DPGLEAN10563 in OGS1.0

New model in OGS2.0DPOGS205315 
Genomic Positionscaffold1059:+ 58864-71542
See gene structure
CDS Length3705
Paired RNAseq reads  1244
Single RNAseq reads  3002
Migratory profilesQuery via corresponding ESTs
Best Bmobyx hitBGIBMGA007380 (0.0)
Best Drosophila hit  gartenzwerg, isoform B (0.0)
Best Human hitGolgi-specific brefeldin A-resistance guanine nucleotide exchange factor 1 isoform 2 (0.0)
Best NR hit (blastp)  GL10823 [Drosophila persimilis] (0.0)
Best NR hit (blastx)  hypothetical protein TcasGA2_TC005830 [Tribolium castaneum] (0.0)
GeneOntology terms





  		GO:0005798 Golgi-associated vesicle
GO:0006891 intra-Golgi vesicle-mediated transport
GO:0006888 ER to Golgi vesicle-mediated transport
GO:0005085 guanyl-nucleotide exchange factor activity
GO:0032012 regulation of ARF protein signal transduction
GO:0005086 ARF guanyl-nucleotide exchange factor activity
GO:0006911 phagocytosis, engulfment
InterPro families
  		IPR000904 SEC7-like
IPR023394 SEC7-like, alpha orthogonal bundle
Orthology groupMCL14922

Nucleotide sequence:

