New model in OGS2.0 | DPOGS203253  |
---|---|
Genomic Position | scaffold1201:+ 45518-55982 |
See gene structure | |
CDS Length | 4299 |
Paired RNAseq reads   | 2689 |
Single RNAseq reads   | 7338 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA007035 (0.0) |
Best Drosophila hit   | hepatocyte growth factor regulated tyrosine kinase substrate, isoform B (3e-77) |
Best Human hit | hepatocyte growth factor-regulated tyrosine kinase substrate (8e-76) |
Best NR hit (blastp)   | PREDICTED: similar to Hepatocyte growth factor regulated tyrosine kinase substrate CG2903-PC, isoform C [Apis mellifera] (2e-97) |
Best NR hit (blastx)   | PREDICTED: similar to Hepatocyte growth factor regulated tyrosine kinase substrate CG2903-PC, isoform C [Apis mellifera] (9e-90) |
GeneOntology terms    | GO:0005770 late endosome GO:0005737 cytoplasm GO:0008333 endosome to lysosome transport GO:0005769 early endosome GO:0007269 neurotransmitter secretion GO:0016082 synaptic vesicle priming GO:0008021 synaptic vesicle GO:0016079 synaptic vesicle exocytosis GO:0006887 exocytosis GO:0008293 torso signaling pathway GO:0016197 endosome transport GO:0042059 negative regulation of epidermal growth factor receptor signaling pathway GO:0005768 endosome GO:0005515 protein binding GO:0006897 endocytosis GO:0016050 vesicle organization GO:0008270 zinc ion binding GO:0006886 intracellular protein transport GO:0007298 border follicle cell migration |
InterPro families    | IPR008942 ENTH/VHS IPR011011 Zinc finger, FYVE/PHD-type IPR018205 VHS subgroup IPR000306 Zinc finger, FYVE-type IPR002014 VHS IPR009675 Xklp2 targeting protein IPR022021 Cell cycle regulated microtubule associated protein IPR013083 Zinc finger, RING/FYVE/PHD-type IPR017455 Zinc finger, FYVE-related IPR003903 Ubiquitin interacting motif |
Orthology group | MCL14083 |
Nucleotide sequence:
ATGTTTCGAGCTAATAACTTTGATAAATTATTAGATAAAGCGACAAGTAATCTACGCTTG
GACCCCGATTGGCCCTCTATCTTACAAATATGCGATCTAATTAGACAGAATGACTGTTCA
CCAAAATATGCAGTGGCTGCTGTTAAGAAGAAGTTGTATTCACAGAACCCCTACCAAGCT
ATGTTTGCACTTTTGACTCTTGAGAGTATTGTTAAAAATTGTGGATCTGGAGTTCATGAT
GAAGTCGCATCGAAGGCGTTCTGTGAAATGCTCCGTGATCTCGTTAAAACAACCCAACAT
GAGAACTTGAAAACCAAGATATTGGAATTAATACAAGCTTGGGCATTTGCTTTCCGGAAC
TCACCAAAATATAGAGCTGTACAGGACACTGTGAATATACTGAAAGCTGAAGGTCATAAG
TTTCCACCGCAAAAAGAATCTGATGCAATGTTTTCTGCGGATACAGCACCAGAATGGGCT
GATGGTGAAGTTTGTCACAGGTGCAGAGTAGCATTTTCTCTTATGGTTCGTCGACATCAT
TGTCGTGCTTGTGGTCAAGTGTTTTGTCAGCAATGTAGCTCCAAGACATCAACATTGCCG
AAGTTTGGCATTGAGAAAGAAGTCCGAGTGTGTGAGGCTTGTTATGATAAAGTAAGCCGT
CCACCATCTTCAACAGCAAAGTTGGAAATTGTAGATACTTCTAGTGACTATGGACCAGCC
CAACCCCAATATTTCATTGAGTTTACCATGTCTAAAAATTTTATAACAAGATATCGAGGT
GAAATTTACAATACACCTACTGGAAAATTATATATCAAAGATGAACCAATCTCACCAACT
GAAGAAGATTTTGGTGTTCACTATAACTTGGACTATCCCATAGAAGACAACTATGCTATG
AAAAAATCACTTTCTATGAACGACATAGCTTCGCTCAGAGAAGATTTTTTAAAACTTGAG
GTTACTAGTAACCAGGATGATATGTATTCTAGATACAAGAAACATTGTGAAACCCAAATG
CTATCAAAAACAAAGTTTGTTTCCGTGGCCGAAGCAATATATCACTATCAGAGAGATACA
CCAGACAGGTTTCACTCATCCAGACCTCGCATATTCCGTCCTCAACGTAACACGGGACAC
ACTGGACTGACTGTGCCCCAATCACCAATGTTAAGATGTAAGGCTCGTTCTCGCCCTCAA
CATGTACTCTCACAGAAAGAAAAGGAAGAAATGGAACTTCAAGAAATTAAGAAATTTAAA
ATAAAGGCTAATCCTATTCCCAAAAGTGTAATTGAAGGCCCTAAGCATCTTCCAGAAGTG
TCTAAGAAGCCTATCACAGTTCCAGAACCCTTTAATCTGACTGAAATACAAAAGAAGGTC
GCTCAGTCCTCTGACCATGTTCAAAATTTCAAGGCAAGACCTGCACCTAAACATATTCTA
GAGAAACCACATATCCCTACTAAGCCACCATCATCTTTAACAAAACCGGTTAGCCCCAAA
TTTCATTACAAGCGAGCAAATTCCGCCGATCACATCAAAAATGATATTAAAATTAGTAAT
CCACCTGTTAATGCCAAAAAGGCAGAAAAGTGTGAAAAAACTGTACAACGTCTTGGTCCT
GTGAAACCTGAACCATTTTCGTTTGAGAAGAGAGATGAAGAATTAAAGAGGAAGAGAGAA
GAACGCATCAAGCAGCAGATGGAGGAGGAACGGAGGCTTGCAACTCAATTCAAGGCCCAG
CCGTTGCCAGCGGCTGTGAAGAAAAGGATGCAGAATGTTCATTCTAGTCATCCATCAGAT
GCCTCATCTGAAAACAAAGAAAACCAAACCCATGCAAAATTTGAAGCAAAACCTCCAGTT
GTTCTCTACAAGGAGCCTTTCAAACCGGTACTTAAACCAGTCCAACTGAAAAAACCGATG
CCATTCGATTTAACAACAACAAAGAGAGCTGCTGAAAGAGAACTGTTTGAAAAGCAATTG
AAAGAGAAAGAAGAGGAAAATGAAAGATTGAGACTTCAAAAGGAAAGAGAAAAACAAGAG
GCTGAGGAACGAGCTATAGCTGAATTAAGAGCGAAGCTGGTACATCACGCCAAACCAGTG
CCAGCATTACACCCATTCATTCCTGGAAAGTCTGATGCACCTATAACAGTTCCAGAAACA
CCTAAATTTAAACGACCTGGCAAGTCAGCTGAGGAGTTGCAGGAAGAAGAGGAGTTGCAA
CTAGCCCTGGCCCTCAGTCAGTCTGAAGCTGAACATAAGGAGAAGGAACGCAAGTCAAGA
TCTTACATCGCACCAGAACAAACACTACATCCTACCATTTCTCCTACTCCCTCGTCTGTG
AGTGCGTCCCCTGAACACAGTACGGCTAACTCGGAACTGTCCCGCTACTTGGACAGGAAT
TACTGGGAACAAAGACTGTCAAGGGATCCTGCTGCACCTACAGCTCCCTCCTCGCACGCC
ACCAATGAAACTCCTGATCAAGATTTCACAAAACCTTCCACTAGTAAGGGACAAGAAGAT
GAAGCAGAGGATAAAGAGATTGACGAATTTGTCGAATCACTCAAATCACAAGTGGAGATA
TTTGTTAATAGAATGAAGAGTAACTCGTCACGTGGTCGTTCAATCGCCAATGACACGTCT
GTGCAAACATTGTTTATGAATATAACAGCGATGCACTCGAAGTTGCTGAAATATATTCAA
CAGCAGGATGATAAACGAGTTTATTTAGAGAGTTTGCAGGATAAGATCAGTCAGGTGCGT
GATAGTAGAGCTGCTCTTGATACTCTTCGGGCAGAGCACGCGGCTAGACTTGCCCAGGCG
GCTGAGGCTGCTGAGAGACAGAGACAAATGCAAATGGCCGCCAAGTTACAGGCAATGAGG
AAAAAGAAACACGAGTACTTGCAGTACCAAAGACAGTTGGCACTGCAAAGAGTTCAGGAA
CAAGAAAGGGAAATGCAAATGAGACAAGAGCAGCAAAAGCATCAGTATATGATGTCAGCC
AACAGTGGTTTTTACATGCCTGGTGTTTCGATGCATCAATTCCAGCCTGGTTATCCCAAC
CAACCAATGTACGCCAGTTCTCAATTCCATCCACAAATGATGTCCCAAGCAACAACCGAT
GGTTCCATGCCTTTACCTGGACAACCACAAATGTCACAAGCTAATATACCCGTGAATGTG
AATCAGATGCCAATGTCCCAATCTATGCCACCCATGACAAATACTTTTGCTATGTCCACA
