node1 | node2 | node1 accession | node2 accession | node1 annotation | node2 annotation | score |
C50D2.8 | F32B4.4 | C50D2.8a.2 | F32B4.4a.1 | Uncharacterized protein. | Pharyngeal muscle protein 2; Involved in pharyngeal muscle development and ensures pharyngeal grinder function during feeding. Plays a role in the defense against the accumulation of ingested live pathogenic bacteria in the intestine. Has a role in the determination of life span. | 0.645 |
C50D2.8 | prpf-4 | C50D2.8a.2 | F22D6.5a.1 | Uncharacterized protein. | Protein kinase domain-containing protein. | 0.558 |
F32B4.4 | C50D2.8 | F32B4.4a.1 | C50D2.8a.2 | Pharyngeal muscle protein 2; Involved in pharyngeal muscle development and ensures pharyngeal grinder function during feeding. Plays a role in the defense against the accumulation of ingested live pathogenic bacteria in the intestine. Has a role in the determination of life span. | Uncharacterized protein. | 0.645 |
F32B4.4 | F56H6.9 | F32B4.4a.1 | F56H6.9.1 | Pharyngeal muscle protein 2; Involved in pharyngeal muscle development and ensures pharyngeal grinder function during feeding. Plays a role in the defense against the accumulation of ingested live pathogenic bacteria in the intestine. Has a role in the determination of life span. | Uncharacterized protein. | 0.758 |
F32B4.4 | clec-82 | F32B4.4a.1 | Y54G2A.8a.1 | Pharyngeal muscle protein 2; Involved in pharyngeal muscle development and ensures pharyngeal grinder function during feeding. Plays a role in the defense against the accumulation of ingested live pathogenic bacteria in the intestine. Has a role in the determination of life span. | C-type lectin domain-containing protein. | 0.546 |
F32B4.4 | eat-17 | F32B4.4a.1 | T24D11.1e.1 | Pharyngeal muscle protein 2; Involved in pharyngeal muscle development and ensures pharyngeal grinder function during feeding. Plays a role in the defense against the accumulation of ingested live pathogenic bacteria in the intestine. Has a role in the determination of life span. | Rab-GAP TBC domain-containing protein. | 0.696 |
F32B4.4 | eat-18 | F32B4.4a.1 | Y105E8A.7d.1 | Pharyngeal muscle protein 2; Involved in pharyngeal muscle development and ensures pharyngeal grinder function during feeding. Plays a role in the defense against the accumulation of ingested live pathogenic bacteria in the intestine. Has a role in the determination of life span. | Uncharacterized protein. | 0.620 |
F32B4.4 | eat-5 | F32B4.4a.1 | F13G3.8.2 | Pharyngeal muscle protein 2; Involved in pharyngeal muscle development and ensures pharyngeal grinder function during feeding. Plays a role in the defense against the accumulation of ingested live pathogenic bacteria in the intestine. Has a role in the determination of life span. | Innexin eat-5; Structural component of the gap junctions (By similarity). Required for synchronized pharyngeal muscle contractions. Belongs to the pannexin family. | 0.666 |
F32B4.4 | pamn-1 | F32B4.4a.1 | T19B4.1.1 | Pharyngeal muscle protein 2; Involved in pharyngeal muscle development and ensures pharyngeal grinder function during feeding. Plays a role in the defense against the accumulation of ingested live pathogenic bacteria in the intestine. Has a role in the determination of life span. | Probable peptidyl-glycine alpha-amidating monooxygenase pamn-1; Probable bifunctional enzyme that catalyzes 2 sequential steps in C-terminal alpha-amidation of peptides. The monooxygenase part produces an unstable peptidyl(2-hydroxyglycine) intermediate that is dismutated to glyoxylate and the corresponding desglycine peptide amide by the lyase part. C-terminal amidation of peptides such as neuropeptides is essential for full biological activity; In the N-terminal section; belongs to the copper type II ascorbate-dependent monooxygenase family. | 0.700 |
