New model in OGS2.0 | DPOGS203676  |
---|---|
Genomic Position | scaffold120:- 300341-308653 |
See gene structure | |
CDS Length | 3621 |
Paired RNAseq reads   | 1104 |
Single RNAseq reads   | 2875 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA003473 (0.0) |
Best Drosophila hit   | lethal (3) 76BDm (2e-171) |
Best Human hit | trafficking protein particle complex subunit 8 (2e-128) |
Best NR hit (blastp)   | PREDICTED: similar to CG8793-PA [Apis mellifera] (0.0) |
Best NR hit (blastx)   | GI13509 [Drosophila mojavensis] (0.0) |
GeneOntology terms    | GO:0005794 Golgi apparatus GO:0005801 cis-Golgi network GO:0006888 ER to Golgi vesicle-mediated transport GO:0016192 vesicle-mediated transport |
InterPro families   | ND |
Orthology group | MCL12254 |
Nucleotide sequence:
ATGACTAAAACAGCGCAAGAATTTATACAAAACTCATTCTCTCCAATAATTGCTACGTTA
TGCAGTCCAAAAGTGGATAATATAGTATGTAAAAATAATCTAACTTTACCGGAGTTGCTG
CAGCCGTTTACGCAACTAGACTGGGAAGGTCAAATTCGAGAACCTGGAGGAAATTTTTGT
TCAATAAGAAATTTAAATTTAGTCATTAGAGATGTGCTTTGGAAGCCACTTCAGCCAACA
GAGGCCCGAAGACAACTTAATAATGCAGTTTTACATAATTATGATGAGAAAACTGTTATA
ATGAAAATAGATACACAAATATTTGATGTACCTCAAGCAACACCGTGGTTTGATGCATGG
AGGGAAACATATTTGGAAGTGCAATTCCCCTCTGACCATGAATTTACAAAACATTTCTTG
GCTTGTATAATAGTTGCCACCACTTTTGAAGATGACATAGTTGAAACATACAACACTCTT
AACCAACAATATGCACAACTTCAAAATGTCACCCCTCCCAAACTACCAAAGTGGTTTAAC
AGTTCAGTTTTGAAGTCTTATCTCTTATTACATGATGTTTCTGCAATTTCCAAAGAGAAA
GCTGATAAAATGTTTGAAACAATGAAACAAACCTTTGGTGCTACCAACTGTTTTATGCTA
TCAATTAATTCCAAGACTTCTAACGAACCCAAGTTAACAACAGACTATTGGGCAAATTAT
CTTAAACAATCATCAGAAAGCAGTGTTGAAACAGTTTCACTTTCAAGCTCTTCCAGTATA
CATGATGCTCAACTTACAGCTCAACCAGGTCATGTCAGTTTATTAGATGATAGACAGAAT
ACTTTAACAACATCAACAAATGCGGATGGTGTCCATCCTTTGACAAATACTGAATCAGAC
ACATACGACAATGCAAATAGTTTACAACCATATTCGTTCTCCGGTAGTTCGGAAAGTGTA
AATGTTGCTGGAAGACAATTAGAGAGACAGAGTGAGATTCATGGAGCAGCATTAAATGCC
AATGACATTGAGTCAATGAAATCATTCTTAAAAGACTATGTATCTAAAGCATTTGTTCCA
