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2024-03-29 09:59:32, GGRNA : RefSeq release 60 (20130726)

LOCUS       NM_001278472           10457 bp    mRNA    linear   PRI 17-JUN-2013
DEFINITION  Homo sapiens MON2 homolog (S. cerevisiae) (MON2), transcript
            variant 5, mRNA.
ACCESSION   NM_001278472
VERSION     NM_001278472.1  GI:510937040
KEYWORDS    RefSeq.
SOURCE      Homo sapiens (human)
  ORGANISM  Homo sapiens
            Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi;
            Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini;
            Catarrhini; Hominidae; Homo.
REFERENCE   1  (bases 1 to 10457)
  AUTHORS   Lauc,G., Huffman,J.E., Pucic,M., Zgaga,L., Adamczyk,B., Muzinic,A.,
            Novokmet,M., Polasek,O., Gornik,O., Kristic,J., Keser,T.,
            Vitart,V., Scheijen,B., Uh,H.W., Molokhia,M., Patrick,A.L.,
            McKeigue,P., Kolcic,I., Lukic,I.K., Swann,O., van Leeuwen,F.N.,
            Ruhaak,L.R., Houwing-Duistermaat,J.J., Slagboom,P.E., Beekman,M.,
            de Craen,A.J., Deelder,A.M., Zeng,Q., Wang,W., Hastie,N.D.,
            Gyllensten,U., Wilson,J.F., Wuhrer,M., Wright,A.F., Rudd,P.M.,
            Hayward,C., Aulchenko,Y., Campbell,H. and Rudan,I.
  TITLE     Loci associated with N-glycosylation of human immunoglobulin G show
            pleiotropy with autoimmune diseases and haematological cancers
  JOURNAL   PLoS Genet. 9 (1), E1003225 (2013)
   PUBMED   23382691
REFERENCE   2  (bases 1 to 10457)
  AUTHORS   Tomita,Y., Noda,T., Fujii,K., Watanabe,T., Morikawa,Y. and
            Kawaoka,Y.
  TITLE     The cellular factors Vps18 and Mon2 are required for efficient
            production of infectious HIV-1 particles
  JOURNAL   J. Virol. 85 (11), 5618-5627 (2011)
   PUBMED   21450827
  REMARK    GeneRIF: Depletion of hVps18 or hMon2 reduced the efficient
            production of infectious HIV-1 virions in human cells.
REFERENCE   3  (bases 1 to 10457)
  AUTHORS   Singer-Kruger,B., Lasic,M., Burger,A.M., Hausser,A., Pipkorn,R. and
            Wang,Y.
  TITLE     Yeast and human Ysl2p/hMon2 interact with Gga adaptors and mediate
            their subcellular distribution
  JOURNAL   EMBO J. 27 (10), 1423-1435 (2008)
   PUBMED   18418388
  REMARK    GeneRIF: Ysl2p represents an essential, evolutionarily conserved
            member of a network controlling direct binding and membrane docking
            of Ggas.
REFERENCE   4  (bases 1 to 10457)
  AUTHORS   Gillingham,A.K., Whyte,J.R., Panic,B. and Munro,S.
  TITLE     Mon2, a relative of large Arf exchange factors, recruits Dop1 to
            the Golgi apparatus
  JOURNAL   J. Biol. Chem. 281 (4), 2273-2280 (2006)
   PUBMED   16301316
COMMENT     VALIDATED REFSEQ: This record has undergone validation or
            preliminary review. The reference sequence was derived from
            DA125763.1, BC144324.1 and AC026115.27.
            
            Transcript Variant: This variant (5) contains an alternate exon in
            the 5' coding region and uses a downstream start codon compared to
            variant 1. The resulting isoform (5) is shorter at the N-terminus
            compared to isoform 1.
            
            Sequence Note: This RefSeq record was created from transcript and
            genomic sequence data to make the sequence consistent with the
            reference genome assembly. The genomic coordinates used for the
            transcript record were based on transcript alignments.
