node1 | node2 | node1 accession | node2 accession | node1 annotation | node2 annotation | score |
deps-1 | glh-1 | Y65B4BL.2a.1 | T21G5.3.1 | Uncharacterized protein. | ATP-dependent RNA helicase glh-1; Probable ATP-binding RNA helicase. May act redundantly with the P-granule component glh-4 to regulate the formation of the granular structure of P-granules in embryos. May play a role in transgenerational epigenetic inheritance. May protect somatic cells from excessive apoptosis during normal development. Belongs to the DEAD box helicase family. DDX4/VASA subfamily. | 0.892 |
deps-1 | glh-2 | Y65B4BL.2a.1 | C55B7.1.1 | Uncharacterized protein. | ATP-dependent RNA helicase glh-2; Probable ATP-binding RNA helicase. | 0.749 |
deps-1 | glh-3 | Y65B4BL.2a.1 | B0414.6.1 | Uncharacterized protein. | ATP-dependent RNA helicase glh-3; Probable ATP-binding RNA helicase; Belongs to the DEAD box helicase family. DDX4/VASA subfamily. | 0.717 |
deps-1 | glh-4 | Y65B4BL.2a.1 | T12F5.3.1 | Uncharacterized protein. | ATP-dependent RNA helicase glh-4; Probable ATP-binding RNA helicase. May act redundantly with the P-granule component glh-1 to regulate the formation of the granular structure of P-granules in embryos. May protect somatic cells from excessive apoptosis during normal development. | 0.843 |
deps-1 | meg-3 | Y65B4BL.2a.1 | F52D2.4.1 | Uncharacterized protein. | Uncharacterized protein. | 0.774 |
deps-1 | pgl-1 | Y65B4BL.2a.1 | ZK381.4b.1 | Uncharacterized protein. | Guanyl-specific ribonuclease pgl-1; Guanyl-specific endoribonuclease which cleaves the phosphodiester bond in single-stranded RNA between the 3'-guanylic residue and the 5'-OH residue of adjacent nucleotide, resulting in the formation of a corresponding 2',3'-cyclic phosphate intermediate. Together with the P-granule component pgl-3, is involved in the formation of P-granules. Together with pgl-3, probably recruits other granule components such as pos-1, mex-3 and glh-1 to P-granules. In addition, may act redundantly with pgl-3 to protect germ cells from excessive germline apoptosis du [...] | 0.897 |
deps-1 | pgl-3 | Y65B4BL.2a.1 | C18G1.4a.1 | Uncharacterized protein. | Guanyl-specific ribonuclease pgl-3; Guanyl-specific endoribonuclease which cleaves the phosphodiester bond in single-stranded RNA between the 3'-guanylic residue and the 5'-OH residue of adjacent nucleotide, resulting in the formation of a corresponding 2',3'-cyclic phosphate intermediate. P-granule component involved in germline development. Together with the P-granule component pgl-1, is involved in the formation of P-granules. Together with pgl- 1, probably recruits other granule components such as pos-1, mex-3 and glh-1, and RNA to P-granules. In vitro, binds mRNA; this interaction [...] | 0.860 |
deps-1 | wago-1 | Y65B4BL.2a.1 | R06C7.1.1 | Uncharacterized protein. | Argonaute protein wago-1; Argonaute protein which is involved in the endogenous small interfering RNA (endo-siRNA) pathway. Interacts with secondary 22G- RNAs, which are RNA-dependent RNA polymerase-derived endo-siRNAs, typically 22 nucleotides in length with a 5'guanosine residue. In the germline, functions in a genome surveillance system to silence transposons and aberrant transcripts. | 0.816 |
epg-2 | pgl-1 | Y39G10AR.10.1 | ZK381.4b.1 | Ectopic P granules protein 2; Involved in autophagy. Thought to act as an adapter protein that brings PGL granules to autophagic structures containing lgg-1. Association with other adapters such as sepa-1 is required for the accumulation and degradation of germ cell specific P-granules by autophagy in somatic cells. This ensures exclusive localization of the P-granules in germ cells. May also play a role in the removal of sepa-1 from somatic cells. | Guanyl-specific ribonuclease pgl-1; Guanyl-specific endoribonuclease which cleaves the phosphodiester bond in single-stranded RNA between the 3'-guanylic residue and the 5'-OH residue of adjacent nucleotide, resulting in the formation of a corresponding 2',3'-cyclic phosphate intermediate. Together with the P-granule component pgl-3, is involved in the formation of P-granules. Together with pgl-3, probably recruits other granule components such as pos-1, mex-3 and glh-1 to P-granules. In addition, may act redundantly with pgl-3 to protect germ cells from excessive germline apoptosis du [...] | 0.673 |
