| New model in OGS2.0 | DPOGS208539 |
|---|---|
| Genomic Position | scaffold28:- 348215-355550 |
| See gene structure | |
| CDS Length | 2700 |
| Paired RNAseq reads | 689 |
| Single RNAseq reads | 1675 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA010602 (3e-21) |
| Best Drosophila hit | CG17840 (4e-179) |
| Best Human hit | polyphosphoinositide phosphatase (0.0) |
| Best NR hit (blastp) | PREDICTED: similar to SAC domain-containing protein 3 [Apis mellifera] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to SAC domain-containing protein 3 [Apis mellifera] (0.0) |
| GeneOntology terms | GO:0007626 locomotory behavior GO:0030384 phosphoinositide metabolic process GO:0017120 polyphosphoinositide phosphatase activity GO:0005783 endoplasmic reticulum GO:0007033 vacuole organization GO:0048666 neuron development GO:0055037 recycling endosome GO:0016020 membrane GO:0005515 protein binding GO:0010008 endosome membrane GO:0005794 Golgi apparatus GO:0008219 cell death GO:0010976 positive regulation of neuron projection development GO:0043473 pigmentation GO:0016787 hydrolase activity |
| InterPro families | IPR002013 Synaptojanin, N-terminal |
| Orthology group | MCL14560 |
Nucleotide sequence:
ATGTCGCAACAGAATCTATTGTTTCATCCAATAATTAGTTCTATTCAACGAATAGCTCTT
TATGAAACTAAAACGCGATTTTATCTTATAGGCTCCAATAACACACAGACCAGATTCCGC
GTCCTCAAAATAGATCGAACCGTTTCGAAGGAGTTGGTTCTCGTTGATGATAAGGTGGAG
TACAATAAGCAGGAAATCCATCATCTATTAAACATGATCGGCTTTGGCAACAGGAGTGGC
AGATCTTCTGGTTTTAATAAGCTTGTTTCTGCTTTTGGAATAGTAGGTTTTATAAGGTTT
TTGGAGGGATACTATATTATATTAGTGACAAAAAGAGGTAAAATTGCTGTGATAGGATCA
CATTCCATATACAAAATAGAGGACACTGCCATGATATATATACCAAATGATAGCAGTAGG
CCCCTGCATCCAGATGAGCAAAGATATGTCAAGATGTTCTTAGCAATAGATCTATCTACT
AACTTCTACTACAGTTATAGTTATGACGTCACACATACATTACAAATGAATATGGCACCT
CCAAGGAAGCTGGCCCCAGCTCTATTTCCCAAGCCTGTAACAGCGGCTGTGTATCAGTCA
AATTTAAATAGTAATAAGGAATGCACATGTAATAAGAAAAAAGATGATGAAGATATTTTC
GAGACTTGGAAGGCACAGTTGGAGGAAAGACAAAATAAACCGGGTCAAAAGAAGAAATTG
GAATTTGGTGTCAGAACAGTACCTGAATGGCGATTTGTATGGAACAGCCATCTTCTCTCC
GTAGTGCACTCACAATTACACCCAGATTGGATTCTATATATAGTTCACGGATTCATTGAA
CAGAGTAATTTGAATATATTTGGTCGACCAATATATTTGACACTCATCGCCAGGAGGAGC
AATAGGTATGCGGGAACAAGATTCCTGAAGCGAGGTGCCAACATGCATGGTGATGTTGCT
AATGAAGTAGAAACAGAACAGATTGTGTATGATGCTATGATAAGAAGCAAAAGTCGACCG
TCCATCATATTCAGTTCGTTTGTACAGATGAGAGGATCTATACCCAGTTTCTGGTCTCAG
GATATATCAAAGATGGTCCCAAAACCGGCCATCATGATAGACCGCAGCGACCCATACGCT
GAGATTCCAGCGAAACATATAAACAATTTGATGCAGAGGTACGGTTCACCGATCATGATC
