| New model in OGS2.0 | DPOGS208726 |
|---|---|
| Genomic Position | scaffold338:- 114985-124293 |
| See gene structure | |
| CDS Length | 2610 |
| Paired RNAseq reads | 750 |
| Single RNAseq reads | 1760 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA003392 (0.0) |
| Best Drosophila hit | sec5 (3e-170) |
| Best Human hit | exocyst complex component 2 (8e-107) |
| Best NR hit (blastp) | hypothetical protein AaeL_AAEL009926 [Aedes aegypti] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to sec5 CG8843-PA [Apis mellifera] (0.0) |
| GeneOntology terms | GO:0000145 exocyst GO:0016081 synaptic vesicle docking involved in exocytosis GO:0007269 neurotransmitter secretion GO:0016080 synaptic vesicle targeting GO:0016192 vesicle-mediated transport GO:0000910 cytokinesis GO:0016028 rhabdomere GO:0005886 plasma membrane GO:0005905 coated pit GO:0032456 endocytic recycling GO:0030136 clathrin-coated vesicle GO:0048599 oocyte development GO:0005737 cytoplasm GO:0055037 recycling endosome GO:0016566 specific transcriptional repressor activity GO:0045087 innate immune response GO:0005642 annulate lamellae GO:0035147 branch fusion, open tracheal system |
| InterPro families | IPR002909 Cell surface receptor IPT/TIG IPR014756 Immunoglobulin E-set IPR013783 Immunoglobulin-like fold |
| Orthology group | MCL12470 |
Nucleotide sequence:
ATGGGTCCACCACCTGTAGTGACTGGTATTTCTCCGAAAGAAGGTCCTCCAGGAACAAGA
GTGACTATTCGGGGGGAGTTTCTTGGTACCACCGCTACTGATTTAATTGGTTTGAAAATC
TGTGGTTGTGAGTGTTTGCTATCAGCAGAATGGAAGAGTCGAAACAAAATAGTGGCTAGA
TCTGGACCTTGTAAAGGCAGAGGTGATATTATAGTCACTACAAAGTCGGGCGGAGAGGGT
ACCTCTACTGTACAATTCAGAGGTTACCATGAATCAATTGGCCCAGTGAAAGAGAGTGCT
GTTTGGGTGGAAGAAGCTGCTCCTCCATCCCTTCCATGGGGAAGAAGACCAATGTCACCC
ACAGCTTACACACCCCCTGACCCCCTAGGTCTATCAACTGAGGGAGAGGATAGCAAGTTC
CCCGAAGAGGAGCTCAACGAATTATTTCCTGATGGATCTGGAAAGCTGTCTGATGAGAAT
TTTCAACCGGGCTGGTATCTTCTGGAACATCATAGCAACACATCTTTCGAGGACTTGAAG
GCCGGAATGGTGTTTTTGCAGAGAAAGGTGGAAGGTCAGAAGGAAGGTCAACTCAGCTTC
CTGAAAGCCAACACCGGTGCTGTAATGGATCAACTGGATAGACTGGTGCTTCTTAAGAAC
ATGTATGAGGACGATCAGAGGAAGAATGGCAAAGAACCCTTGCCGAGCTTGCAGAGTGCA
ATTGAAGAATCCATAACCCTCGCTGATTCACTATTTTCTGAAATTTTAACACGCAAAGAG
AACGCTGATAAGACGCGCGAGGCTCTGTCCTTGTTGACACGTCACAAGTTCCTGTTCCAG
CTGCCAGCTTCCATAGACAAGAATATACGGAAGAAAGAATACGACCTCGTTGTCAATGAT
TATGCGAGGGTCAAGAACCTTTTCGGCAGCACCGATGTGAAGTTATTCCAAAAAATACTC
ACCGAAATAGACAGGAAGATTGAGGATCTGAAGGAGAATTTACACAATCGTATGAAGACT
ATGCCCATAAACGTTCAAGAGCAGACGAAATATATAAGACTTCTTATAAGTTTGAACTGG