F32B4.4 | pghm-1 | F32B4.4a.1 | Y71G12B.4.1 | Pharyngeal muscle protein 2; Involved in pharyngeal muscle development and ensures pharyngeal grinder function during feeding. Plays a role in the defense against the accumulation of ingested live pathogenic bacteria in the intestine. Has a role in the determination of life span. | Probable peptidylglycine alpha-hydroxylating monooxygenase 1; Monooxygenase that catalyzes an essential reaction in C- terminal alpha-amidation of peptides. Produces an unstable peptidyl(2- hydroxyglycine) intermediate. C-terminal amidation of peptides such as neuropeptides is essential for full biological activity. Belongs to the copper type II ascorbate-dependent monooxygenase family. | 0.697 |
F32B4.4 | pop-1 | F32B4.4a.1 | W10C8.2.1 | Pharyngeal muscle protein 2; Involved in pharyngeal muscle development and ensures pharyngeal grinder function during feeding. Plays a role in the defense against the accumulation of ingested live pathogenic bacteria in the intestine. Has a role in the determination of life span. | Protein pop-1; Part of the Wnt signaling pathway essential for the specification of the mesodermal cell fate in early embryos. Required for asymmetrical division of somatic gonadal precursor descendants which initiate axis formation required to control organ shape. Represses expression of target genes via its interaction with hda-1 histone deacetylase. Required for specification of the M lineage-derived coelomocyte and sex myoblast fate. Regulates coelomocyte fate by positively regulating proliferation and ceh-34 and possibly eya-1 expression in M.dlpa and M.drpa precursors. | 0.562 |
F32B4.4 | prpf-4 | F32B4.4a.1 | F22D6.5a.1 | Pharyngeal muscle protein 2; Involved in pharyngeal muscle development and ensures pharyngeal grinder function during feeding. Plays a role in the defense against the accumulation of ingested live pathogenic bacteria in the intestine. Has a role in the determination of life span. | Protein kinase domain-containing protein. | 0.696 |
F56H6.9 | F32B4.4 | F56H6.9.1 | F32B4.4a.1 | Uncharacterized protein. | Pharyngeal muscle protein 2; Involved in pharyngeal muscle development and ensures pharyngeal grinder function during feeding. Plays a role in the defense against the accumulation of ingested live pathogenic bacteria in the intestine. Has a role in the determination of life span. | 0.758 |
F56H6.9 | clec-82 | F56H6.9.1 | Y54G2A.8a.1 | Uncharacterized protein. | C-type lectin domain-containing protein. | 0.463 |
clec-82 | F32B4.4 | Y54G2A.8a.1 | F32B4.4a.1 | C-type lectin domain-containing protein. | Pharyngeal muscle protein 2; Involved in pharyngeal muscle development and ensures pharyngeal grinder function during feeding. Plays a role in the defense against the accumulation of ingested live pathogenic bacteria in the intestine. Has a role in the determination of life span. | 0.546 |
clec-82 | F56H6.9 | Y54G2A.8a.1 | F56H6.9.1 | C-type lectin domain-containing protein. | Uncharacterized protein. | 0.463 |
eat-17 | F32B4.4 | T24D11.1e.1 | F32B4.4a.1 | Rab-GAP TBC domain-containing protein. | Pharyngeal muscle protein 2; Involved in pharyngeal muscle development and ensures pharyngeal grinder function during feeding. Plays a role in the defense against the accumulation of ingested live pathogenic bacteria in the intestine. Has a role in the determination of life span. | 0.696 |
eat-17 | eat-18 | T24D11.1e.1 | Y105E8A.7d.1 | Rab-GAP TBC domain-containing protein. | Uncharacterized protein. | 0.468 |
eat-17 | eat-5 | T24D11.1e.1 | F13G3.8.2 | Rab-GAP TBC domain-containing protein. | Innexin eat-5; Structural component of the gap junctions (By similarity). Required for synchronized pharyngeal muscle contractions. Belongs to the pannexin family. | 0.468 |
eat-18 | F32B4.4 | Y105E8A.7d.1 | F32B4.4a.1 | Uncharacterized protein. | Pharyngeal muscle protein 2; Involved in pharyngeal muscle development and ensures pharyngeal grinder function during feeding. Plays a role in the defense against the accumulation of ingested live pathogenic bacteria in the intestine. Has a role in the determination of life span. | 0.620 |