TTAAATCTGGTGAAGAAGAGAGAGAAGAAAAAACATGAATCCCTATTGACGGATGTCATC
AGTAATGCTGTTAAATACCTCAACCAGTTCCTGCCACCCGATAAACTGATACAGTATTTC
CATTTGGATATGGCAAGGATGAACAAAGGCGCTGATGCGAAGGTGCTTGATAAATTATCG
GCGATAGCGCGTACGGTAGTCCGACGGACGGGTATATTCCTGAGTTGCAAGAGTTACGGT
GAGGAGATGGGGGTCGAAGGTCATCAGAAGGGTCGCCTCCAGACCGGCCTCGTCAGGGTC
AACTGTGTAGATTGTCTCGATAGAACCAACACGGCGCAGTTCGCCATTGGCAAGTGCGTC
TTGGCGCATCAGTTACACGCTTTGGGATTGATCCAAGAGCCTGTGATAGAGTTTGATTCC
GACTGCGTCCGTCTTTTAGAAGGTCTTTACGAGGACCACGGCGACACGTTAGCGTTGCAG
TATGGAGGCTCGCAGCTGGTGCACAGAATTAAAACGTATAGAAAAACAGCGCCCTGGTCC
TCTCACGGCAACGACATAATGCAGACTTTGAGTCGCTATTACTCAAACACCTTCTCGGAC
GCTGAGAAGCAGAACACCATGAACCTGTTCCTGGGGTTGTTTCTGCCGGAGCCCAACAAG
CCGGCGATATGGGAATACCCCACGGACTACTACCTGCACCATCCTGAAACCGTGGTCTAT
ATACCCAATAGACGATCTCTTACGAAGTGGTGGGATGACGAAGTGCTGCACTATTTGCCG
CGTCCGACCAATGAGATGAGGAAGCTGTGCTGTGAGATCATCGGCCTTCAGGGAGACGCG
CTCGAGATGGTCGACCCCTACCACGAGTACACCAGGCCGTTCGAGTACACCGTATTCGAG
GGTTGCTTCGAGTTTAAGATGTATCACACACTCCGAGACCTGGCTCCAGGTGGATCGGAG
AGCCTTAGCCCGTTCGTGGTACGAGGGCGAGGCGTTAAAGGACCCAGCTCCAAAAATCCT
GTCATCAGCGGACGATCTAGCACCACATCTAATAACTCCAGCGATTCAAACAGCGACTCA
ACATCGGACGACGATCTCACTTGGAGTCCAAGTTCCCGTCAGACGGTCACGTCACCCGTC
ACGAGGATCGTCAAACTCCTGGAGGCGGGTGATGTGGATGAAGAGCCTCCCTTGTTCCCA
GCCATCAAGAGACACACGAGGGTACAGGTCAACGAACCCTGCAAACGTGATATGATGCTA
TACAAGCGCTACGTAAATTTCGAGCGTCGCTCAAACCCCAAGTACAAGCTGGACATACCG
GTCGTGATGACTGTGTCGAGCGCCTTCACCATCGACAGCTCCGTGGACGTCATACCTCCG
ACCGTATCCCGCGGCGACAGGCTCGTCTACCAGGAGTATGTACGGAGGACCACCGGGGAC
ATACACGTGCCGCAGAACTCACAGGAGCTATACAAGAAATATGTCAACTTTACTGTCTGA
Protein sequence:
MSQQNLLFHPIISSIQRIALYETKTRFYLIGSNNTQTRFRVLKIDRTVSKELVLVDDKVE
YNKQEIHHLLNMIGFGNRSGRSSGFNKLVSAFGIVGFIRFLEGYYIILVTKRGKIAVIGS
HSIYKIEDTAMIYIPNDSSRPLHPDEQRYVKMFLAIDLSTNFYYSYSYDVTHTLQMNMAP
PRKLAPALFPKPVTAAVYQSNLNSNKECTCNKKKDDEDIFETWKAQLEERQNKPGQKKKL
EFGVRTVPEWRFVWNSHLLSVVHSQLHPDWILYIVHGFIEQSNLNIFGRPIYLTLIARRS
NRYAGTRFLKRGANMHGDVANEVETEQIVYDAMIRSKSRPSIIFSSFVQMRGSIPSFWSQ
DISKMVPKPAIMIDRSDPYAEIPAKHINNLMQRYGSPIMILNLVKKREKKKHESLLTDVI
SNAVKYLNQFLPPDKLIQYFHLDMARMNKGADAKVLDKLSAIARTVVRRTGIFLSCKSYG
EEMGVEGHQKGRLQTGLVRVNCVDCLDRTNTAQFAIGKCVLAHQLHALGLIQEPVIEFDS
DCVRLLEGLYEDHGDTLALQYGGSQLVHRIKTYRKTAPWSSHGNDIMQTLSRYYSNTFSD
AEKQNTMNLFLGLFLPEPNKPAIWEYPTDYYLHHPETVVYIPNRRSLTKWWDDEVLHYLP
RPTNEMRKLCCEIIGLQGDALEMVDPYHEYTRPFEYTVFEGCFEFKMYHTLRDLAPGGSE
SLSPFVVRGRGVKGPSSKNPVISGRSSTTSNNSSDSNSDSTSDDDLTWSPSSRQTVTSPV
TRIVKLLEAGDVDEEPPLFPAIKRHTRVQVNEPCKRDMMLYKRYVNFERRSNPKYKLDIP
VVMTVSSAFTIDSSVDVIPPTVSRGDRLVYQEYVRRTTGDIHVPQNSQELYKKYVNFTV