ATGTCTTTGCCGGGCAATGGAATATTTGTTGTCCAGGGAGAGATGTCCATGCTGGTTACA
GCCATGCGACGAAGCACTCGATGGGGTTCTCATTCCTTTCCAAACGAGGAATATGACGTG
CTGACACGAACATTTCAGGACCTGAAGACAATCTTAAACCAGGTTGATGATTTACGTCTG
TTAGACCCTCTGACGTATCTTAGTCCTTTTTTGGAGGTGATAAGAAGCAAAGAAACTACT
GGGCCTGTAACAAGTCTTGCTTTATCTGCCATACACAAATTCCTGTCTTATGGACTTATA
GATCCAACTCACCCTAGCGTGCCGGCGACAGTAGAGGATATAGCCGATGCAGTAACTCAT
GCGCGTTTTGTGGGAACCGATCACTCTTCAGACGGAGTAGTGCTGTTAAAGATATTGCAG
GTTCTTCGCACACTAATGCTCAGTCCGGAGGGCGCTATGTTGACCGATGAGAGTGTCTGT
GAGATAATGCTCAGCTGTTTCCGAACATGTTTTGAAACCAGATTAACAGAGCTTCTTCGT
CGTAACGCAGAGCAATGTCTTCGCGACATGACGCAGTTGATTTTCATGAGGTTGCCGCAG
TTTCCAGAGGATTCCACATCATTTACCTCCGTCGGACTGTCACTTAAGAGACGAGATCGG
ACCAAGAAGAAAATTACTGCCGCTAACAGTACCAACTCATTAGATAGGAAAACATCTAAC
AATGATCAAATGAGTCAAGAGGTCGACGTCGAAGAAGCCAAGCAAGTATCGACACACAAG
AAAACATCTAACAATGATCAAATGAGTCAAGAGGTCGACGTCGAAGAAGCCAAGCAAGTA
TCGACACACAATCAAGATAAAAATCTTTTGAACGAAGCCGAGATAACAATAGAACCGGTG
GATCAAGTGAAGAGTCCCAAGAAACACGCTCGCCACTCGTCGATGGACCTCGCTAGCAAC
GCGTCCATAACACACGTGTTGGAGAAGTGTGTTAACACAGAGGATAACCAGGAGAACATA
CAGAAGGACACAGCAGAGAACATAGAAGAGAAGATTGAAACTGTTGGCGAATCAAATACA
GCAGATGAAGGGCAAGGCGACGCTCAAAAGTTAGAAGAATATGTGAACCACAGAGGCATC
AGGTTCACCCAACAAGAAGAATCCTCGAACCTGCAACCATATGGACTGGTCTGCGTCAAA
GAATTGTTCAGATTCCTGATATCTCTGATCAACCCCCTGGAGCCTCAGAACACGTCAGCC
ATGGTGCAGTTGGGGTTGAGTTTAGTGGGTACGGCTCTGGAGGTGGCGGCCGATCATCTC
GCTAAGTGCCCCGCTTTATTGGGACTCGTCAGAGACCCTCTCTGCAGGAACCTCATCAGT
TTACTGGACACGGAAAGAATATCAATTTTCGCACTGGACCTGCAGCTGTGGTTCCTCTTG
TTCGAAGCGCTCCGCGGCCACCTCAAGTATCAAATGGAAGCGTTTTTCAAGAAAATTATC
GACATAATTTCAGCTGACACGACCAAGTCTATATACGAATTGAAAGAGATACACCACATC
GCCTTGGAGAGCCTTTGTCAAATGTTCCGGATACCAGGACTTTGCACGGAACTGTATTTG
AATTTCGACTGCGACGTTTACTGTACTAATATATTCGAAGAGTTTACAAAATTGTTATCT
AAAAATGTCGTCTCTTCGACCGCGTACAATATTCACACTATGTCGTTGGAGGCTCTGATG
ACTATGATCGAGGCTATAGAAGTCGGGACCGCCCCCAAGGAGGACGTAGAAGTGGGAGAG
GTAGATGATCAGAGGGAGAAAGAAGACCGTGTAGGACATGTCACGTTGGAGCTCGGTGGC
ATGGACGACGCGTCAGTCGTCAGCGACCACGTGACCCACGACATCAGTCAATATTTTGTT
GCTAACGCGAGACAAATGACTCAAACGGAACTGCCGTCGGACGAGGAACTGGATCACATT
AAGGATATGAAAAAGTGGGTAACTCAAGGCACTGAGCTGTTTAACCAAAAACCGGAGAGA
GGAATAGAGTTCCTATTGGAGCACGGAGTGCTGTCAACGCCGTTGGATCCGAAGCAGGTC
GCTATGTTTCTGAGAGAGAATCCAGATTTGGATAAGAAAATGATAGGTGAATACATCTGT
AAGCGGTCATCTCGTGATGAAGACTCCGGACCCAGCATCCTGTCGGCGTTCGCGGATAGT
TTCGACTACACCGGTCTGAGGATCGACCAGGCCTTGAGGCTTTACCTGGAGACCTTCCGT
CTTCCGGGAGAAGCTCCATTGATATCACTGGTTATGGAAAAGTTTGCTGAGCGGTGGCAT
CTAAGCAACGGCGAACCGTTCGCCAACGCTGACGCCGCGTTCCGCCTGGCGTACGCCGTC
ATCATGCTCAACGTGGACCAACACAATCACAACGCCAAGAAGCTCAACGTGCCGATGACG
GTCGAGGACTTTACGAGAAACCTCCGAGGGTGCAACGGCTCTGACGACTTCGACCACGAG
TTACTGCAGACTATATTTCACGCTATCAAGAACGAGGAGATGATAATGCCGGCGGAGCGT
GTGGGTCCTCTTCGTGACGCGTATCTGTGGCGAGTGCTGCAGCGGCGCTCGGGTCGCACG
CTTCTGTCCGCGCCGCCCGCGCCCCACAGACTGCACGCTCGACTACTGCCGCTTGCAGCG
CCGCCTGCGGTGACAGCGTTGTCGGCGGCGTTCGAGCGCGCCGCTCCCCCGTCTGCGGAG
GACGTGGAGTCGAACAACCTCCGCGACTGTGCTGCCCTCATAGCGCTGTCGGGGCTCGAG
CGCTGTGCGGCGCTGGTGGCGAGGTTGTCACCCAATACCCTCACCTTGGACACGGTCCTG
TTGACGCTGTGCAAGTTCACTGGCTTACTGACGCCGCAGCACTCGTCCTATATAGCCATC
GGCGTGTCTCTCGGGCAGTCGTCTAAGGCGATGTGTAGTGTCCGACGGGCTTGCGTGGTG
GCGGCCAGACACGCGGACTGCTGTCGCGACAGTTGGCGACACTTGCTCGAGATAGTCAAC
ACCCTGTATATAGCGAGGTTGCTGCCCAAATGTTTGGTCGAGGCCGAAGATTACCTGTCT
CCTAACGGGACGGTTTCCTTGATACGAGACACGTCACGCGGCACAGAGAGCGGCCTCCTG
TCCAGTCTATATTCGTACATCGCGCTCGGAGAGAGCGGAGTGCGAGCCCCCACTCCTCAT
GAGAAGAGTTTGATAGACGCGGCCGCGGAGTGCGTGTCCAAGTGTAACTTCCCCGGCATC
CTCATAACGGAGACCAGGTTCCTGCAGATGGAGAGCTTGCAGGAGCTGGTGTCGGCCATG
ATAGCTATCGGCGCTCCGCCCGACTCGGACAGTCTCCAACTAAACCCTCAGCTAGAAGAC
ATCACTATATTTTTCCTGGAGTTACTGGGAGTGCGAGCCCCCACTCCTCATGAGAAGAGT
TTGATAGACGCGGCCGCGGAGTGCGTGTCCAAATGTAACTTCCCCGGCATCCTCATAACG
GAGACCAGGTTCCTGCAGATGGAGAGCTTGCAGGAGCTGGTGTCGGCCATGATAGCTATC
GGCGCTCCGCCCGACTCGGACAGTCTCCAACTAAACCCTCAGCTAGAAGACATCACTATA
TTTTTCCTGGAGTTACTGGGTCAGACGCTCATACAGAATAGGTGA

