WormBase Tree Display for RNAi: WBRNAi00087587
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WBRNAi00087587 | Homol | Homol_homol | CHROMOSOME_I:RNAi | ||
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Sequence_info | DNA_text | atgacatcatctcgacaaaaagatgatgagattgaccaattgagagccaagacagacttcctcaatccatcgatttcggcagattgggcgaaaaaaaagttgatgtgggtacccagtgagaaggatggattcgcacttggagctgtcatcggggaaccacatgcagacggaactatcgacattgagcttatggagactggcgaacggcagcgtgtttcgtctgatgattgccagaagccaaatcctccgaaatatgacaaatgcgaggatatgtcaatgctgacgtgtctgaatgaagcgtcggttcttcataatctaaagcaacgatatttctcgaatctctactacacatactctggcttgttctgcgttgtaataaatccatacaaacgaattccaatctacacggatacaattgctgaacagttcaaatgcaaaaagagaaaggagatgccaccacacatatttgctgttgccgatgaagcctaccgcagcatgcttcaagaacgagatgatcagtcaattctctgcactggagaatcgggagctggaaagactgaaaatacaaagaaagtgattcagtatttggcttatgtggcaaatcggtcgatggtgaagaatcggaagacttccgttgatctggacacatctacaaaccggatcatgggccagcttgaggaacagcttttgcaagcaaatcccatactcgaggctttcggaaacagtaagacagtgaagaacgataattccagtagatttggaaagttcattcgcgttcatttcgacagcacagggtgcatttctggagcgaatattgaattttatcttctggagaaatctcgcgtgctgaaacaagctcccaatgagcgatcgttccacattttctaccagttgctgaaaggactctcaaaagtacagagagaacattatctcctagaagacagcctatccaagtacaagtttgtctcaaatggtgacagtaaattggctggagttgatgatggagcagagatgaaggaaacactgaatgccatgtcaattatgggattgaacgacgaagagattggaggaatacttagagttgtctcggcagttatgctctttggaaatcttgaattttctcacgaaaacaagaataacgatcaggctgttctgctcaatgacgctgttgctcaaaaaatcgcttcacttctcggagtcaatgttaccgaattgatgcgtgcattcttgaagccaaaaatcaaggttcaaagggatttggtccatcgagctcaaagcgtagaccaagtcaatttctctgtgggagccattgcgaaggcctcgtatgagcgactcttcagatggttggttcatcgcctcaacaaatctctcgatcggacccgtcaacaatctgtcagctttatcggaattcttgatattgctggttttgaaatttttgaaacaaactcattcgagcagctatgtatcaactacactaacgagaaacttcaacaactcttcaacaatacaatgttcgttcgtgaacagcaagaatatcttgatgaaggattggagtggaagttcttggatttcggcctcaatcttcaaccgactattgacttgattgataagcctatgggaatcatgtcaactcttgatgatgtttgtctattcccacaaggaaatgatcaatcatttgttcaacgcctcaataacactcattctcaacatccgaagtacgtcgttccagagattcgctcacgaagcgattttgccgttgttcattatgcgggccgagtcgactatcaatctgaaggttggcgcgtgaaaaacatggatccattgaatgagaatgtgattgatgtgctcaaaacttcaaaggaatctcttattgtcgacatgtggaaagatatcgctgatgtttgcagtttgtcagctgctgacagtacttcagataccggagtatttggatctcgtgttccaaagaagggaatgttccgtactgtttctcaactttacaaagaacaattggctcgtcttatgagtactctcaataacaccaatcctcactttgttcgctgcatcattccaaatcacgaaaagaaacatggagttctcaacgctcatcttgttcttgatcaattaagatgcaacggagtgttggaaggaattcgtatatgccgtcaaggattccctacgcggctcccgttccaagaattccgtcaacgctacgagaaacttcttgcccctgatgtcaacccagctggattcatggacggtaaaaacgccgtttatcgtattgttcaatatctggaagttgacgccaacctcttccgtattggtcaatctaagatcttcttccgttctggagttatagctgagtttgaggagatgcgtgatcagaagctttccgctcttattgaatctttccaagctcaatgtcgtggatggctaggacgccgagtgatggtacgcagacgagaacaagaagttgctatcaaaattcttcaaagaaatggtttggcatggatgagactgcgtgaatggcaatggtggagacttctgaccaaagtgaagccacttctcgaagttaccaacaaagacgaattaattgctgagcgagaacaagaactgaaagtgacagctgaaaagcttcgtagatccgaggtattcatctccgattacaagcaacaaatggaaaaaatggacgaggagcggctggttttaaagacgagactcgatgctgaatcgtctgagagagctgaaatatttgaggaacgttcccgaatggctgctcggagagacgaacttgaaggaatccttgaagaagtttcgaagagactggagatcgaagagcaaaaggcaaagaaggctgattctgaatcccgaaaattgacggagatggttagacatctcgaagagaatcttgaagatgaagaaagaagccgtcagaaattgttgctcgaaaaaaattcaattgaatctcggttgaaggaactggaagcacaaggactcgagcttgaagattctggaaacaagttgtcgaaagaaaagaaggctttggaagaacgctgtgaagatctttcgtcacgtttaattgacgaggttgaacgatcgaaacaattggtcaaggcaaaggctcgcctggaagctacggttgcagagataaacgatgaattggaaaaagagaagcagcagagacataatgccgaaacagctcgtcgtgctgccgaaacacagctccgcgaggaacaagaatcatgcctggaaaagactcgtaaagcggaagagttgacaaatcagctgatgcgcaaagagtcggaattgtcgcaaataagcattcggaacgacgaagaactcgcagctcggcaacagttagaacgtgaaattcgggaaattcgtgcacagcttgacgatgcaattgaggagacaaacaaggagaaagctgctcgtcagaaagcagagaaagctcgtcgagatatggctgaagaattggaatcctacaagcaagaattggaagaatccaatgataaaaccgttctccactcgcaactcaaagctaaacgagatgaagagtatgctcatttgcagaaacaacttgaggaaacagtcaaatcttctgaagaagttgtggaggaaatgaaggctcagaatcagaaaaagattgaggagttgaatgagacgatcgatcagttgaaacgtcagaaaatttcggctgacaaggcaaaatcttctgctgaatctgataacgagaacttccgtgccgagctgtccaacatagcatcggctcgtctggaggcggaaaagaagcggaaagcggccgagacgtcgttgatggagaaggatcataagatgcgtgaaatgcagtcaaatcttgatgatcttatggctaagttatcgaagatgaacaacgagcttgaaagcattcaaaaagcaaagagtgctgacgaaactctgaattctaaccttctcaagaagaatgcttcactcgacatgcagttgtctgagcttactgaagcttctgaggaagatcgtcgaactagagccacgttaaacaataaaattcgtcagctcgaagaagatcttgcggttgctgttgaagccagagatgacgcacttgacgcacaagaaaagatcgaaaaagaggtcaaagaagtcaaatctctgttggccgaggctagaaagaagttggatgaggaaaatagagaggtgatggaagaattgcggaagaagaaggagaaggagttgtcagccgagaaagagcgggccgacatggctgaacaagcaagagataaggctgaacgggccaagaagaaggctatccaggaggctgaggacgtgcaaaaagagttgactgatgtggtggccgcaactagagagatggagagaaaaatgaggaagtttgatcaacagctcgccgaggagagaaacaacactttgctcgctcagcaagaaagagatatggctcatcaaatgctacgtgatgcagagacgaaggctctggtgttgtcaaatgaattatccgagaaaaaggatattgtggatcagttagaaaaggacaaacggactctcaaactagagattgacaatttggcctccaccaaggatgatgctggaaagaatgtttacgagttggagaagacgaaacgtcgccttgatgaagagttgagtcgtgcggaacaacaaatcattgaactagaagatgctctccaacttgctgatgatgctagaagcagagttgaagtcaacatgcaagcaatgagatccgagttcgaacgtcaattagcctctcgcgaagaagatgaggatgatcgtaagaagggactcacttctaaaatccgaaatcttaccgaagagcttgaatctgaacaacgtgctcgtcaagctgcaattgccaacaagaagaagatcgaatctcaaatcagcgagttgactgaaaagaacgaagcttctttgagacaaatcgaagatctttcgcgtcagcttcgcaaagcccaactgggatggaaagatctccagctggatgttacagaagctcgtgctgccatggaagatgctcttgctggacaaagagacgcagagaagagagctcgggcttcggaggatgagatcaagagactcaccgccgatattcaagctgtcagctcttcaaaacgtaaagcagaagctgagcgcgatgaactcattgaagaagtttctagtcttcgcgcttcctcattcagtaatgaggagaagagacgtcttgaagcaaaggtaattgatttggaagaccaactcgacgaggaggcttcggcaaatgaattggcacaagagaaggttcgcaagtcacaacagcaactagaacaaatgacagctgatcttgcaatggaaagaagtgtttgtgagagaacagaatcagataaaattgcattggaacgtgcgaatcgtgatttgaagcaacaacttcaagatgctgaaaataccgctgtggctcgtcttcgtacacaaatcaacgttgcggaagccaaagtttccagtcttgagcaacagctttcattggaagagcaggataagatgcgtcaaggcagaaccctgcgacgaatggaaacgaaaatggcagagatgcagcaaatgctcgaggaagagaagagacaaggtgaaagtaatcgtcaggctgttgatcgtcagaatgctagaatccgtcaacttcgtacacagttggaagatactgaggcagagcgagaccgtttgacaaacaagttgaaggacgagcggagaagagctgaagagatgactgatctcaatgagacactctccagagatgtttctttattgaaacagcgtgaaacgacagctcgtagaacacctggattgattggacatcgtgaatcgagaagatttggaagcaacaccagccttgcacgagatgaattccgtggatcagctctcacaaacgaaatgtcaccatctgaccgtccagcttctcgtctcacatctggaaccggatcccaacttggcaacaccgatgaagaccgcgactcagttcgcaactaa | |||
Experiment | Laboratory | JH | |||
Date | 01 Apr 2003 00:00:00 | ||||
Genotype | itIs153[pie-1::GFP::PAR-2] | ||||
Delivered_by | Bacterial_feeding | ||||
Inhibits | Predicted_gene | F20G4.3 | Inferred_automatically | RNAi_primary | |
Gene | WBGene00003777 | Inferred_automatically | RNAi_primary | ||
Transcript | F20G4.3.1 | Inferred_automatically | RNAi_primary | ||
Species | Caenorhabditis elegans | ||||
Reference | WBPaper00005735 | ||||
Phenotype | WBPhenotype:0000961 | Remark | Class I. Embryos in this class do not undergo ruffling, pseudocleavage or cytokinesis. Pronuclei form and migrate normally in these embryos, eventually resulting in the formation of a symmetric spindle. GFP:PAR-2 did not become visibly enriched on the cortex (n=3), and instead was maintained throughout the cytoplasm and also on foci around centrosomes. Class II and Class III. These embryos developed cytokinesis furrows that were either transient (Class II) or lead to the formation of two equal size cells (Class III). Unlike Class I embryos, however, Class II and Class III embryos developed one or two patches of GFP:PAR-2 at the cortex by pronuclear meeting (n=6). In all nmy-2(RNAi) embryos (n=8), GFP:PAR-2 was also detected in foci around the pronuclei or spindle. In four out of eight time-lapse analyses, GFP:PAR-2 appeared to shuttle from the cortex to the nearest pronucleus or centrosome. | ||
Remark | paper remark: Exact sequence used for RNAi not stated by authors, spliced coding region sequence of gene used for curation. | ||||
Method | RNAi |