TCCGGTATGGGAATTAGCCAACCTGGTGGTCAATCTGCAATGAACCAATCTAATGTAAGG
CCAGTAATCAGCCAGCAATTACCTATTCAACAGCAAATGATGATGCAGCAAATGCAACAA
ATGAGAATGCCAAACCAACCAGGTGTGCATCAAATGATGCAGCAAAATGGCCATCCTCCC
CAAAATATACAAACACAGAATCAACAGTCCTCTCAGCAAATTCAGAAACAAAATGTCCCG
AATCAACCTCCCAGCTCTATGATGCCTCCAATGGCAATAGGTCAAGCAAACATAAATCAA
CCTAATCCTAGTAACCCAATGTTTGGGATGCAAATGCCAAATATGAGAATGTCAATGATG
TCGGCCAATCCACCCAGTAATAACCAACAAGTCCCAGTTCCTGGATATCCAATGCATGTA
CAAAACCCGCAAAATAATCAACCAACTGGGACTCAAATGTCTAATGTGCCTCAAATGCCA
TTACTAGGCCAACAATTACCAATGCCAAATCAGCATATAATACAAGGGCAGCCCATTCAA
GTTGGTCAACCTCAAGTACAACAAATGCCACATCAACCACAAATGCACCAAAGTCAGTCA
TTACCACAAGGGGGCCAATCTCAGGGACCACAAATGCCACACCAACCACAAATGACCCAA
AGCCAAACGTTACCAATGCAAGGTCATCCCTCACAAACACAACCACAACAAAATATGATG
ATGCAGCATCCAGGTCAACCTTTGCAACAAGGTCAACAGATCTCTCAGACCAACACACAA
GCTATGAACCAAGGCCAACAAATACCGAACCAGATGCCAGCTAATATGCCACAAATGATG
CAAGGTGCTATGCAACATAGTTCACAAATGCAGGTTCCCACAATGTCTAATCAGGGTCAG
CAACCAGTACAACAGAATATGCAAGGTCAAACCATGAAGCAACCATCTTTCGGTAACGGC
CCTCCAAACCAACAGCCTGTCAACAACCAACAGCAAGCCCAAACCCCATTAAAGTCTGAA
CATAACAATAACACTGCAGAGTTGATAAGTTTTGACTGA
Protein sequence:
MFRANNFDKLLDKATSNLRLDPDWPSILQICDLIRQNDCSPKYAVAAVKKKLYSQNPYQA
MFALLTLESIVKNCGSGVHDEVASKAFCEMLRDLVKTTQHENLKTKILELIQAWAFAFRN
SPKYRAVQDTVNILKAEGHKFPPQKESDAMFSADTAPEWADGEVCHRCRVAFSLMVRRHH
CRACGQVFCQQCSSKTSTLPKFGIEKEVRVCEACYDKVSRPPSSTAKLEIVDTSSDYGPA
QPQYFIEFTMSKNFITRYRGEIYNTPTGKLYIKDEPISPTEEDFGVHYNLDYPIEDNYAM
KKSLSMNDIASLREDFLKLEVTSNQDDMYSRYKKHCETQMLSKTKFVSVAEAIYHYQRDT
PDRFHSSRPRIFRPQRNTGHTGLTVPQSPMLRCKARSRPQHVLSQKEKEEMELQEIKKFK
IKANPIPKSVIEGPKHLPEVSKKPITVPEPFNLTEIQKKVAQSSDHVQNFKARPAPKHIL
EKPHIPTKPPSSLTKPVSPKFHYKRANSADHIKNDIKISNPPVNAKKAEKCEKTVQRLGP
VKPEPFSFEKRDEELKRKREERIKQQMEEERRLATQFKAQPLPAAVKKRMQNVHSSHPSD
ASSENKENQTHAKFEAKPPVVLYKEPFKPVLKPVQLKKPMPFDLTTTKRAAERELFEKQL
KEKEEENERLRLQKEREKQEAEERAIAELRAKLVHHAKPVPALHPFIPGKSDAPITVPET
PKFKRPGKSAEELQEEEELQLALALSQSEAEHKEKERKSRSYIAPEQTLHPTISPTPSSV
SASPEHSTANSELSRYLDRNYWEQRLSRDPAAPTAPSSHATNETPDQDFTKPSTSKGQED
EAEDKEIDEFVESLKSQVEIFVNRMKSNSSRGRSIANDTSVQTLFMNITAMHSKLLKYIQ
QQDDKRVYLESLQDKISQVRDSRAALDTLRAEHAARLAQAAEAAERQRQMQMAAKLQAMR
KKKHEYLQYQRQLALQRVQEQEREMQMRQEQQKHQYMMSANSGFYMPGVSMHQFQPGYPN
QPMYASSQFHPQMMSQATTDGSMPLPGQPQMSQANIPVNVNQMPMSQSMPPMTNTFAMST
SGMGISQPGGQSAMNQSNVRPVISQQLPIQQQMMMQQMQQMRMPNQPGVHQMMQQNGHPP
QNIQTQNQQSSQQIQKQNVPNQPPSSMMPPMAIGQANINQPNPSNPMFGMQMPNMRMSMM
SANPPSNNQQVPVPGYPMHVQNPQNNQPTGTQMSNVPQMPLLGQQLPMPNQHIIQGQPIQ
VGQPQVQQMPHQPQMHQSQSLPQGGQSQGPQMPHQPQMTQSQTLPMQGHPSQTQPQQNMM
MQHPGQPLQQGQQISQTNTQAMNQGQQIPNQMPANMPQMMQGAMQHSSQMQVPTMSNQGQ
QPVQQNMQGQTMKQPSFGNGPPNQQPVNNQQQAQTPLKSEHNNNTAELISFD