TATTTAGAAAAGCTTATAGCACAACTAAATGAAGTGGTCGCAAATAAAAAAGGCGTCAGT
AGATCTTTGCTGTCGGCGACGAAGCGTTGGTTTACAGCTGGAAAGTCTGGAACAACAACT
GTGAACAATACGGTCATTTATTCGAGCGACTGTCCGGAGCTACAGCTTCGTCGTCTTGGC
GACGTGTGGTTCATGTGTGGTCAATGGTCCCGTGCTTTCGATAGTTACCACGCGGCCAAG
CGTGAGTTCTACGCGGATAGCGCTTGGCTTTGTTATGCCGGGGCTCTTGAAATGGCCGCG
GTTAGTGCCTTCATGGCCGGCGATGCGAACCGGAAGACCTTTGGCTATATGGAGGAAAGC
ATTGTCACATATCTGAATACGTGCCGAATGGTGCAATATGCTGTTCGAGCTACTCTCCTC
TCCGTGCCGTGTCTCATCAGCGCTGGGTTCTATGGCGAGGCCGCTAAACAACTTATCCGA
ATGACTTCAGAAGACAGCGATTTGCGGAGTGCTATGCTTCTAGAACAGGCGGCACTTTGT
TTCTTGAAAGGGCCCTCTACCAAAATAATGTCGAGAAAATACGCTTTCCACATGGTTTTA
GCCGGACACAGGTTCTCCAAAGCCGGACAAAAAAAACACGCGTACCGCTGCTACAAGCGG
GCGTATCAGGTGTATGAGGATAGTGGCTGGCGGCTGTCAACGGACCACGTGCAATTTGCT
CTCGGTCGTCTAGCTGGCGCGTTGAGGGTCAAGGAGGCTGTGTCGTGGCTCGCAGCTCCT
CTCGCACCAAACTCCCCTCAGCCGCCCGCCATGCAGGACGCCTTCCTCCGAGAGTTCATG
CTGGCACACCAGCAATTCGTTGAAACTTTAGAGGAGTTTAAGGAACACCTTCCAGTGTTG
CCAGTGCCGTTGTTATCAGTAGAGGACACCGCGGTGTTATGCGTTGGTCCGATGCCTTTG
TCGTCTCCGGGACGTATCGCCGCCTCTTCACTTTCTTTGCCGCCGCAGAGGAATTCCTCA
AAAGATTTCCCATTCTGGCACAAATTGGAGGAGAATCTGCTTCAGGTGGCGCAAGGAAGC
GTCCCTATGATATTTAAGCCAAGTATAGATTTATATACGCAGAAAACAGATAGCAACCCC
ATTGTACCCAAAGGAGAACCAATTCAGATTGCCATAACTTTATATAATCCTTTGAAAATT
CCGATACTCTTGAAGGAGTTGGAATTGTTGTGGCAGTTCACTTTGGAAGCGGATAATACA
GAGATTTCTAGCGATGAGATTTTAAACAACGAGCCGTTAATAGCTTCGGGACAAATTAAA
GAGAGTAATGTTATACGTGGACAGAAATTGAAATCGTTCTTACTGGAAGGAGAGTGCAGA
AAGACGCTAAATCTAACGGTCACACCCTTACAGACTGGACAGCTGTCCATACAGGGATTA
GCGTTCAATCTGATAAACGTCGGAGAGGGAAAGAATAATGAAAATGGCGTTTCAGTGTTG
GGTAAAGTAAACTTACAGAATGGTGCTAATTGTTCTGATAAATTGTTACTAATAACAGTC
ATACCACACGCGCCGTGTCTTCAGATGACACTATCGGAAACTGTGAGTGAAGTAATAAGT
GGAGAAATATTAACAGTGGACGTGGATTTCTGTAACATTGGTCCGGTAACATTGAAAAAC
CTGTATTTAGCAGTCTCACACCCGGAGTGTATGGCGTGGCGTGGCGTGGTGGGCTCTAGT
GATAACGTAGACGACTTTGGCGTTCTCTATGACGAAAAATATAGACCGCCCCCCGACTTT
ACAGAACATCACCCAGAAACCAAAGATGACATTAATAAGCCGCCCTATTCTAAATTTGTA
ACTGACTATATGTCTCCATTACTAGAAAATTTGGAATCTATTCAAAGTCCAGCGAATACT
