New model in OGS2.0 | DPOGS207355  |
---|---|
Genomic Position | scaffold1618:- 46805-51055 |
See gene structure | |
CDS Length | 2766 |
Paired RNAseq reads   | 1348 |
Single RNAseq reads   | 3487 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA010280 (0.0) |
Best Drosophila hit   | polychaetoid, isoform A (1e-38) |
Best Human hit | tight junction protein ZO-1 isoform a (6e-12) |
Best NR hit (blastp)   | GF17278 [Drosophila ananassae] (8e-56) |
Best NR hit (blastx)   | tight junction protein [Culex quinquefasciatus] (4e-59) |
GeneOntology terms    | GO:0004385 guanylate kinase activity GO:0007254 JNK cascade GO:0007391 dorsal closure GO:0005912 adherens junction GO:0046328 regulation of JNK cascade GO:0007163 establishment or maintenance of cell polarity GO:0005515 protein binding GO:0016337 cell-cell adhesion GO:0035147 branch fusion, open tracheal system GO:0005913 cell-cell adherens junction GO:0035156 fusion cell fate specification |
InterPro families   | IPR000906 ZU5 |
Orthology group | MCL40520 |
Nucleotide sequence:
TACCTTCCAGATTTAGCTGGCAGTAGAGAACAGCGCGGATCAGCCTTCGAGTTGTATAGG
AAGCCACAGCACATGCACAATCTGAGCTCCGACGTCATGAACTCCAGCGTGGAGGCGGAC
GAGAATTTCTCACCAAAAACTAAAAAGAAACTATCTAAAAAGCCATCGTTCATAAAAAAT
GCCGTCCTCGATCTGTTCAGATCAAAAACGAAAAATTCACAGAAAGTATCGCGACAGAAA
TCGTTGTGCGAAAGCGATTTGCAACAGAGATACGCCCAACAGATGCCGGCGTTGAGACGG
GAGAAGTCCGATCTCAGTGATCTGAACACACACATGAGGAACACGCATATCAGGAACCAA
ATGTTGCAACGCAGCAACTCCTCGTCATGCGAAAAACCGAATCTAAAGCCGATACTCAAG
AGACAGAGCTCGTTCTGTGACGACAGGAACGGTTCGATATGTACCGTCAGAGATTACGAA
ACGAAACCCGTGTCTAGGAACTTGATACGACAGAACTCCATGTGCGAAATGGAAACCGAA
CCTAAAGTTACCCCCTTACTACGTAGACAGAACTCACTCATAGAATATAGTAGGAGAGGA
GTCTACCCACCTACCCCTAACTTTAATATGATCACCAAAATAGATCCCATTTACCAAAGA
CAACAGCAAATTAAACATGAACCTTTCTACCCAACTCAACCGCTACCTCCAGAGCCAATA
TACCAAAGCAAAGAACATATTGTATACGATCCTATCCCTAAGCCCAGGAGAACATATACT
TCTCTTTACGATACCTCCAGCGAGAACCCTTACGCGAGTAGATCAGAAATTTCAAATCAA
AGTTTCGAAAGCCCTTACGGCAATCGTGAAACTGTAGCAATGCCTCTACTAGATCCTCCC
TATGCTACAAGAGCAGAATGCATGAGGGAAAGTAATTATGGTACTAGAAACGAAATGCCC
GAAAATCCATACTCCCTGAAACAAGACGCGCCAAGAAAACCCGAATCACTCTATAGCGAA
TTGCCTTATGTGAGCAAAGAGCAGATGTTGAGACAAAGGATGACGCCTGAAAGTCCCTAT
GCCACTAAAGAGGATATGCTGAGACAAAGATTCTCAGAATCCCCGTACAGTCCAAAAGAC
GAAATGATTAAACAAAGAATGGATGGCTCGTTAACATGTAAAGAACCGATTTATGGTAAA
AGAACATACGAGCCACCACCAGGCACGTCCTGGTCTGAAACTAATACGTATGGCGTACGG
CCAGACAGACGGCTGCAAACACCAGTAAACTTCATAGGAAGAATATCGCCTATGAGCAAA
