| New model in OGS2.0 | DPOGS212022 |
|---|---|
| Genomic Position | scaffold221:- 339505-362340 |
| See gene structure | |
| CDS Length | 4020 |
| Paired RNAseq reads | 5749 |
| Single RNAseq reads | 13858 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA010176 (0.0) |
| Best Drosophila hit | klarsicht, isoform B (1e-14) |
| Best Human hit | ND |
| Best NR hit (blastp) | PREDICTED: similar to klarsicht CG17046-PA [Apis mellifera] (8e-51) |
| Best NR hit (blastx) | klarsicht, isoform D [Drosophila melanogaster] (7e-30) |
| GeneOntology terms | GO:0007097 nuclear migration GO:0031887 lipid particle transport along microtubule GO:0042051 compound eye photoreceptor development GO:0001745 compound eye morphogenesis GO:0048471 perinuclear region of cytoplasm GO:0042623 ATPase activity, coupled GO:0007018 microtubule-based movement GO:0030286 dynein complex GO:0035239 tube morphogenesis GO:0016044 cellular membrane organization GO:0005635 nuclear envelope GO:0016021 integral to membrane GO:0003779 actin binding GO:0005811 lipid particle GO:0005515 protein binding GO:0035149 lumen formation, open tracheal system GO:0006869 lipid transport GO:0005737 cytoplasm GO:0005881 cytoplasmic microtubule |
| InterPro families | IPR012315 Klarsicht/ANC-1/syne-1 homology |
| Orthology group | MCL12631 |
Nucleotide sequence:
ATGGGACGCCCCGATGGGAACGAGCCTATCACACTTCAATCAAACGCCGATAAAGATGTA
TTACAAAGGGACGTGGAATGCCACCGTCGTATTGTCAGCTCGGTGGTGAGGCTCTGCGGT
GGAGCGGACGTGGCTCGAGCTCTAGAACGTCGCTGGCATCTGCTGTATCTGCGGGCCATC
GAGTGGCTCTGTCACCTGGAGGCCTGCATCGCTAAGAGTGATAATCAGAACTGCGCTTCA
ATAGAAGTAGCGAGTGATAGTGACGACGAGCCGGCTCTGAAGCAACCGCGGCTTACAAGA
CGTGGCTCACCAAGACGACAGAGGACACCTATTAATGTTATACGGAGGAGCAGCTCTGAA
GATAGCCGGCAGTCTGCTTCCGAGGAGGAACAGGAGTATGCAGTGACTTACACCTGGCGC
GGCTTCGGATCGGACTGTGAGACCGAGCTGGTGAGGGACAGAGACTGCGAAATGGACGAG
AGACGTGTTCCGACCGTGGACGAGGGAGAAGACAGACAGACGGATCAAACAGTTCCCGGC
GGAGATAATGTTGATGGTATCAGTGTACGCGAAACGGGGAGATTAGAAGATATACCAAGA
GAAATGAACACTCCACCTACAGTTGTCAAGAGAAAAAAACCAGTGAACACATCGAAATTC
AATCAATCTGATAGAAAATCTAAAAATTGTGCCACCTTCTACTTCAGACATCACGACACG
GATTCTGATCGACAGGTCGTTGAGACTGACGAGAAGTCGCAAGAGGAATCGTCGGAAGAG
GAATGGACTTACGTGGACGGTCCCAAAATAGCGAACGAAGATTCTACAGACTTAATGACG
TCATCCATTGAAATACAATGTGACTTACCAGTGGATGATAAGAAAGAAAAACTTCTATCC
