| New model in OGS2.0 | DPOGS214584 |
|---|---|
| Genomic Position | scaffold207:- 94523-101583 |
| See gene structure | |
| CDS Length | 4416 |
| Paired RNAseq reads | 41 |
| Single RNAseq reads | 100 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA005150 (0.0) |
| Best Drosophila hit | CG42534 (1e-125) |
| Best Human hit | ankyrin-3 isoform 1 (2e-33) |
| Best NR hit (blastp) | PREDICTED: similar to CG6599 CG6599-PA, partial [Tribolium castaneum] (2e-154) |
| Best NR hit (blastx) | PREDICTED: similar to CG6599 CG6599-PA, partial [Tribolium castaneum] (1e-137) |
| GeneOntology terms | GO:0005086 ARF guanyl-nucleotide exchange factor activity GO:0005622 intracellular GO:0032012 regulation of ARF protein signal transduction GO:0005085 guanyl-nucleotide exchange factor activity GO:0005764 lysosome GO:0006935 chemotaxis GO:0005829 cytosol GO:0031589 cell-substrate adhesion |
| InterPro families | IPR020683 Ankyrin repeat-containing domain IPR002110 Ankyrin repeat |
| Orthology group | MCL15075 |
Nucleotide sequence:
ATGGACAAGCGCGCAGTGAGCGGCCGGGGCGAGCCCGTCCCAAGCATTCTCAAGAAATCA
AATAAACATCGTTCCGGTGACCTCGTTGATAAGAGCTCAAAAATAAAACGAGAGAATAAA
AGGGGTGATGTGAATATCCCTCTACCTCAAGGTTGCACTCCACTCATGTACGCTTGCCAA
CAGGCAAACTACAAGTCTGTTATAGAAATCCTTAACAAAGACCCATCATCAGTGCGCATC
AGAGACCGTGGTCTACGCTGTGCTCTGCACTACTGTGCTTCGAGCGGTGCTGGTGTGAGC
CAGGCGGCTCGGGCGGCTTGTGCCGACAGGGTGCTCATGGCAGCCAGCCACTTGGCTGAC
GCCCGTGACGCCGACGGCCTGACACCCCTTCATCTGGCAGTGGTTCACGGAAACGTACCA
CTAGTGCAAACTTTGCTCGCTGCTGGTGCTGATGTCAACGCTAAAGACAATGAACAACAT
ACAGTGGTCCACTGGGCAACAGTTTGTGGCGAGGTCGGCGCTCTGAGAGCTGTGTTAGTA
TCAGGAGCTGACGCCGCTACGCCTGACCAGCACGGCGGGTATCCTCTACACTACGCTGCT
CAGATGTGTGGAGCACCAGCCGCTACTGATCACCAGGGCAGAGGAGCGGCGTTGGAGGTA
CTTCGTGCATTAGTAAGGGAAGGCGGCGCTCGGGTCGATGTCCGTGATGCTGATGGGAGG
ACACCTCTATTATGGGCCGCGTCAGCTGGCTCGGCCGCCGCAGTACTAACTTTGCATCAA
GCAGGAGCGAGTGTAGATGATGCTGATAGAGATGGCCTGACAGCTTTACACTGTGCTGCG
GCAAGAGGACATACTGAAGCACTTGAGACTCTGGTTGGACTGTGCGGTGCTAGGGTTGAC
GTCGCTGACTCACACGGCTGCACACCGTTACATTACGCAGCAGCTCTAGGTCATGCTGAC
GCAACCTCAGCCCTACTGGTTCACGGCGCGGACGCACATCGACAGGATCGTAGAGGGAGA
AGTCCTGCTCATACCGCTGCAGCCAAAGGGCAAATAGAAACAGTTCGCATACTAGGCGCA
AGGGGAACAAATTTATGGTTAAGAAATTCTAAGGGAGATCTTCCATTACACGAGGCCGTT
GCTTCGGGTCGAAGGGAATTAGTGAAATGGCTTTTAGATGGTAGACCATCACAAGTCAAT
GCTACAAACCACGAAGGCCGAACTCCTTTGCATATAGCAGCAGCAACTGATAATGCTGAC
TTGTGTCGTCTACTTATGGATCGTGGAGCTGAGGTAAACCCTGTCGCTAAGTCATCCAAG