            
            ##Evidence-Data-START##
            Transcript exon combination :: BC144324.1 [ECO:0000332]
            RNAseq introns              :: single sample supports all introns
                                           ERS025084 [ECO:0000348]
            ##Evidence-Data-END##
            COMPLETENESS: complete on the 3' end.
PRIMARY     REFSEQ_SPAN         PRIMARY_IDENTIFIER PRIMARY_SPAN        COMP
            1-31                DA125763.1         1-31
            32-5739             BC144324.1         1-5708
            5740-10457          AC026115.27        90260-94977
FEATURES             Location/Qualifiers
     source          1..10457
                     /organism="Homo sapiens"
                     /mol_type="mRNA"
                     /db_xref="taxon:9606"
                     /chromosome="12"
                     /map="12q14.1"
     gene            1..10457
                     /gene="MON2"
                     /note="MON2 homolog (S. cerevisiae)"
                     /db_xref="GeneID:23041"
                     /db_xref="HGNC:29177"
     exon            1..502
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            503..580
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     misc_feature    521..523
                     /gene="MON2"
                     /note="upstream in-frame stop codon"
     exon            581..644
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            645..772
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     CDS             686..5623
                     /gene="MON2"
                     /note="isoform 5 is encoded by transcript variant 5;
                     protein MON2 homolog"
                     /codon_start=1
                     /product="protein MON2 homolog isoform 5"
                     /protein_id="NP_001265401.1"
                     /db_xref="GI:510937041"
                     /db_xref="GeneID:23041"
                     /db_xref="HGNC:29177"
                     /translation="
MGCGTKEPKITQLCLAAIQRLMSHEVVSETAAGNIINMLWQLMENSLEELKLLQTVLVLLTTNTVVHDEALSKAIVLCFRLHFTKDNITNNTAAATVRQVVTVVFERMVAEDERHRDIIEQPVLVQGNSNRRSVSTLKPCAKDAYMLFQDLCQLVNADAPYWLVGMTEMTRTFGLELLESVLNDFPQVFLQHQEFSFLLKERVCPLVIKLFSPNIKFRQGSSTSSSPAPVEKPYFPICMRLLRVVSVLIKQFYSLLVTECEIFLSLLVKFLDADKPQWLRAVAVESIHRFCVQPQLLRSFCQSYDMKQHSTKVFRDIVNALGSFIQSLFLVPPTGNPATSNQAGNNNLGGSVSAPANSGMVGIGGGVTLLPAFEYRGTWIPILTITVQGSAKATYLEMLDKVEPPTIPEGYAMSVAFHCLLDLVRGITSMIEGELGELETECQTTTEEGSSPTQSTEQQDLQSTSDQMDKEIVSRAVWEEMVNACWCGLLAALSLLLDASTDEAATENILKAELTMAALCGRLGLVTSRDAFITAICKGSLPPHYALTVLNTTTAATLSNKSYSVQGQSVMMISPSSESHQQVVAVGQPLAVQPQGTVMLTSKNIQCMRTLLNLAHCHGAVLGTSWQLVLATLQHLVWILGLKPSSGGALKPGRAVEGPSTVLTTAVMTDLPVISNILSRLFESSQYLDDVSLHHLINALCSLSLEAMDMAYGNNKEPSLFAVAKLLETGLVNMHRIEILWRPLTGHLLEVCQHPNSRMREWGAEALTSLIKAGLTFNHDPPLSQNQRLQLLLLNPLKEMSNINHPDIRLKQLECVLQILQSQGDSLGPGWPLVLGVMGAIRNDQGESLIRTAFQCLQLVVTDFLPTMPCTCLQIVVDVAGSFGLHNQELNISLTSIGLLWNISDYFFQRGETIEKELNKEEAAQQKQAEEKGVVLNRPFHPAPPFDCLWLCLYAKLGELCVDPRPAVRKSAGQTLFSTIGAHGTLLQHSTWHTVIWKVLFHLLDRVRESSTTADKEKIESGGGNILIHHSRDTAEKQWAETWVLTLAGVARIFNTRRYLLQPLGDFSRAWDVLLDHIQSAALSKNNEVSLAALKSFQEILQIVSPVRDSDKPETPPVVNVPVPVLIGPISGMSRPFVRTDSIGEKLGRYSSSEPPIVTDELEDLNLWWAAWNTWYRIGSESTKPPITFDKLTFIPSQPFLTALIQIFPALYQHIKTGFNMDDLQKLGVILHSAISVPISSDASPFILPSYTEAVLTSLQEAVLTALDVLQKAICVGPENMQIMYPAIFDQLLAFVEFSCKPPQYGQLETKHIANAKYNQIQLFAPAEWVALNYVPFAERSLEVVVDLYQKTACHKAVVNEKVLQNIIKTLRVPLSLKYSCPSESTWKLAVSSLLRVLSIGLPVARQHASSGKFDSMWPELANTFEDFLFTKSIPPDNLSIQEFQRNENIDVEVVQLISNEILPYANFIPKEFVGQIMTMLNKGSIHSQSSSFTEAEIDIRLREEFSKMCFETLLQFSFSNKVTTPQEGYISRMALSVLLKRSQDVLHRYIEDERLSGKCPLPRQQVTEIIFVLKAVSTLIDSLKKTQPENVDGNTWAQVIALYPTLVECITCSSSEVCSALKEALVPFKDFMQPPASRVQNGES
"
     misc_feature    1094..1627
                     /gene="MON2"
                     /note="Guanine nucleotide exchange factor in Golgi
                     transport N-terminal; Region: Sec7_N; pfam12783"
                     /db_xref="CDD:221768"
     misc_feature    <3083..3265
                     /gene="MON2"
                     /note="Domain of unknown function (DUF1981); Region:
                     DUF1981; pfam09324"
                     /db_xref="CDD:204198"
     exon            773..904
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            905..1034
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            1035..1132
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            1133..1258
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            1259..1453
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            1454..1578
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            1579..1715
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            1716..1869
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            1870..2102
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            2103..2184
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            2185..2369
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            2370..2482
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            2483..2587
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            2588..2668
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            2669..2742
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            2743..2833
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            2834..2935
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            2936..3046
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            3047..3222
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            3223..3385
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            3386..3679
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            3680..3878
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            3879..4501
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            4502..4645
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            4646..4663
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            4664..4792
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            4793..4983
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            4984..5044
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            5045..5168
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            5169..5376
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            5377..5459
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     exon            5460..10457
                     /gene="MON2"
                     /inference="alignment:Splign:1.39.8"
     STS             8086..8253
                     /gene="MON2"
                     /standard_name="G35510"
                     /db_xref="UniSTS:44150"
     STS             8245..8315
                     /gene="MON2"
                     /standard_name="D5S2354"
                     /db_xref="UniSTS:473392"
     STS             10195..10362
                     /gene="MON2"
                     /standard_name="RH103126"
                     /db_xref="UniSTS:97460"
ORIGIN      
attgtgggcgactcggctaatggcgtcggcgagtcttaggggcctggggagctggcgctgaagcttcttgccaggttggctggtgacacccggtgtggctgggccccgcggcagcggagggacctgcccgccttgtgggtttctcggccagagtcggcggagcctagcgggacggtgcgactgcggggggcgcctccgagaaaagccagaggtgttgcggggaagctgctgggggacgctcgagcaggctccgggttcgcagcccagggcccaagaagcgggctgctgaaggaccagagacaccgggagggagctgcctgtggccctaaggagctgaccgtgccagagcttgtttgtacctctcggaaattggctgggaccttggaggatcatgtccggcaccagcagccccgaggcggtgaagaagctgctggagaatatgcagagcgacttgcgcgccttgtcactggagtgcaagaagaaattcccacctgtcaaagaggtacagatgaggggtatctaactgagcctggaagttggaggaggggagtcattcctagcagaggaaatagcacacgttgctgctgaatcaggaataataaaagttaaaacaattgctgcacgaaacactgaaattttggcagcactgaaagagaacagctcagaggttgtacagccttttttaatgggttgtggaaccaaggaaccgaagatcactcagctatgtttggctgctattcagagactcatgtcacatgaagtcgtgtctgagactgcagctggaaatataattaacatgctttggcagctaatggagaatagtcttgaagaacttaagctacttcaaacagttcttgttcttttaacaaccaatacagtagttcatgatgaggcactttctaaggcaatcgttctttgttttcgactacacttcacaaaagataatattacaaataatacagctgctgctacagtgcgacaagttgttactgttgtttttgagaggatggttgctgaagatgaacgacacagagatattatagaacaaccagtactggtacaaggaaatagtaacagaagatctgtcagtaccctcaaaccttgtgctaaagatgcatatatgcttttccaggatctttgtcagttggttaatgctgatgctccttattggctagtgggcatgacagaaatgactcggacgtttggcctcgaattacttgagtcagtcctcaatgattttccgcaggtctttttacaacaccaagaatttagtttcctcctcaaagaaagggtatgtcctcttgtgataaagctcttttctccaaatataaagttcagacaaggttccagcacctcatcttctccagcaccagttgaaaaaccatattttcctatctgcatgcgtttgctgagagtagtatctgttctgattaagcagttttacagtcttttggtaactgaatgtgagatatttctgtcacttctggtgaaatttctggatgcagataaaccacagtggctacgagctgttgcggtggaatcaatacacagattctgtgtgcagcctcaactattaaggtcattttgtcagtcctatgatatgaaacagcattctaccaaggtttttcgtgatattgtaaatgcactgggatcttttatacagtccttgtttcttgtcccccctactggaaatcctgcaacaagcaaccaagctggaaacaataatttaggtggctcagtctcagcaccagctaactcaggaatggtggggattggtggaggtgttactttgctaccagcatttgaatataggggaacctggatacctattctgacaatcacagttcaaggcagtgctaaagccacctacttagaaatgttggacaaagttgagcctccaactatacctgaaggttacgccatgtctgtggcattccattgtttgctagaccttgttcgtggaatcacaagtatgattgaaggagagctaggagagcttgaaacagaatgtcaaaccaccactgaagaaggttcttcaccaacacagtcgacagaacagcaggatttacagtcaacatcagaccaaatggataaggaaattgttagtagggctgtttgggaagaaatggtgaatgcctgctggtgtggtcttcttgctgcactctcactccttcttgatgccagcacagatgaagctgccactgagaatattttaaaagctgaactgactatggctgctctttgtggaagactgggccttgtaacttcaagagatgcctttataactgcaatatgcaaaggttccctgcctccccattatgctcttactgtattgaataccaccactgcagctacactttccaacaaatcatattccgttcagggccaaagtgttatgatgataagtccatcaagtgaatctcaccaacaagttgtggcagtgggtcaacctttagcagtccagcctcaagggacagtaatgctgacttccaaaaatatccagtgtatgaggactttacttaacttggcgcattgccatggggctgttcttggaacatcatggcaacttgtcttggcaactcttcagcatcttgtgtggattctgggattaaagcctagtagtggcggtgccttgaaacctgggagagctgtagaaggacccagtacagttctaacaacagcagtgatgacagatttaccagtgatttccaatatactttcaagattgtttgaaagctcacagtatcttgatgatgtatcactgcatcatttaataaatgcactttgctccttgtctctagaagcaatggatatggcctatggaaataataaggaaccatctctttttgctgttgccaaattgttagaaactggtttagttaatatgcaccgaatagaaattctgtggagacctctgactggccatctacttgaggtctgccagcatccaaactctcgaatgagagaatggggagcagaagctttaacttctcttattaaagcaggattaacatttaaccatgatcctccactctcacaaaaccagaggctgcagttgcttttattgaacccgttaaaggagatgtccaatattaatcatccagatattcgactcaagcagttagaatgcgtgttgcagattctgcagagtcagggagacagtcttgggcctggatggccattagtgcttggagtcatgggagcaatcagaaatgatcaaggagaatccttgatacgaactgcattccagtgtcttcagttggttgtgacagattttctaccaacaatgccttgtacttgcctgcaaatagttgtagatgttgcaggtagctttggcctccataaccaagaactcaatattagtttaacttcaataggtttattgtggaatatttcagattattttttccaaagaggggaaactattgaaaaagaactaaataaggaagaggcagcacagcaaaagcaggcagaagagaaaggagttgttttaaatcggccattccaccctgcaccgccatttgattgcttgtggttatgtctttatgcaaaattgggtgaactatgtgtggatccccgtcctgctgtcaggaagagtgcagggcaaactctgttttctacaattggtgcgcatggaactttattacagcattcaacctggcacactgttatctggaaggtactctttcatctactggacagagttcgagagtcctctaccactgcagacaaagaaaagattgagtctggaggtggcaatattctcattcatcattcaagggacaccgccgagaagcaatgggctgagacgtgggtattaacattggctggagtagcaaggatcttcaacactagaagatatttgctgcagcctttaggagatttttcaagagcttgggatgttcttcttgaccatatacagtcagcagcactcagcaaaaacaatgaagtatctctggctgctctgaaaagcttccaggaaattttacagattgtgtcccctgtcagagactcagataagcctgagacaccacctgtagttaatgtacctgtgcctgttcttatagggcccatatcaggcatgagcaggccatttgtaagaacagattccattggagaaaaactaggaagatatagtagctctgagccacccattgttactgatgagcttgaagatttgaatctatggtgggctgcgtggaatacctggtatagaattggatctgaaagtactaagcctcctattacttttgataaactaacttttattcctagccagccttttcttacagctttaattcagatatttccagctctctaccaacacataaaaactggtttcaatatggatgacttgcaaaagttgggagtcatattgcacagtgctatttcagtcccaataagttcagatgcatccccttttattcttccatcttataccgaagcagttttgacaagtttacaggaagctgtacttacagctttagatgttctccaaaaggccatttgtgtaggaccagaaaacatgcagataatgtatccagctatatttgaccagttgttggcatttgtagaattttcctgtaaacctccacagtatggacagctggaaacaaagcacattgcaaatgcaaaatataatcagatccaactatttgcaccggcggaatgggtagccttgaattatgtgccgtttgctgaaaggtctttagaagtagttgtggatttataccaaaaaacagcgtgtcacaaagcagtggtgaatgagaaagtgctccagaatattattaagactcttagggttcctctcagtttgaagtattcctgcccttctgaaagcacatggaaactagcagtatcctctctcctcagagttctttctattgggctacctgttgcccggcagcatgcttcttctggaaaatttgacagtatgtggccagaactagccaatacttttgaagattttctctttactaaaagcatacctccagataatctctctattcaagagtttcaaagaaatgaaaatattgatgtcgaggtagttcaacttatcagcaatgagatactaccttatgccaattttattcctaaggaatttgttggtcaaataatgacaatgcttaacaagggctcaatacattctcagtcatcttcatttacagaagcagagattgatattcgtttgagagaggaattttctaaaatgtgttttgaaacattactccagttttccttcagtaataaagtcacaacacctcaagaaggctacatctcacgaatggcactctcagtgcttttaaagaggtcccaagatgtactacatcgctatatagaggatgaaagattaagtggtaaatgccctcttccaaggcaacaagtaacagaaattatatttgttttaaaagcagtcagtactcttattgattcacttaagaaaactcagcctgagaatgttgatggaaatacctgggcacaagtaattgccttatacccaactttagtagaatgcatcacctgttcttcttcagaagtctgttctgcacttaaagaggcactagttccttttaaggatttcatgcagccaccagcatccagagttcaaaatggagaatcttgaccggctacaatatatttgaaagcaggaagatagtctaaaaaatgtttgctcctaattgagtcttctgtgagaaggacatttcttactgcagataattcttggcagctgttgttggcctcctttaaattctacttacctgagttcagtaattcatattacaggcttgcacatcaacaaaggctcctgaatgaacagcagtgtaaggctttaataaattaaactgatgggagggataattaacactacagtatacatgctaccatatctccagttggtgatttaaagtgagcttatgtacagtttgtggtgtatgtgttaatgatgtactttttaaaaagaaagaagagatatttcaattcagtcagatttattagtctggtgtttttgcaccctttttcaagtacaaaatcgtactagaattttatgcaagatggtactgtaacattccatattatctataaccagcctttgttaacaaagggaactgatatacttgtgtgtataataaatggtacagttctgtataaaatagtgcatttatttaaattttaaaagtattgataatgttaaatgcttaaagctctatttattattaatacaaaattgtttgcttacatttttacttataatttgccttcatatgtggcggataagctcaccatatgatcatgcagttagcttcatgcttattttaaatgtattattagtgaccattaaacatctgaccagtaaggtcatgtgaacacagcagcaaatagtttatgatttgctgattttggagctttgaaatataggttcttaatacattgatacatattgtagcactatgacttcatcatacctcatttctttaaacagctctccaagctttcactgaagtctgtctgttttttatattggctgtctggattttaaagacttttcatattttatatttctactgattttgtttcccctaacaacatttgtcactgtctttgaattatgacccaggcaagatgatttcagattttctaaaatcttgcctgtgaggttttgttcatatcagtgcttcattttgtaatgtcttctcaagaaaaatacctatgttaactcacaagtataaaatatgtgtgtattataaaacaatgaaaagtgtatttttggagatagtcaagcatttagaagtgcagtgaacttgctgtcacggagtaaaatgctaattatgtttcactttcctagcctagtgaaaaagaaaagtgctcttgagtacaataccttaattatttcttaaaatactgactttgacctagctcactgtattttttatttaatggattatggattacagtatttttcttctgagttaaattttcataatttatgtgaagacacaaagatgtttaaaacaatgattattcataagaaatcatgatggtctcagtattattttagtgtattggaaggtctttgatcttaatagaatttataaatttcagcttctccagaataatcataaaactgcaaaaagatattataattgagtcatgattgagatacagttttgaggctattataattgtataattatttaatttgcattatctgtaaaatgtagtaaggtctttgaggggatattttttatttacatgaattactgaatttctattttattatttcacctaaaattaaggtaaaatatggcatttcataagttctgctttcagcattttccttaaagttgtaaaaaatcaagctatgtacttattttctatatttgggtgtgttaaattgaggattagaaaaatccacataatcactgataaagcattgaaacagaataacccaagggtagtgtaccgattcagtaacatgttaaaaatattgctatgcatttattcaaaggaaaatggtctgttcttgagaaataaaagatcagttgcaattaggataattaaatagttaaatatgagtcaagtgtatgcaatatacatttatatgaaccaaagcttgctttatcaggaccatgccctacagttcaaaacataaacatagtgaatgtgttaatatcatataataaggtaataaatgccagtcttagtgtgaagcaagtgggtggcccccttggtagtataattggacaggattttcctccagaatatttcctgtcaccctccaagagtcactacagtaattgattgctggcatggaacacattgcccttgtcttgttagtatgaattgggttctccagtgactagaagaactggggtgtgtgaaagtattcgatgccaggagattcaaaaaggaagctctcaaagataagatcattttatggcacaattgagtctataaccagccctttaagcagtagtaaaaatgtcctttgtcatacttactagaaatactatgagttttttttttttttttcatttgagacggagtctcgctctgtcacccaggctggaatgcagtggcacgatcttggctcactgcaacctctgcttcccgggttcaagcagtttcctgcttcagacttccaagtagctgggattacagacatgccaccatgccaggctaatttttttaatatttttagtagagatggggtttcaccattttggccattctagtcttgaactcctgacctcaggtgatctgcccgccttggcctcccaaagtgctgacattacaggcctgagccactgcgcccagccaataccatgagttttaagcctcacatcgtcacttgctgtcactgccagtgcctgttttattcatattgctggacaacagacatatgccaccaattgtatgattaataaagtctttttctggccattttgtccattataaaggaaataaactaattgttaacttgcatagattacttcttagtttcctatgctaccaccactgccaagggagaaaaaaatacatcattttgtaatgtctttagtatttctttataactagtgttaaggttttgttaattttattgtatacatttgtaacatttattaggagccttttaggttccaaaacaaacaaaaggcataaaaaagtctagcttagaaccacttttcacttgctttcatttttaattttattcacttaacagctaacatctttcttgtttcttgttttttccattatatggttatcgattcaactcttgctatattccttaaatttgtatgtatcatcagaagaaagagatgaacaatttagtgtagatattttattctggagaataatattcaattaaattatttctacagcaggccagtaacaactagattatttgtcctttctcagtataattttaaagagcattttgttttattgtcacaatttggtaccactagtcccaggtaaccattgggccaaaggatcagttgagaaacagttaaggatgaattagcataagttatggaacagtgttagaaaacaactcaaaagtatattctttattaatgaggtggtcattattacatttgtgtcaatgaagggcagtgtagttattttaaaatgactaatattttctccccaaatacagaataattcagatgggcaaccaagttttcaagagactgctgtaggtgaagtctgtctagccaaggcagaacacttacaggagtccctaactgtgccacccttggaatgggttagtgtacaggctcagaatattgtggattacagtttttcagagaaaactaccacagatgtagacaaaaatgatctctgaaagcattgccagcagccaggtatgttccttagatttccacttaggtttggcattttggcagataagctaatcttgtataaagcatcacattttactatgcttagtgttcctgggttgtatttatctacattattagagggaatttttattttaaaaaaattgtcattcatgagaagaatgggagttcatgccacatagtattttaccaatttatataaagtgggaaaagtctttaatacttcatgatcacttgaattaaagtttttgtatctctggaaagtagaatagtgctttcatttgaatgaaaagtgtttatagattcagaaagagagatgatatctttgtatcttgatttatatacagaccatttcagaggaagttaaatgtcttacaaatccaatactttctaatgctctaacagtgttggctatttaaaagaacatgtggcaagttctatatgaatattcttggtcatctcgactaattctgaggcaatgatggacagagatgctacttcttatttaactctaggcatgttgacttttcaaagcggtttccttatttctaaacagagatgatgatcaatgagttactaattctttagaggaaaaaatgcataatttgagtgtggagttgattttaatgacagggtaattcaagttgtttgataaatttattactatattgtaagagagatctttgaccatttttcttcctttttcttggacatcactttcttccctccccttctctcttttatgtttttatccttgttaaattttatgtttacgttaccatctttcttatactttcccctgatttttctcttttaattcctctttcattctctgcctcttctctttcagctctttctctaattgtgcctattccttgttcataagaagtggagctgttagtggtagaaccactgctcatggttctaccactacaaagtggaaagtagaaatactttgcactttggccactgttgcgtttttgccaaggtaaagttcccctgccattttgaaatagctgaacaagttaaagtaatatgttccaaaaactggaagtgccataaaaaactaaaaataaaaaaaaattgtgacta
//

Annotations:

ANNOTATIONS from NCBI Entrez Gene (20130726):
            GeneID:23041 -> Molecular function: GO:0005086 [ARF guanyl-nucleotide exchange factor activity] evidence: IBA
            GeneID:23041 -> Biological process: GO:0006895 [Golgi to endosome transport] evidence: ISS
            GeneID:23041 -> Biological process: GO:0015031 [protein transport] evidence: IEA
            GeneID:23041 -> Biological process: GO:0016192 [vesicle-mediated transport] evidence: IBA
            GeneID:23041 -> Biological process: GO:0030036 [actin cytoskeleton organization] evidence: IBA
            GeneID:23041 -> Cellular component: GO:0005802 [trans-Golgi network] evidence: IBA

by @meso_cacase at DBCLS
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