CCGAAGAAATTGGAGTCCACAACGCCAGATCTTATAAGAGTCGATCAGAATTCAAGATGT
AAAGATTTAGAACGATTGGTCCTACAGGCTGAGGAATTGGTTCAGAAACAGGCACAGCAA
CAGATGGCTAAGAAGAAGAATACACGAAACTTGAAACCATTATCATTTGACGAGGAAGGC
AAGTCCAGCAGGGAGAAAATGTCAAGAATCAAGGAATGGTTGAATCAAAGTCCAGAAGAC
AAAAACGATAGCAATCAGTGCACTGAAAGCTACGATGCGTCCGGGGAATACACTACAGAG
AGCGAGGTCGATACATCACTGACGTCAGAAGAAAGAAACATTCATTCATCAATGGACATG
AGCACATCAACTTGTACTGTGACCCCGACGCATCACGCCAAGGTGACGCTGCGCAAGAAG
AGGAATGCCACGCGGCCGTGGTCTGTGTCGTGTCTGTCTCAGCTCAGTGCTGGCATTATA
GCCACGCCCACTGATGACGTCATTAACATGTCCATATCAGAGTCCGCACTGAACACACTG
GCATCGCCTAGAAGAGTCACACCTGGGAATTCCAGCTCTAAATTAAGAGGAAGCTCAACT
ACTGTACAGGGTCACATATCAAGCACAAATACTATGACAGAGGCTTGTACGTCGTGTGTG
GAGGCTAACGATAAACAATGTTGGTTGAGAAGGAAAAGGTTGAAACTGAAACGACAGAAC
AACACTAGAAGAGAGAGATTGGTTAAGAGTCTGTCGTTTTGTGGAAGGTTGAGTCCAGAA
ATTGAAGACAAAAACGAAAGAAGTGCGGCCAGTGACCCCGCCACTAGTAGGAAGAATAGA
TTCGATACAACATCAACTTCGGACAATGACAGCGACGCGGATCTTATCAAACAGCAGTTG
GCAACCATAGCAAATCTGAGGAAAAGCATCGAGAAAACACACATCTCAAGCAAAGAACAA
GACAGTGCCATCCCTGAGCAAAACGAAACAGAATTAGTCGGACCTAGCTTTAAACTGGGC
CCCGAAGGTGGAACCGTACGACCTAGGATGACCAAAAGTATGGAGAGAGAGAGAACGTTT
TTGGCACTTAGTCTAGGAGATCCCAGTCAAATGTGGGACCTCAGTGTTGATAAAGACTCT
GAGAGCATAACTGCTGGTACCGAAGGCCATAGTTCTTTTTCAGAACAGGCTTGGGATTTC
TATCAGGAGAAATACAACTCGGAACCGTATTCTGAAGCTCCGGATTCAGATGCAGCGAGA
CGGCTGTTGGAATTTGGGGATGACTATAGAGCATTCTTGGATTCCCAGTCTGATTGTTGT
TCTAGTCTGTCCGCACATCCCGACGACACGAGTCCGACAACGAGACGACGACGACCGCCA
TCCGACACACGGGAAAGAAGCCTGCCGAGATATAAACGTCCAACTAGAACATCCCCCGTA
GAAACACCATCACGCAAACCCAAGAAGTCCATGTCCAGCGCTGAACGGAAGAAAACACTA
TTGGACAGTCTGGAAAGATCCAGAAATAACACTAGCATTGAAAGCAACGAAGGGGTGCGA
CGAAGAAAACAGTCTGAGAACGAACGTAAGAACAGCAAACGCTCGCCCGACTTCGACCTC
CTCAACGTCCAAGCTCTAAGCCGCAGACGCCACAGCTCAAACTTAACTAGCGACGAAATT
AATAGTTCCCTGGAGTACACTGAGGTGAACAATCGACCGGATATCTTGGACTCGTTGAAT
AGACGTCGCAAGGAAAAAGAAGGAGGCACAGAGTTACAAAAGATCGCTCTGTCTGAACTA
CGACGACGGTCGACCGGCAGCGCTGATTCCGAGGGCGAATCCTCTTCACCCAAACACAGC
CGAAAAAATTGGGGTGATTCTGATTCAGAGGCCGATGAGGTCAAATCTCTCGTCCGACGT
TCGAGCACGCAGTTGGAGGTGACGGAGGCTTTACTGGCGCGACACGATTCATCGCCGGAT
ATCCTGCGGGCCTTCGACTATACGGAGGTGGTAACTCGTTGCCGCGACAACATCAACCTT
TTGGAGGTAGCTCTGTCTGAGGCGTCATTATCCCCAACCTTACAGAAAGAAATAAGAGCG
GTGTCGGCAAGATGGTCGGCTCTAAGGGCTGCTGCGATACGTCGCGGAGGCGCTCGCCGC
TTACGTCGCGAGATTGGAGCCCTAAAAGAGACTTTGGACGACATATGCGAGCCGGGAGAC