AACGAACCCTTAACTCCCTTAGATTGTGCTATAAGTAGAGGTCATAGAGCTACTGCCAAA
TACCTACAAATGCACGGTGGTTTACCAGCTACTAAACTTTCAAATACTGAAATTATAATA
GATGGTTCCTCTATCACAGCTTTACCAACAAGAAAAGTAACAAGTACAAAGATTGATGTT
CGAGATAGAATTTTTATAGAAAAACGTGAAGTTGTTGAACTCTCAAGTCCGATCACTAAT
AGAAAGAAAGTAATAACTCGAAGCGATTCAGATTTCGATAAGAGTTCATCTTCAGATGAA
CGTAAAGTAAAAAGAAGAACTAGAAATAAATATGCGGATATTTATGCTAAGCGTAGAAAG
AGGTTATCAGAAAAACAGAAAAGTTTTAGCGATGGGTGTGACAGTGAATTTGAAGAAACA
AAGAAACGTGATCATTATAAACACATTATAGTAAAGCCAAAGGAAAGTAAAAGTAGATCG
AAAAGTGAACCCTCTAGAAAAAGTAAAAGTAGTAAGAGTCGTGAACGTTATCACAGATCT
ACCTCAGAAAGTTCATCTGAAAGCTATTCCGCTAGAAGGAGAAGTAAAAGGCATCGAAAA
AGAAATAAAAGGAAAACTACGTCATCATCAGAAACCACCGCATCAGATATTAGTAGACGA
AGAAGTTCGAGGCATAGAGAAAAAAAAACTTCTATTCATATTGAAAACGACGACAGGAAG
CAAAGTGTTAACATTATCAAATACAAAAACATAGATGATTCTCGGGAAAAAGATAAAACA
GTTGAAAGTGCTTCAGCAATATTGCCGTCACAAAGAACGAAAAGCGAAGAAGAATCAACA
AAAAGTCAAGATATAACTAAAAAAAAAACTTATAGTGAAACAGAAACTGATACTGTGTCT
GTTAAAACGAATATGGTAATAACAGAAGCCCAGATCCATATGGAACGTGAATCGAGTCAG
CATGGCAGTGCAGAAATGACAGTTACTATGGATTCACTAAATAATGTTTCAATAGAGACA
AGTAACTTATCTGTTACTCATAAAGATAAGAATGAAGACGAGGAAAAGAAATCCGAACCA
CAAGTCCCAACAGAGGAGGTAACTGAAGTAGATAAACCTATCGATGAGAGCATTGAATCA
AAAGAAGAAAATAAAGTAGTTATTGAGAGTTCTGTAGAAGATGCTAAAAGTATGCATCGT
ACAACATCATTAGATGATTCAAAACAAAGTGAAACTAAAAATAACATATCTGATAAAGAT
ACTCAAGAGACTTCAGAGGAACTAAAAACAAAGTCTCCATCTGTCGATAATGAAATTCCT
GAAAAGGAGGCTTCCCTCACCGATAAAGAAATTAAAAGCATAGATAAATCTCAAGACGAT
AGTTTGACAAATAGTCAAAAACAATCTTTTCAAGTTTTGTCTGGTCCCAAGGATAGCAAA
ACGGAAGAAGGCGCTTTAAAATCATCGGGAGAAAATGAGTCTACAAAAAAAGATGATGGA
GAAGCGCTCCCTAAAGTTTCTTCTGCAGTATCATTTTCAGAAAAAGATGAAATTATTAAA
ATCAACGATAACGAAACAATTGCAGATCAATCAGATAATACAGAAACTTCCAATAAGATT
ATAGACGATGAAATAACAAAAACACCCCACGAAATCACAACTGTCTCTGAAGAAAAACCA
GAATTGCAGACTGAGGCTAGAATTGGGGCCGCTGAGTTACATGCGGCCGCAGATAAAGGG
ATAATTAAAATTTTACCTGATGATTCAACTATGGAGGACGTAGAAAATGAAAATTTAGAA
CCTGATAAGTTTGTTGAATATCAAGACTCCTCTGTGACACCTATTTCGCCCAGACGAATC
TCAAAATCATTAAAAGATAGTCAAAGTAGTAGCAGAAAGAGTAGCATCTATGAAACTGAA
AGTTACAAGGTTTTGTCAGAAACTGTCGAAGCTGATGAAGTTAGTACAGGTATTTTAAAG
AAATCAAGTTTTATTGACGATGAAAATATAGAAGGTGATACACTTGATAACACATTGAGA
AGAGATAATTCATTTAGTCGAATTCCGAGCGTCAGTGACAATGAGATTTATTACAGTCAT
TCAGAAGTTAATGGCAGAAGAAAACGATTTCGAAAAAAAGGAAAAATTAAAAGTCGATTA
TCTTTGAGATCAAAGAGTGAAAATTCTGAAAGAGATTACGAGTCCAGTGGCTTCATGGAC
TCTGGTTTTGAACCTAGTCCACGGTTAGTTCAAAGACGGATTATGAGTCCTCGACTACAG
GCTTACTATCAACAACGAAGAAGTGCAAAATTAACGGGAAAAGTAGATAGCAAAATACCG
GTCAGAAAACCTGGAGATAAAAAGGCTGTCGATATGAGATCCGTGACGCAGCGGTTGCAA
ACAAACATGAGAAGATACTACTGTGAAAGAAAAATATTTCAGCATTTATTAGAGTTAAAA
CGATTGCAAATAAGAACAAGCAAAGCAAACGAAGCTGTTCTAGTTAAAAGAACAATAGAC
GAATACAATAAGTCTAGTCTGGCCACTGTCGGCTTAGGTCCATATAATAGCACAGATTAC
TCATTTAGTACTTTTGAAAAATTTTTGTATGAGAGCTTGAGAAAACTACAGAAAAGTGGC
AAAAAACATCTCGACAATTTGCCTGAAAGACCCATTGATTTTGATTATGGTGAGACCGAA
TTGTATAAAATGACCGGCATACCTGATAACCCTTGCTTATGTACAAGCAAGACACACCGA
TGTTTCCACGCTGTACACGCGTACACCGGTATTCCGTGCTCTGCTTACATTCCTTACAAA
TGGAATCATCACACGATGCCGAAACCTGCTACTGCAGTGTCAAAGACGAGGTCTAAAGGA
TTTTTACCTAAAATCAATTCGAAGCCACCATCTGGTAAAGCTCACGTCACACTTGAAGTC
TCCCACGGAACCGAAAGGCAGCTGATTGCATTACCCGCTGAAAAACTTGATAAAAACAAA
AGATATTACGTAACTTTCACTGTCAAAGGTTCTGAACCACCCTCTGATAATGATAACTCC
TCACCAAAAACATCTAAATCGCCAAAAAGTGGCTGA
Protein sequence:
MDKRAVSGRGEPVPSILKKSNKHRSGDLVDKSSKIKRENKRGDVNIPLPQGCTPLMYACQ
QANYKSVIEILNKDPSSVRIRDRGLRCALHYCASSGAGVSQAARAACADRVLMAASHLAD
ARDADGLTPLHLAVVHGNVPLVQTLLAAGADVNAKDNEQHTVVHWATVCGEVGALRAVLV
SGADAATPDQHGGYPLHYAAQMCGAPAATDHQGRGAALEVLRALVREGGARVDVRDADGR
TPLLWAASAGSAAAVLTLHQAGASVDDADRDGLTALHCAAARGHTEALETLVGLCGARVD
VADSHGCTPLHYAAALGHADATSALLVHGADAHRQDRRGRSPAHTAAAKGQIETVRILGA
RGTNLWLRNSKGDLPLHEAVASGRRELVKWLLDGRPSQVNATNHEGRTPLHIAAATDNAD
LCRLLMDRGAEVNPVAKSSKNEPLTPLDCAISRGHRATAKYLQMHGGLPATKLSNTEIII
DGSSITALPTRKVTSTKIDVRDRIFIEKREVVELSSPITNRKKVITRSDSDFDKSSSSDE
RKVKRRTRNKYADIYAKRRKRLSEKQKSFSDGCDSEFEETKKRDHYKHIIVKPKESKSRS
KSEPSRKSKSSKSRERYHRSTSESSSESYSARRRSKRHRKRNKRKTTSSSETTASDISRR
RSSRHREKKTSIHIENDDRKQSVNIIKYKNIDDSREKDKTVESASAILPSQRTKSEEEST
KSQDITKKKTYSETETDTVSVKTNMVITEAQIHMERESSQHGSAEMTVTMDSLNNVSIET
SNLSVTHKDKNEDEEKKSEPQVPTEEVTEVDKPIDESIESKEENKVVIESSVEDAKSMHR
TTSLDDSKQSETKNNISDKDTQETSEELKTKSPSVDNEIPEKEASLTDKEIKSIDKSQDD
SLTNSQKQSFQVLSGPKDSKTEEGALKSSGENESTKKDDGEALPKVSSAVSFSEKDEIIK
INDNETIADQSDNTETSNKIIDDEITKTPHEITTVSEEKPELQTEARIGAAELHAAADKG
IIKILPDDSTMEDVENENLEPDKFVEYQDSSVTPISPRRISKSLKDSQSSSRKSSIYETE
SYKVLSETVEADEVSTGILKKSSFIDDENIEGDTLDNTLRRDNSFSRIPSVSDNEIYYSH
SEVNGRRKRFRKKGKIKSRLSLRSKSENSERDYESSGFMDSGFEPSPRLVQRRIMSPRLQ
AYYQQRRSAKLTGKVDSKIPVRKPGDKKAVDMRSVTQRLQTNMRRYYCERKIFQHLLELK
RLQIRTSKANEAVLVKRTIDEYNKSSLATVGLGPYNSTDYSFSTFEKFLYESLRKLQKSG
KKHLDNLPERPIDFDYGETELYKMTGIPDNPCLCTSKTHRCFHAVHAYTGIPCSAYIPYK
WNHHTMPKPATAVSKTRSKGFLPKINSKPPSGKAHVTLEVSHGTERQLIALPAEKLDKNK
RYYVTFTVKGSEPPSDNDNSSPKTSKSPKSG