TCTGGCCTGATCCAATCCATGTTGGTTTTGAGATGGAAAGCAAACAATAGAAAGACTAAT
CGCAGAGTCGTCGGCCAACACAGCATCTGGATGGATTGCTTTACGAAAACACTATCAAGG
GAAAGAGAAAAATTGCCCATCGAAGTCACAAGCGGAGTACAACTCGACGATTTAGACAGC
GCCACAGATATAACCGATGTGAAGAGTAAAAATGATAATAACGACCTCGTCATCATCAAA
GTCGAACATTCCAATCACATTAATCATAACTTCAAAGCAAATAAACTATGCCTGATACCC
GTAGTCTTGAACATAGTCAATTGTCAAGGATCACCGGTAACAGTTTTTATTGATATGCAT
AAACAACAGAACAGAGATTCTTCGGGAGAGATTGGATGGGCCGGGGCCCTAAATAACGGT
TTAGATGCGGATTCCAAAGAATTGGGTGTGAACGTGACTTTGGATAAGTTCGAGTCGAGA
AGAGTTCAGGTTCGGGCTTTGTGTGCCGCTCCAGGAACATATCTGGTGGGTGGTGCGTTC
CACGTCACTACCAAACACGACCAAATCCTCAACTCATACTTTCCTAATACAACTTCACTG
TTGGTCGTTAAGCAGATGTAA
Protein sequence:
MTKTAQEFIQNSFSPIIATLCSPKVDNIVCKNNLTLPELLQPFTQLDWEGQIREPGGNFC
SIRNLNLVIRDVLWKPLQPTEARRQLNNAVLHNYDEKTVIMKIDTQIFDVPQATPWFDAW
RETYLEVQFPSDHEFTKHFLACIIVATTFEDDIVETYNTLNQQYAQLQNVTPPKLPKWFN
SSVLKSYLLLHDVSAISKEKADKMFETMKQTFGATNCFMLSINSKTSNEPKLTTDYWANY
LKQSSESSVETVSLSSSSSIHDAQLTAQPGHVSLLDDRQNTLTTSTNADGVHPLTNTESD
TYDNANSLQPYSFSGSSESVNVAGRQLERQSEIHGAALNANDIESMKSFLKDYVSKAFVP
YLEKLIAQLNEVVANKKGVSRSLLSATKRWFTAGKSGTTTVNNTVIYSSDCPELQLRRLG
DVWFMCGQWSRAFDSYHAAKREFYADSAWLCYAGALEMAAVSAFMAGDANRKTFGYMEES
IVTYLNTCRMVQYAVRATLLSVPCLISAGFYGEAAKQLIRMTSEDSDLRSAMLLEQAALC
FLKGPSTKIMSRKYAFHMVLAGHRFSKAGQKKHAYRCYKRAYQVYEDSGWRLSTDHVQFA
LGRLAGALRVKEAVSWLAAPLAPNSPQPPAMQDAFLREFMLAHQQFVETLEEFKEHLPVL
PVPLLSVEDTAVLCVGPMPLSSPGRIAASSLSLPPQRNSSKDFPFWHKLEENLLQVAQGS
VPMIFKPSIDLYTQKTDSNPIVPKGEPIQIAITLYNPLKIPILLKELELLWQFTLEADNT
EISSDEILNNEPLIASGQIKESNVIRGQKLKSFLLEGECRKTLNLTVTPLQTGQLSIQGL
AFNLINVGEGKNNENGVSVLGKVNLQNGANCSDKLLLITVIPHAPCLQMTLSETVSEVIS
GEILTVDVDFCNIGPVTLKNLYLAVSHPECMAWRGVVGSSDNVDDFGVLYDEKYRPPPDF
TEHHPETKDDINKPPYSKFVTDYMSPLLENLESIQSPANTSGLIQSMLVLRWKANNRKTN
RRVVGQHSIWMDCFTKTLSREREKLPIEVTSGVQLDDLDSATDITDVKSKNDNNDLVIIK
VEHSNHINHNFKANKLCLIPVVLNIVNCQGSPVTVFIDMHKQQNRDSSGEIGWAGALNNG
LDADSKELGVNVTLDKFESRRVQVRALCAAPGTYLVGGAFHVTTKHDQILNSYFPNTTSL
LVVKQM