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2025-05-09 19:04:30, GGRNA : RefSeq release 60 (20130726)
LOCUS NM_001278469 10440 bp mRNA linear PRI 22-JUN-2013
DEFINITION Homo sapiens MON2 homolog (S. cerevisiae) (MON2), transcript
variant 2, mRNA.
ACCESSION NM_001278469
VERSION NM_001278469.1 GI:510937034
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 10440)
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 10440)
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 10440)
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 10440)
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, BC151241.1, AL833066.2 and AC026115.27.
Transcript Variant: This variant (2) contains an alternate exon in
the 3' end that includes an in-frame stop codon compared to variant
1. The resulting isoform (2) has a shorter and distinct C-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 :: AL833066.2 [ECO:0000332]
RNAseq introns :: mixed/partial sample support
ERS025083, ERS025084 [ECO:0000350]
##Evidence-Data-END##
COMPLETENESS: complete on the 3' end.
PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP
1-32 DA125763.1 1-32
33-2857 BC151241.1 24-2848
2858-3395 BC151241.1 2852-3389
3396-5696 AL833066.2 3391-5691
5697-10440 AC026115.27 90234-94977
FEATURES Location/Qualifiers
source 1..10440
/organism="Homo sapiens"
/mol_type="mRNA"
/db_xref="taxon:9606"
/chromosome="12"
/map="12q14.1"
gene 1..10440
/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"
misc_feature 335..337
/gene="MON2"
/note="upstream in-frame stop codon"
CDS 392..5419
/gene="MON2"
/note="isoform 2 is encoded by transcript variant 2;
protein MON2 homolog"
/codon_start=1
/product="protein MON2 homolog isoform 2"
/protein_id="NP_001265398.1"
/db_xref="GI:510937035"
/db_xref="GeneID:23041"
/db_xref="HGNC:29177"
/translation="
MSGTSSPEAVKKLLENMQSDLRALSLECKKKFPPVKEAAESGIIKVKTIAARNTEILAALKENSSEVVQPFLMGCGTKEPKITQLCLAAIQRLMSHEVVSETAAGNIINMLWQLMENSLEELKLLQTVLVLLTTNTVVHDEALSKAIVLCFRLHFTKDNITNNTAAATVRQVVTVVFERMVAEDERHRDIIEQPVLVQGNSNRRSVSTLKPCAKDAYMLFQDLCQLVNADAPYWLVGMTEMTRTFGLELLESVLNDFPQVFLQHQEFSFLLKERVCPLVIKLFSPNIKFRQGSSTSSSPAPVEKPYFPICMRLLRVVSVLIKQFYSLLVTECEIFLSLLVKFLDADKPQWLRAVAVESIHRFCVQPQLLRSFCQSYDMKQHSTKVFRDIVNALGSFIQSLFLVPPTGNPATSNQAGNNNLGGSVSAPANSGMVGIGGGVTLLPAFEYRGTWIPILTITVQGSAKATYLEMLDKVEPPTIPEGYAMSVAFHCLLDLVRGITSMIEGELGELETECQTTTEEGSSPTQSTEQQDLQSTSDQMDKEIVSRAVWEEMVNACWCGLLAALSLLLDASTDEAATENILKAELTMAALCGRLGLVTSRDAFITAICKGSLPPHYALTVLNTTTAATLSNKSYSVQGQSVMMISPSSESHQQVVAVGQPLAVQPQGTVMLTSKNIQCMRTLLNLAHCHGAVLGTSWQLVLATLQHLVWILGLKPSSGGALKPGRAVEGPSTVLTTAVMTDLPVISNILSRLFESSQYLDDVSLHHLINALCSLSLEAMDMAYGNNKEPSLFAVAKLLETGLVNMHRIEILWRPLTGHLLEVCQHPNSRMREWGAEALTSLIKAGLTFNHDPPLSQNQRLQLLLLNPLKEMSNINHPDIRLKQLECVLQILQSQGDSLGPGWPLVLGVMGAIRNDQGESLIRTAFQCLQLVVTDFLPTMPCTCLQIVVDVAGSFGLHNQELNISLTSIGLLWNISDYFFQRGETIEKELNKEEAAQQKQAEEKGVVLNRPFHPAPPFDCLWLCLYAKLGELCVDPRPAVRKSAGQTLFSTIGAHGTLLQHSTWHTVIWKVLFHLLDRVRESSTTADKEKIESGGGNILIHHSRDTAEKQWAETWVLTLAGVARIFNTRRYLLQPLGDFSRAWDVLLDHIQSAALSKNNEVSLAALKSFQEILQIVSPVRDSDKPETPPVVNVPVPVLIGPISGMSRPFVRTDSIGEKLGRYSSSEPPIVTDELEDLNLWWAAWNTWYRIGSESTKPPITFDKLTFIPSQPFLTALIQIFPALYQHIKTGFNMDDLQKLGVILHSAISVPISSDASPFILPSYTEAVLTSLQEAVLTALDVLQKAICVGPENMQIMYPAIFDQLLAFVEFSCKPPQYGQLETKHIANAKYNQIQLFAPAEWVALNYVPFAERSLEVVVDLYQKTACHKAVVNEKVLQNIIKTLRVPLSLKYSCPSESTWKLAVSSLLRVLSIGLPVARQHASSGKFDSMWPELANTFEDFLFTKSIPPDNLSIQEFQRNENIDVEVVQLISNEILPYANFIPKEFVGQIMTMLNKGSIHSQSSSFTEAEIDIRLREEFSKMCFETLLQFSFSNKVTTPQEGYISRMALSVLLKRSQDVLHRYIEDERLSGKCPLPRQQVTEIIFVLKAVSTLIDSLKKTQPENACISLFGIPPYF
"
misc_feature 1004..1006
/gene="MON2"
/experiment="experimental evidence, no additional details
recorded"
/note="Phosphoserine; propagated from UniProtKB/Swiss-Prot
(Q7Z3U7.2); phosphorylation site"
misc_feature 1016..1549
/gene="MON2"
/note="Guanine nucleotide exchange factor in Golgi
transport N-terminal; Region: Sec7_N; pfam12783"
/db_xref="CDD:221768"
misc_feature <3005..3187
/gene="MON2"
/note="Domain of unknown function (DUF1981); Region:
DUF1981; pfam09324"
/db_xref="CDD:204198"
exon 503..566
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 567..694
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 695..826
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 827..956
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 957..1054
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 1055..1180
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 1181..1375
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 1376..1500
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 1501..1637
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 1638..1791
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 1792..2024
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 2025..2106
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 2107..2291
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 2292..2404
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 2405..2509
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 2510..2590
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 2591..2664
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 2665..2755
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 2756..2857
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 2858..2968
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 2969..3144
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 3145..3307
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 3308..3601
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 3602..3800
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 3801..4423
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 4424..4567
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 4568..4585