Protein sequence:

MSLPGNGIFVVQGEMSMLVTAMRRSTRWGSHSFPNEEYDVLTRTFQDLKTILNQVDDLRL
LDPLTYLSPFLEVIRSKETTGPVTSLALSAIHKFLSYGLIDPTHPSVPATVEDIADAVTH
ARFVGTDHSSDGVVLLKILQVLRTLMLSPEGAMLTDESVCEIMLSCFRTCFETRLTELLR
RNAEQCLRDMTQLIFMRLPQFPEDSTSFTSVGLSLKRRDRTKKKITAANSTNSLDRKTSN
NDQMSQEVDVEEAKQVSTHKKTSNNDQMSQEVDVEEAKQVSTHNQDKNLLNEAEITIEPV
DQVKSPKKHARHSSMDLASNASITHVLEKCVNTEDNQENIQKDTAENIEEKIETVGESNT
ADEGQGDAQKLEEYVNHRGIRFTQQEESSNLQPYGLVCVKELFRFLISLINPLEPQNTSA
MVQLGLSLVGTALEVAADHLAKCPALLGLVRDPLCRNLISLLDTERISIFALDLQLWFLL
FEALRGHLKYQMEAFFKKIIDIISADTTKSIYELKEIHHIALESLCQMFRIPGLCTELYL
NFDCDVYCTNIFEEFTKLLSKNVVSSTAYNIHTMSLEALMTMIEAIEVGTAPKEDVEVGE
VDDQREKEDRVGHVTLELGGMDDASVVSDHVTHDISQYFVANARQMTQTELPSDEELDHI
KDMKKWVTQGTELFNQKPERGIEFLLEHGVLSTPLDPKQVAMFLRENPDLDKKMIGEYIC
KRSSRDEDSGPSILSAFADSFDYTGLRIDQALRLYLETFRLPGEAPLISLVMEKFAERWH
LSNGEPFANADAAFRLAYAVIMLNVDQHNHNAKKLNVPMTVEDFTRNLRGCNGSDDFDHE
LLQTIFHAIKNEEMIMPAERVGPLRDAYLWRVLQRRSGRTLLSAPPAPHRLHARLLPLAA
PPAVTALSAAFERAAPPSAEDVESNNLRDCAALIALSGLERCAALVARLSPNTLTLDTVL
LTLCKFTGLLTPQHSSYIAIGVSLGQSSKAMCSVRRACVVAARHADCCRDSWRHLLEIVN
TLYIARLLPKCLVEAEDYLSPNGTVSLIRDTSRGTESGLLSSLYSYIALGESGVRAPTPH
EKSLIDAAAECVSKCNFPGILITETRFLQMESLQELVSAMIAIGAPPDSDSLQLNPQLED
ITIFFLELLGVRAPTPHEKSLIDAAAECVSKCNFPGILITETRFLQMESLQELVSAMIAI
GAPPDSDSLQLNPQLEDITIFFLELLGQTLIQNR