TGTATGAGTGAACCTCCGTATGTGAGTAGAACAGAAATGATGGCGCGAATCGCCCAGACA
GAATCTCCATACTCAACCCGATCGGAACTGAAATCGAGTTGCTCGGATAACAGTTACAAC
AGGAACGACAGTCTCGATCACTCCTCAAACGTGAGGCCGGCTTCCGCGGAGTGTACATAC
GTTACCAAACAAGAAATACTATCACAAAAGGCAGCTTTACTGGCCAACAAAGAACCCATT
TACGGTAGTAAGTTAGAGGAAAAGTTAGAAATCATAAAGCAAAGAAATCAAGCTAAAAAA
GAAAAAATATATCAAACCAGACTCGAAACGAACGACAGTGACTCAATCAAAAGCAGAGAG
CCGTTGTACGTTTCTAAGAGGGAATTAAAAGATAGTGTCATATATGAGTCTAACCAGGAA
GCGAAAGAGGTACAGCCAGTCAGTCAGGAAGGCAGCGCTAGAAGCAGTCCTTACGAACTG
AGTGACGCGAATCACCTGTCACGACGAGACTCGCTGTACCAAACGAAAGCAGAGGCATTG
GACAGTGAAGTGGAAAAGTTCCAAGAAATCGATTTTTCAAAACTGAGATTAACAGAATCC
AAAACCGATGCAGAAAAAGAAAAAACAAAGAATTTAGAGAACAATATATTAAAAGGCGAA
CCGCAGTACGCGCCAAGATTGCACGGAAAGACCGATCATATATCGAACGCACTGAAAGTA
ACCACATCCCCAACTCCCTACGATTCGACAACCTCAATGGAAACACATTACGCGTCCGAG
TGCAGTATGAACTTCGAGAACAAGCCACAGAGCACGCCGTACACGTCACAAGATTTACAA
GATAAATCGAAAGCTAACCGAACAGTGACTTTTTGTGAACAAATATTAGAAAAGAGTCCA
GAGACTAGCGAGGATAAATCCGAAAACACGACCGTTGGAAACGAAACCACAGTCATCAGC
AATGACAGTACAGTCATCAAGACTGAAGCGGGAGAGGCTGATGACTCCGCCAATAAGACG
GAAGTGGAACCAGACGGTCCCCATACCACTTGGGGTATATTCGACAGTGAGGGCGGAGTT
CTAGAGGACAGGCATTGGGGTGTCTCACTGATTATCCCGCCAAAAGCCATCGCACCGGGC
ATCAAGCAAAAGATCTATTTTACCGTGTCAGACCCTCGACTGAGCCAGCGGGTTGGTGGA
CCCCCCATCGACCTCGATAACGGTGAAGCGATGCTGTCCCCACTAGTGATGTGCGGTCCG
CAGGGTCTGGTATTCTTAAAACCGGTGACGTTACGATTGCCGCACTGCGCTAACGCGGTC
CCATCACTAGGACTCACAATCAAGGCGACAGACACGGAGGCACACTTGAGCACGGACTGG
GATCAGATACATCTCCCAGCGACTACAACACTCAACACCGTCGCTGTCAAAGTAGATCAT
TTTTAA
Protein sequence:
YLPDLAGSREQRGSAFELYRKPQHMHNLSSDVMNSSVEADENFSPKTKKKLSKKPSFIKN
AVLDLFRSKTKNSQKVSRQKSLCESDLQQRYAQQMPALRREKSDLSDLNTHMRNTHIRNQ
MLQRSNSSSCEKPNLKPILKRQSSFCDDRNGSICTVRDYETKPVSRNLIRQNSMCEMETE
PKVTPLLRRQNSLIEYSRRGVYPPTPNFNMITKIDPIYQRQQQIKHEPFYPTQPLPPEPI
YQSKEHIVYDPIPKPRRTYTSLYDTSSENPYASRSEISNQSFESPYGNRETVAMPLLDPP
YATRAECMRESNYGTRNEMPENPYSLKQDAPRKPESLYSELPYVSKEQMLRQRMTPESPY
ATKEDMLRQRFSESPYSPKDEMIKQRMDGSLTCKEPIYGKRTYEPPPGTSWSETNTYGVR
PDRRLQTPVNFIGRISPMSKCMSEPPYVSRTEMMARIAQTESPYSTRSELKSSCSDNSYN
RNDSLDHSSNVRPASAECTYVTKQEILSQKAALLANKEPIYGSKLEEKLEIIKQRNQAKK
EKIYQTRLETNDSDSIKSREPLYVSKRELKDSVIYESNQEAKEVQPVSQEGSARSSPYEL
SDANHLSRRDSLYQTKAEALDSEVEKFQEIDFSKLRLTESKTDAEKEKTKNLENNILKGE
PQYAPRLHGKTDHISNALKVTTSPTPYDSTTSMETHYASECSMNFENKPQSTPYTSQDLQ
DKSKANRTVTFCEQILEKSPETSEDKSENTTVGNETTVISNDSTVIKTEAGEADDSANKT
EVEPDGPHTTWGIFDSEGGVLEDRHWGVSLIIPPKAIAPGIKQKIYFTVSDPRLSQRVGG
PPIDLDNGEAMLSPLVMCGPQGLVFLKPVTLRLPHCANAVPSLGLTIKATDTEAHLSTDW
DQIHLPATTTLNTVAVKVDHF