GAAGGTGACGCCGCTTGGGTCGCGATAACAACACGCAAGGATTACCTCATGGCTCTCATG
AGTAAGGTCAAGGAACACTTCAAGCAGAAGGAGGAACAGGAATCCAATGAAAAAGGTCGC
CGTCGTAAGGAGAGCGAGGAGGGTCCGTGGAGCGCGGTGCGGTCGGCGTGGTGCGAGGCG
GCCTGCGGAGCCCTGGCCTCGGAACTGCACGCGCTGTGGCCGCTCGCTAGACGGTACTTC
GCGGGGGAGCTGGCGGGCGAGCCCGGCGACCCGCAGAGACACACCGCTTTAAAGGAGATG
ATTATAGCCGCTGTGGAAGTATTCTCAGATCAGATGCGTTCGTGTCTATTGTCAAGCGGT
CCCAGCGCTGGGTCTGCGGTAGCGGCCGACGTTCTAAGGACGAGGCTGCTGGCAAACCTC
CGCAGCCTGAGGGACGCTTACGACTCACTCCTGAAGTTAGATTTACCATCGCAGCCCCTG
AGTATCGTGGAGAAGGTGGTTTTCGACTACCGCGTGTTCGGCATGACGGTGTTCCTCCAA
CGAGCCCACAAGAGAGTGAAGGCGCTCTCCGAGACTGACACGTGGAAGATAAAAGAATTC
TCAGACTACGGAGCCATCACTGAACTTCCTCACCTGCTAGAGTCGTACCTGACGGACGCG
CTGTCATCTATATACAAGTGCGTGTTGTCGAGCGGCCGGCGCGAGTCGGCGCTGCTGGTC
GACGGCGGCGAGCCATTGGTGGTGCTGCGGACTCATACGCAGCAAATCCTCCTGGCGTAC
GTCGCTGTGCTCCAGGAGATAGCGCTGCAACACGACGATCAGGACTTCAACAGTTCGTCA
CTGTCAGTAGCACTGGACCAGCCTCTAGAGGAGTCACGTGGCGCCCAGCAGAAACTCCTT
GTGGCGGCCGCGGACGCCCTTTACACTAGACGGGTCACCCTCAACAATATTGCTGAAAAA
TTTACTAGTTTCGATTTTCCAAGTCCGACTGCAGCGCTACAAGCAACGAGGGACGCGCTG
AGCAATCTAGAAGCTAGCATCGCGGAGACATATCTAGAACACAAGGGGGATCCCCTTGTT
GGCACCATAGAGCCCAGCATGTACATGGGGCGGCATACCATACACCCGGACGCCATAGTA
GACGACGCCAGGCCATACGTTTACGAGATCATAAACAACCTTATTGCTGTCCATGCTGAG
GTGGACAGCATCTGTGGCTCGTCGTGTTCTCGATACGTGCGTGACATCAGTGAGACTGTG
TGTGAGGAGGTGGCGAGGCTTTGGTCTGGCGCTAGACCGGTTGGCCGCGCTGCAGTCTTC
AGGGCCAGGCTGGAGACCACGCTGCTGAGGCTAGCCTGTAGAGACCACCTCACCAGGAAG
GCAGAGACCTACCTCGCTGAGACTTTAGCAAGCATTCCAACATTGGAGACGGAGGAAGAG
AAAAAACGAATGGAAAGAATCATTGGTGATTTCAAGAAGCGAATGGAGCTACAGCTGGCT
AGTCTGAACTGTAACATAGAGTCCGTATGA
Protein sequence:
MGPPPVVTGISPKEGPPGTRVTIRGEFLGTTATDLIGLKICGCECLLSAEWKSRNKIVAR
SGPCKGRGDIIVTTKSGGEGTSTVQFRGYHESIGPVKESAVWVEEAAPPSLPWGRRPMSP
TAYTPPDPLGLSTEGEDSKFPEEELNELFPDGSGKLSDENFQPGWYLLEHHSNTSFEDLK
AGMVFLQRKVEGQKEGQLSFLKANTGAVMDQLDRLVLLKNMYEDDQRKNGKEPLPSLQSA
IEESITLADSLFSEILTRKENADKTREALSLLTRHKFLFQLPASIDKNIRKKEYDLVVND
YARVKNLFGSTDVKLFQKILTEIDRKIEDLKENLHNRMKTMPINVQEQTKYIRLLISLNW
EGDAAWVAITTRKDYLMALMSKVKEHFKQKEEQESNEKGRRRKESEEGPWSAVRSAWCEA
ACGALASELHALWPLARRYFAGELAGEPGDPQRHTALKEMIIAAVEVFSDQMRSCLLSSG
PSAGSAVAADVLRTRLLANLRSLRDAYDSLLKLDLPSQPLSIVEKVVFDYRVFGMTVFLQ
RAHKRVKALSETDTWKIKEFSDYGAITELPHLLESYLTDALSSIYKCVLSSGRRESALLV
DGGEPLVVLRTHTQQILLAYVAVLQEIALQHDDQDFNSSSLSVALDQPLEESRGAQQKLL
VAAADALYTRRVTLNNIAEKFTSFDFPSPTAALQATRDALSNLEASIAETYLEHKGDPLV
GTIEPSMYMGRHTIHPDAIVDDARPYVYEIINNLIAVHAEVDSICGSSCSRYVRDISETV
CEEVARLWSGARPVGRAAVFRARLETTLLRLACRDHLTRKAETYLAETLASIPTLETEEE
KKRMERIIGDFKKRMELQLASLNCNIESV