epg-2 | pgl-3 | Y39G10AR.10.1 | C18G1.4a.1 | Ectopic P granules protein 2; Involved in autophagy. Thought to act as an adapter protein that brings PGL granules to autophagic structures containing lgg-1. Association with other adapters such as sepa-1 is required for the accumulation and degradation of germ cell specific P-granules by autophagy in somatic cells. This ensures exclusive localization of the P-granules in germ cells. May also play a role in the removal of sepa-1 from somatic cells. | Guanyl-specific ribonuclease pgl-3; Guanyl-specific endoribonuclease which cleaves the phosphodiester bond in single-stranded RNA between the 3'-guanylic residue and the 5'-OH residue of adjacent nucleotide, resulting in the formation of a corresponding 2',3'-cyclic phosphate intermediate. P-granule component involved in germline development. Together with the P-granule component pgl-1, is involved in the formation of P-granules. Together with pgl- 1, probably recruits other granule components such as pos-1, mex-3 and glh-1, and RNA to P-granules. In vitro, binds mRNA; this interaction [...] | 0.836 |
epg-2 | sepa-1 | Y39G10AR.10.1 | M01E5.6.1 | Ectopic P granules protein 2; Involved in autophagy. Thought to act as an adapter protein that brings PGL granules to autophagic structures containing lgg-1. Association with other adapters such as sepa-1 is required for the accumulation and degradation of germ cell specific P-granules by autophagy in somatic cells. This ensures exclusive localization of the P-granules in germ cells. May also play a role in the removal of sepa-1 from somatic cells. | Protein sepa-1; Adapter protein that connects P-granules in somatic cells with the autophagic machinery. Association with other adapters such as epg-2 and P-granule components such as pgl-3 is required for the accumulation and degradation of P-granules by autophagy in somatic cells. This ensures exclusive localization of the P-granules in germ cells. | 0.940 |
glh-1 | deps-1 | T21G5.3.1 | Y65B4BL.2a.1 | ATP-dependent RNA helicase glh-1; Probable ATP-binding RNA helicase. May act redundantly with the P-granule component glh-4 to regulate the formation of the granular structure of P-granules in embryos. May play a role in transgenerational epigenetic inheritance. May protect somatic cells from excessive apoptosis during normal development. Belongs to the DEAD box helicase family. DDX4/VASA subfamily. | Uncharacterized protein. | 0.892 |
glh-1 | glh-2 | T21G5.3.1 | C55B7.1.1 | ATP-dependent RNA helicase glh-1; Probable ATP-binding RNA helicase. May act redundantly with the P-granule component glh-4 to regulate the formation of the granular structure of P-granules in embryos. May play a role in transgenerational epigenetic inheritance. May protect somatic cells from excessive apoptosis during normal development. Belongs to the DEAD box helicase family. DDX4/VASA subfamily. | ATP-dependent RNA helicase glh-2; Probable ATP-binding RNA helicase. | 0.633 |
glh-1 | glh-3 | T21G5.3.1 | B0414.6.1 | ATP-dependent RNA helicase glh-1; Probable ATP-binding RNA helicase. May act redundantly with the P-granule component glh-4 to regulate the formation of the granular structure of P-granules in embryos. May play a role in transgenerational epigenetic inheritance. May protect somatic cells from excessive apoptosis during normal development. Belongs to the DEAD box helicase family. DDX4/VASA subfamily. | ATP-dependent RNA helicase glh-3; Probable ATP-binding RNA helicase; Belongs to the DEAD box helicase family. DDX4/VASA subfamily. | 0.529 |