TATGCCCCCCAACCGCATACACGCGCACAACTACATAAGAGAATTGAGGAATTGAAGGAA
CGTCTATCGCGTCTGCTAGAATGTAAAGTCTCCATGTTGAAGCTGACAGTGTCAGTCAGG
AGAGCTCTTGGTGAGATGGAGACAGATGATAGCGGATTGACGACTGAATTGACTTCCTTG
ATAGCTGCATGGGATGACGCCCATCAACGAACTTCAACGGAGTTACTGTCATTGGAGAAG
GCGGTGTCAGCTTGGGCTGAATGGGAGCGTGCGCTGCGCGAACTGCAGGCAGCACTGCGT
GGAGACCTGGCAGCTTTAGAAGCGCTGCGTGATCGACCCGATTGTGATGAACTCGCCTCC
CACGTTAGACATCTAGCCGCTGCACTGTTTGATAAGAAAAAGGGCGGTTCCACGTGTGAC
TCTCTATCGGACTCGGGTATATCTGATGGCGACAGTGAAGGTGCCGGACGTGCGCGTCGT
CTGACCGCTCTGAGGGAATTGGCGCGACGTCTACAAGCAGTGCTCGCTCCAAACTCACCC
GCACATAGAGCTATAGCTAAGCGCATGGAACAAACAGAAAATGAAGTTAAAATTTTGCAA
GAATCCTGCCGCGCCTTGGTCGAACAGAGTATACCAGATCTAAAAATTGACGAAGTGACG
CGTGATCACACCATCGCTGTTTCAAGTAAGAAGACGGGTGCTGGCGATCCCGATTACAAT
CCACGCAGCGGCTGGGTGTGGCGTGTACTTCGTTCTTCTATCCCTATACAATTGTGTCTG
GTTGCATTACTCCTAGCTGCGTGGCTGGTCGAGCGACCGCGGTGCTGCGATGCCTTGAAT
TCGCTCGCTCAAACCCTAACGCCACAGTTACGTTACGTCCGTGGCCCGCCCCCAGTGTGA
Protein sequence:
MGRPDGNEPITLQSNADKDVLQRDVECHRRIVSSVVRLCGGADVARALERRWHLLYLRAI
EWLCHLEACIAKSDNQNCASIEVASDSDDEPALKQPRLTRRGSPRRQRTPINVIRRSSSE
DSRQSASEEEQEYAVTYTWRGFGSDCETELVRDRDCEMDERRVPTVDEGEDRQTDQTVPG
GDNVDGISVRETGRLEDIPREMNTPPTVVKRKKPVNTSKFNQSDRKSKNCATFYFRHHDT
DSDRQVVETDEKSQEESSEEEWTYVDGPKIANEDSTDLMTSSIEIQCDLPVDDKKEKLLS
PKKLESTTPDLIRVDQNSRCKDLERLVLQAEELVQKQAQQQMAKKKNTRNLKPLSFDEEG
KSSREKMSRIKEWLNQSPEDKNDSNQCTESYDASGEYTTESEVDTSLTSEERNIHSSMDM
STSTCTVTPTHHAKVTLRKKRNATRPWSVSCLSQLSAGIIATPTDDVINMSISESALNTL
ASPRRVTPGNSSSKLRGSSTTVQGHISSTNTMTEACTSCVEANDKQCWLRRKRLKLKRQN
NTRRERLVKSLSFCGRLSPEIEDKNERSAASDPATSRKNRFDTTSTSDNDSDADLIKQQL
ATIANLRKSIEKTHISSKEQDSAIPEQNETELVGPSFKLGPEGGTVRPRMTKSMERERTF
LALSLGDPSQMWDLSVDKDSESITAGTEGHSSFSEQAWDFYQEKYNSEPYSEAPDSDAAR
RLLEFGDDYRAFLDSQSDCCSSLSAHPDDTSPTTRRRRPPSDTRERSLPRYKRPTRTSPV
ETPSRKPKKSMSSAERKKTLLDSLERSRNNTSIESNEGVRRRKQSENERKNSKRSPDFDL
LNVQALSRRRHSSNLTSDEINSSLEYTEVNNRPDILDSLNRRRKEKEGGTELQKIALSEL
RRRSTGSADSEGESSSPKHSRKNWGDSDSEADEVKSLVRRSSTQLEVTEALLARHDSSPD
ILRAFDYTEVVTRCRDNINLLEVALSEASLSPTLQKEIRAVSARWSALRAAAIRRGGARR
LRREIGALKETLDDICEPGDYAPQPHTRAQLHKRIEELKERLSRLLECKVSMLKLTVSVR
RALGEMETDDSGLTTELTSLIAAWDDAHQRTSTELLSLEKAVSAWAEWERALRELQAALR
GDLAALEALRDRPDCDELASHVRHLAAALFDKKKGGSTCDSLSDSGISDGDSEGAGRARR
LTALRELARRLQAVLAPNSPAHRAIAKRMEQTENEVKILQESCRALVEQSIPDLKIDEVT
RDHTIAVSSKKTGAGDPDYNPRSGWVWRVLRSSIPIQLCLVALLLAAWLVERPRCCDALN
SLAQTLTPQLRYVRGPPPV