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 4586..4714
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 4715..4905
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 4906..4966
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 4967..5090
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 5091..5298
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 5299..5381
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 5382..5442
/gene="MON2"
/inference="alignment:Splign:1.39.8"
exon 5443..10440
/gene="MON2"
/inference="alignment:Splign:1.39.8"
STS 8069..8236
/gene="MON2"
/standard_name="G35510"
/db_xref="UniSTS:44150"
STS 8228..8298
/gene="MON2"
/standard_name="D5S2354"
/db_xref="UniSTS:473392"
STS 10178..10345
/gene="MON2"
/standard_name="RH103126"
/db_xref="UniSTS:97460"
ORIGIN
attgtgggcgactcggctaatggcgtcggcgagtcttaggggcctggggagctggcgctgaagcttcttgccaggttggctggtgacacccggtgtggctgggccccgcggcagcggagggacctgcccgccttgtgggtttctcggccagagtcggcggagcctagcgggacggtgcgactgcggggggcgcctccgagaaaagccagaggtgttgcggggaagctgctgggggacgctcgagcaggctccgggttcgcagcccagggcccaagaagcgggctgctgaaggaccagagacaccgggagggagctgcctgtggccctaaggagctgaccgtgccagagcttgtttgtacctctcggaaattggctgggaccttggaggatcatgtccggcaccagcagccccgaggcggtgaagaagctgctggagaatatgcagagcgacttgcgcgccttgtcactggagtgcaagaagaaattcccacctgtcaaagaggctgctgaatcaggaataataaaagttaaaacaattgctgcacgaaacactgaaattttggcagcactgaaagagaacagctcagaggttgtacagccttttttaatgggttgtggaaccaaggaaccgaagatcactcagctatgtttggctgctattcagagactcatgtcacatgaagtcgtgtctgagactgcagctggaaatataattaacatgctttggcagctaatggagaatagtcttgaagaacttaagctacttcaaacagttcttgttcttttaacaaccaatacagtagttcatgatgaggcactttctaaggcaatcgttctttgttttcgactacacttcacaaaagataatattacaaataatacagctgctgctacagtgcgacaagttgttactgttgtttttgagaggatggttgctgaagatgaacgacacagagatattatagaacaaccagtactggtacaaggaaatagtaacagaagatctgtcagtaccctcaaaccttgtgctaaagatgcatatatgcttttccaggatctttgtcagttggttaatgctgatgctccttattggctagtgggcatgacagaaatgactcggacgtttggcctcgaattacttgagtcagtcctcaatgattttccgcaggtctttttacaacaccaagaatttagtttcctcctcaaagaaagggtatgtcctcttgtgataaagctcttttctccaaatataaagttcagacaaggttccagcacctcatcttctccagcaccagttgaaaaaccatattttcctatctgcatgcgtttgctgagagtagtatctgttctgattaagcagttttacagtcttttggtaactgaatgtgagatatttctgtcacttctggtgaaatttctggatgcagataaaccacagtggctacgagctgttgcggtggaatcaatacacagattctgtgtgcagcctcaactattaaggtcattttgtcagtcctatgatatgaaacagcattctaccaaggtttttcgtgatattgtaaatgcactgggatcttttatacagtccttgtttcttgtcccccctactggaaatcctgcaacaagcaaccaagctggaaacaataatttaggtggctcagtctcagcaccagctaactcaggaatggtggggattggtggaggtgttactttgctaccagcatttgaatataggggaacctggatacctattctgacaatcacagttcaaggcagtgctaaagccacctacttagaaatgttggacaaagttgagcctccaactatacctgaaggttacgccatgtctgtggcattccattgtttgctagaccttgttcgtggaatcacaagtatgattgaaggagagctaggagagcttgaaacagaatgtcaaaccaccactgaagaaggttcttcaccaacacagtcgacagaacagcaggatttacagtcaacatcagaccaaatggataaggaaattgttagtagggctgtttgggaagaaatggtgaatgcctgctggtgtggtcttcttgctgcactctcactccttcttgatgccagcacagatgaagctgccactgagaatattttaaaagctgaactgactatggctgctctttgtggaagactgggccttgtaacttcaagagatgcctttataactgcaatatgcaaaggttccctgcctccccattatgctcttactgtattgaataccaccactgcagctacactttccaacaaatcatattccgttcagggccaaagtgttatgatgataagtccatcaagtgaatctcaccaacaagttgtggcagtgggtcaacctttagcagtccagcctcaagggacagtaatgctgacttccaaaaatatccagtgtatgaggactttacttaacttggcgcattgccatggggctgttcttggaacatcatggcaacttgtcttggcaactcttcagcatcttgtgtggattctgggattaaagcctagtagtggcggtgccttgaaacctgggagagctgtagaaggacccagtacagttctaacaacagcagtgatgacagatttaccagtgatttccaatatactttcaagattgtttgaaagctcacagtatcttgatgatgtatcactgcatcatttaataaatgcactttgctccttgtctctagaagcaatggatatggcctatggaaataataaggaaccatctctttttgctgttgccaaattgttagaaactggtttagttaatatgcaccgaatagaaattctgtggagacctctgactggccatctacttgaggtctgccagcatccaaactctcgaatgagagaatggggagcagaagctttaacttctcttattaaagcaggattaacatttaaccatgatcctccactctcacaaaaccagaggctgcagttgcttttattgaacccgttaaaggagatgtccaatattaatcatccagatattcgactcaagcagttagaatgcgtgttgcagattctgcagagtcagggagacagtcttgggcctggatggccattagtgcttggagtcatgggagcaatcagaaatgatcaaggagaatccttgatacgaactgcattccagtgtcttcagttggttgtgacagattttctaccaacaatgccttgtacttgcctgcaaatagttgtagatgttgcaggtagctttggcctccataaccaagaactcaatattagtttaacttcaataggtttattgtggaatatttcagattattttttccaaagaggggaaactattgaaaaagaactaaataaggaagaggcagcacagcaaaagcaggcagaagagaaaggagttgttttaaatcggccattccaccctgcaccgccatttgattgcttgtggttatgtctttatgcaaaattgggtgaactatgtgtggatccccgtcctgctgtcaggaagagtgcagggcaaactctgttttctacaattggtgcgcatggaactttattacagcattcaacctggcacactgttatctggaaggtactctttcatctactggacagagttcgagagtcctctaccactgcagacaaagaaaagattgagtctggaggtggcaatattctcattcatcattcaagggacaccgccgagaagcaatgggctgagacgtgggtattaacattggctggagtagcaaggatcttcaacactagaagatatttgctgcagcctttaggagatttttcaagagcttgggatgttcttcttgaccatatacagtcagcagcactcagcaaaaacaatgaagtatctctggctgctctgaaaagcttccaggaaattttacagattgtgtcccctgtcagagactcagataagcctgagacaccacctgtagttaatgtacctgtgcctgttcttatagggcccatatcaggcatgagcaggccatttgtaagaacagattccattggagaaaaactaggaagatatagtagctctgagccacccattgttactgatgagcttgaagatttgaatctatggtgggctgcgtggaatacctggtatagaattggatctgaaagtactaagcctcctattacttttgataaactaacttttattcctagccagccttttcttacagctttaattcagatatttccagctctctaccaacacataaaaactggtttcaatatggatgacttgcaaaagttgggagtcatattgcacagtgctatttcagtcccaataagttcagatgcatccccttttattcttccatcttataccgaagcagttttgacaagtttacaggaagctgtacttacagctttagatgttctccaaaaggccatttgtgtaggaccagaaaacatgcagataatgtatccagctatatttgaccagttgttggcatttgtagaattttcctgtaaacctccacagtatggacagctggaaacaaagcacattgcaaatgcaaaatataatcagatccaactatttgcaccggcggaatgggtagccttgaattatgtgccgtttgctgaaaggtctttagaagtagttgtggatttataccaaaaaacagcgtgtcacaaagcagtggtgaatgagaaagtgctccagaatattattaagactcttagggttcctctcagtttgaagtattcctgcccttctgaaagcacatggaaactagcagtatcctctctcctcagagttctttctattgggctacctgttgcccggcagcatgcttcttctggaaaatttgacagtatgtggccagaactagccaatacttttgaagattttctctttactaaaagcatacctccagataatctctctattcaagagtttcaaagaaatgaaaatattgatgtcgaggtagttcaacttatcagcaatgagatactaccttatgccaattttattcctaaggaatttgttggtcaaataatgacaatgcttaacaagggctcaatacattctcagtcatcttcatttacagaagcagagattgatattcgtttgagagaggaattttctaaaatgtgttttgaaacattactccagttttccttcagtaataaagtcacaacacctcaagaaggctacatctcacgaatggcactctcagtgcttttaaagaggtcccaagatgtactacatcgctatatagaggatgaaagattaagtggtaaatgccctcttccaaggcaacaagtaacagaaattatatttgttttaaaagcagtcagtactcttattgattcacttaagaaaactcagcctgagaatgcttgtatcagcctatttggaataccaccctacttttaaaccttgtttttaatctcttaaagttgatggaaatacctgggcacaagtaattgccttatacccaactttagtagaatgcatcacctgttcttcttcagaagtctgttctgcacttaaagaggcactagttccttttaaggatttcatgcagccaccagcatccagagttcaaaatggagaatcttgaccggctacaatatatttgaaagcaggaagatagtctaaaaaatgtttgctcctaattgagtcttctgtgagaaggacatttcttactgcagataattcttggcagctgttgttggcctcctttaaattctacttacctgagttcagtaattcatattacaggcttgcacatcaacaaaggctcctgaatgaacagcagtgtaaggctttaataaattaaactgatgggagggataattaacactacagtatacatgctaccatatctccagttggtgatttaaagtgagcttatgtacagtttgtggtgtatgtgttaatgatgtactttttaaaaagaaagaagagatatttcaattcagtcagatttattagtctggtgtttttgcaccctttttcaagtacaaaatcgtactagaattttatgcaagatggtactgtaacattccatattatctataaccagcctttgttaacaaagggaactgatatacttgtgtgtataataaatggtacagttctgtataaaatagtgcatttatttaaattttaaaagtattgataatgttaaatgcttaaagctctatttattattaatacaaaattgtttgcttacatttttacttataatttgccttcatatgtggcggataagctcaccatatgatcatgcagttagcttcatgcttattttaaatgtattattagtgaccattaaacatctgaccagtaaggtcatgtgaacacagcagcaaatagtttatgatttgctgattttggagctttgaaatataggttcttaatacattgatacatattgtagcactatgacttcatcatacctcatttctttaaacagctctccaagctttcactgaagtctgtctgttttttatattggctgtctggattttaaagacttttcatattttatatttctactgattttgtttcccctaacaacatttgtcactgtctttgaattatgacccaggcaagatgatttcagattttctaaaatcttgcctgtgaggttttgttcatatcagtgcttcattttgtaatgtcttctcaagaaaaatacctatgttaactcacaagtataaaatatgtgtgtattataaaacaatgaaaagtgtatttttggagatagtcaagcatttagaagtgcagtgaacttgctgtcacggagtaaaatgctaattatgtttcactttcctagcctagtgaaaaagaaaagtgctcttgagtacaataccttaattatttcttaaaatactgactttgacctagctcactgtattttttatttaatggattatggattacagtatttttcttctgagttaaattttcataatttatgtgaagacacaaagatgtttaaaacaatgattattcataagaaatcatgatggtctcagtattattttagtgtattggaaggtctttgatcttaatagaatttataaatttcagcttctccagaataatcataaaactgcaaaaagatattataattgagtcatgattgagatacagttttgaggctattataattgtataattatttaatttgcattatctgtaaaatgtagtaaggtctttgaggggatattttttatttacatgaattactgaatttctattttattatttcacctaaaattaaggtaaaatatggcatttcataagttctgctttcagcattttccttaaagttgtaaaaaatcaagctatgtacttattttctatatttgggtgtgttaaattgaggattagaaaaatccacataatcactgataaagcattgaaacagaataacccaagggtagtgtaccgattcagtaacatgttaaaaatattgctatgcatttattcaaaggaaaatggtctgttcttgagaaataaaagatcagttgcaattaggataattaaatagttaaatatgagtcaagtgtatgcaatatacatttatatgaaccaaagcttgctttatcaggaccatgccctacagttcaaaacataaacatagtgaatgtgttaatatcatataataaggtaataaatgccagtcttagtgtgaagcaagtgggtggcccccttggtagtataattggacaggattttcctccagaatatttcctgtcaccctccaagagtcactacagtaattgattgctggcatggaacacattgcccttgtcttgttagtatgaattgggttctccagtgactagaagaactggggtgtgtgaaagtattcgatgccaggagattcaaaaaggaagctctcaaagataagatcattttatggcacaattgagtctataaccagccctttaagcagtagtaaaaatgtcctttgtcatacttactagaaatactatgagttttttttttttttttcatttgagacggagtctcgctctgtcacccaggctggaatgcagtggcacgatcttggctcactgcaacctctgcttcccgggttcaagcagtttcctgcttcagacttccaagtagctgggattacagacatgccaccatgccaggctaatttttttaatatttttagtagagatggggtttcaccattttggccattctagtcttgaactcctgacctcaggtgatctgcccgccttggcctcccaaagtgctgacattacaggcctgagccactgcgcccagccaataccatgagttttaagcctcacatcgtcacttgctgtcactgccagtgcctgttttattcatattgctggacaacagacatatgccaccaattgtatgattaataaagtctttttctggccattttgtccattataaaggaaataaactaattgttaacttgcatagattacttcttagtttcctatgctaccaccactgccaagggagaaaaaaatacatcattttgtaatgtctttagtatttctttataactagtgttaaggttttgttaattttattgtatacatttgtaacatttattaggagccttttaggttccaaaacaaacaaaaggcataaaaaagtctagcttagaaccacttttcacttgctttcatttttaattttattcacttaacagctaacatctttcttgtttcttgttttttccattatatggttatcgattcaactcttgctatattccttaaatttgtatgtatcatcagaagaaagagatgaacaatttagtgtagatattttattctggagaataatattcaattaaattatttctacagcaggccagtaacaactagattatttgtcctttctcagtataattttaaagagcattttgttttattgtcacaatttggtaccactagtcccaggtaaccattgggccaaaggatcagttgagaaacagttaaggatgaattagcataagttatggaacagtgttagaaaacaactcaaaagtatattctttattaatgaggtggtcattattacatttgtgtcaatgaagggcagtgtagttattttaaaatgactaatattttctccccaaatacagaataattcagatgggcaaccaagttttcaagagactgctgtaggtgaagtctgtctagccaaggcagaacacttacaggagtccctaactgtgccacccttggaatgggttagtgtacaggctcagaatattgtggattacagtttttcagagaaaactaccacagatgtagacaaaaatgatctctgaaagcattgccagcagccaggtatgttccttagatttccacttaggtttggcattttggcagataagctaatcttgtataaagcatcacattttactatgcttagtgttcctgggttgtatttatctacattattagagggaatttttattttaaaaaaattgtcattcatgagaagaatgggagttcatgccacatagtattttaccaatttatataaagtgggaaaagtctttaatacttcatgatcacttgaattaaagtttttgtatctctggaaagtagaatagtgctttcatttgaatgaaaagtgtttatagattcagaaagagagatgatatctttgtatcttgatttatatacagaccatttcagaggaagttaaatgtcttacaaatccaatactttctaatgctctaacagtgttggctatttaaaagaacatgtggcaagttctatatgaatattcttggtcatctcgactaattctgaggcaatgatggacagagatgctacttcttatttaactctaggcatgttgacttttcaaagcggtttccttatttctaaacagagatgatgatcaatgagttactaattctttagaggaaaaaatgcataatttgagtgtggagttgattttaatgacagggtaattcaagttgtttgataaatttattactatattgtaagagagatctttgaccatttttcttcctttttcttggacatcactttcttccctccccttctctcttttatgtttttatccttgttaaattttatgtttacgttaccatctttcttatactttcccctgatttttctcttttaattcctctttcattctctgcctcttctctttcagctctttctctaattgtgcctattccttgttcataagaagtggagctgttagtggtagaaccactgctcatggttctaccactacaaagtggaaagtagaaatactttgcactttggccactgttgcgtttttgccaaggtaaagttcccctgccattttgaaatagctgaacaagttaaagtaatatgttccaaaaactggaagtgccataaaaaactaaaaataaaaaaaaattgtgacta
//
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
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