanine nucleotide-binding proteins (G proteins) and modulates the activity of down-stream effectors (By similarity). | 0.635 |
| gar-3 | mgl-3 | Y40H4A.1b.1 | Y4C6A.2d.2 | Muscarinic acetylcholine receptor gar-3; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Enhances the release of the neurotransmitter acetlycholine in cholinergic motor neurons, which in turn positively feeds back to depolarize body wall muscles and allows for the maintenance of normal body posture and locomotion. | G_PROTEIN_RECEP_F3_4 domain-containing protein. | 0.635 |
| gbb-1 | C11H1.3 | Y41G9A.4b.1 | C11H1.3.1 | Gamma-aminobutyric acid type B receptor subunit 1; Component of a heterodimeric G-protein coupled receptor for GABA, formed by gbb-1 and gbb-2 (By similarity). Within the heterodimeric GABA receptor, only gbb-1 seems to bind agonists, while gbb-2 mediates coupling to G proteins (By similarity). Ligand binding causes a conformation change that triggers signaling via guanine nucleotide-binding proteins (G proteins) and modulates the activity of down-stream effectors, such as adenylate cyclase (By similarity). Signaling inhibits adenylate cyclase, stimulates phospholipase A2, activates po [...] | RING-type domain-containing protein. | 0.631 |
| gbb-1 | gar-2 | Y41G9A.4b.1 | F47D12.1c.1 | Gamma-aminobutyric acid type B receptor subunit 1; Component of a heterodimeric G-protein coupled receptor for GABA, formed by gbb-1 and gbb-2 (By similarity). Within the heterodimeric GABA receptor, only gbb-1 seems to bind agonists, while gbb-2 mediates coupling to G proteins (By similarity). Ligand binding causes a conformation change that triggers signaling via guanine nucleotide-binding proteins (G proteins) and modulates the activity of down-stream effectors, such as adenylate cyclase (By similarity). Signaling inhibits adenylate cyclase, stimulates phospholipase A2, activates po [...] | Muscarinic acetylcholine receptor gar-2; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Regulates the activity of ventral cord motor neurons. Couples to the G(o) alpha G-protein subunit goa-1 to negatively regulate cholinergic receptor activity in the presence of high levels of the neurotransmitter acetylcholine in ventral cord motor neurons. As acetylcholin [...] | 0.835 |
| gbb-1 | gar-3 | Y41G9A.4b.1 | Y40H4A.1b.1 | Gamma-aminobutyric acid type B receptor subunit 1; Component of a heterodimeric G-protein coupled receptor for GABA, formed by gbb-1 and gbb-2 (By similarity). Within the heterodimeric GABA receptor, only gbb-1 seems to bind agonists, while gbb-2 mediates coupling to G proteins (By similarity). Ligand binding causes a conformation change that triggers signaling via guanine nucleotide-binding proteins (G proteins) and modulates the activity of down-stream effectors, such as adenylate cyclase (By similarity). Signaling inhibits adenylate cyclase, stimulates phospholipase A2, activates po [...] | Muscarinic acetylcholine receptor gar-3; The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Enhances the release of the neurotransmitter acetlycholine in cholinergic motor neurons, which in turn positively feeds back to depolarize body wall muscles and allows for the maintenance of normal body posture and locomotion. | 0.738 |
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