glh-1 | glh-4 | T21G5.3.1 | T12F5.3.1 | ATP-dependent RNA helicase glh-1; Probable ATP-binding RNA helicase. May act redundantly with the P-granule component glh-4 to regulate the formation of the granular structure of P-granules in embryos. May play a role in transgenerational epigenetic inheritance. May protect somatic cells from excessive apoptosis during normal development. Belongs to the DEAD box helicase family. DDX4/VASA subfamily. | ATP-dependent RNA helicase glh-4; Probable ATP-binding RNA helicase. May act redundantly with the P-granule component glh-1 to regulate the formation of the granular structure of P-granules in embryos. May protect somatic cells from excessive apoptosis during normal development. | 0.754 |
glh-1 | meg-3 | T21G5.3.1 | F52D2.4.1 | ATP-dependent RNA helicase glh-1; Probable ATP-binding RNA helicase. May act redundantly with the P-granule component glh-4 to regulate the formation of the granular structure of P-granules in embryos. May play a role in transgenerational epigenetic inheritance. May protect somatic cells from excessive apoptosis during normal development. Belongs to the DEAD box helicase family. DDX4/VASA subfamily. | Uncharacterized protein. | 0.856 |
glh-1 | pgl-1 | T21G5.3.1 | ZK381.4b.1 | ATP-dependent RNA helicase glh-1; Probable ATP-binding RNA helicase. May act redundantly with the P-granule component glh-4 to regulate the formation of the granular structure of P-granules in embryos. May play a role in transgenerational epigenetic inheritance. May protect somatic cells from excessive apoptosis during normal development. Belongs to the DEAD box helicase family. DDX4/VASA subfamily. | Guanyl-specific ribonuclease pgl-1; Guanyl-specific endoribonuclease which cleaves the phosphodiester bond in single-stranded RNA between the 3'-guanylic residue and the 5'-OH residue of adjacent nucleotide, resulting in the formation of a corresponding 2',3'-cyclic phosphate intermediate. Together with the P-granule component pgl-3, is involved in the formation of P-granules. Together with pgl-3, probably recruits other granule components such as pos-1, mex-3 and glh-1 to P-granules. In addition, may act redundantly with pgl-3 to protect germ cells from excessive germline apoptosis du [...] | 0.989 |
glh-1 | pgl-3 | T21G5.3.1 | C18G1.4a.1 | ATP-dependent RNA helicase glh-1; Probable ATP-binding RNA helicase. May act redundantly with the P-granule component glh-4 to regulate the formation of the granular structure of P-granules in embryos. May play a role in transgenerational epigenetic inheritance. May protect somatic cells from excessive apoptosis during normal development. Belongs to the DEAD box helicase family. DDX4/VASA subfamily. | Guanyl-specific ribonuclease pgl-3; Guanyl-specific endoribonuclease which cleaves the phosphodiester bond in single-stranded RNA between the 3'-guanylic residue and the 5'-OH residue of adjacent nucleotide, resulting in the formation of a corresponding 2',3'-cyclic phosphate intermediate. P-granule component involved in germline development. Together with the P-granule component pgl-1, is involved in the formation of P-granules. Together with pgl- 1, probably recruits other granule components such as pos-1, mex-3 and glh-1, and RNA to P-granules. In vitro, binds mRNA; this interaction [...] | 0.967 |
glh-1 | wago-1 | T21G5.3.1 | R06C7.1.1 | ATP-dependent RNA helicase glh-1; Probable ATP-binding RNA helicase. May act redundantly with the P-granule component glh-4 to regulate the formation of the granular structure of P-granules in embryos. May play a role in transgenerational epigenetic inheritance. May protect somatic cells from excessive apoptosis during normal development. Belongs to the DEAD box helicase family. DDX4/VASA subfamily. | Argonaute protein wago-1; Argonaute protein which is involved in the endogenous small interfering RNA (endo-siRNA) pathway. Interacts with secondary 22G- RNAs, which are RNA-dependent RNA polymerase-derived endo-siRNAs, typically 22 nucleotides in length with a 5'guanosine residue. In the germline, functions in a genome surveillance system to silence transposons and aberrant transcripts. | 0.918 |
glh-2 | deps-1 | C55B7.1.1 | Y65B4BL.2a.1 | ATP-dependent RNA helicase glh-2; Probable ATP-binding RNA helicase. | Uncharacterized protein. | 0.749 |