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2024-04-20 13:30:10, GGRNA : RefSeq release 60 (20130726)
LOCUS NM_015446 8643 bp mRNA linear PRI 17-APR-2013
DEFINITION Homo sapiens AT hook containing transcription factor 1 (AHCTF1),
mRNA.
ACCESSION NM_015446 XM_942402
VERSION NM_015446.4 GI:262359928
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 8643)
AUTHORS Clever,M., Funakoshi,T., Mimura,Y., Takagi,M. and Imamoto,N.
TITLE The nucleoporin ELYS/Mel28 regulates nuclear envelope subdomain
formation in HeLa cells
JOURNAL Nucleus 3 (2), 187-199 (2012)
PUBMED 22555603
REMARK GeneRIF: ELYS/Mel28 plays a role in NE subdomain formation in late
mitosis
REFERENCE 2 (bases 1 to 8643)
AUTHORS Rasala,B.A., Orjalo,A.V., Shen,Z., Briggs,S. and Forbes,D.J.
TITLE ELYS is a dual nucleoporin/kinetochore protein required for nuclear
pore assembly and proper cell division
JOURNAL Proc. Natl. Acad. Sci. U.S.A. 103 (47), 17801-17806 (2006)
PUBMED 17098863
REMARK GeneRIF: Results suggets that ELYS is an unexpected member of the
nuclear pore and kinetochore that functions in both pore assembly
at the nucleus and faithful cell division.
REFERENCE 3 (bases 1 to 8643)
AUTHORS Beausoleil,S.A., Villen,J., Gerber,S.A., Rush,J. and Gygi,S.P.
TITLE A probability-based approach for high-throughput protein
phosphorylation analysis and site localization
JOURNAL Nat. Biotechnol. 24 (10), 1285-1292 (2006)
PUBMED 16964243
REFERENCE 4 (bases 1 to 8643)
AUTHORS Nousiainen,M., Sillje,H.H., Sauer,G., Nigg,E.A. and Korner,R.
TITLE Phosphoproteome analysis of the human mitotic spindle
JOURNAL Proc. Natl. Acad. Sci. U.S.A. 103 (14), 5391-5396 (2006)
PUBMED 16565220
REFERENCE 5 (bases 1 to 8643)
AUTHORS Kimura,N., Takizawa,M., Okita,K., Natori,O., Igarashi,K., Ueno,M.,
Nakashima,K., Nobuhisa,I. and Taga,T.
TITLE Identification of a novel transcription factor, ELYS, expressed
predominantly in mouse foetal haematopoietic tissues
JOURNAL Genes Cells 7 (4), 435-446 (2002)
PUBMED 11952839
COMMENT VALIDATED REFSEQ: This record has undergone validation or
preliminary review. The reference sequence was derived from
AC113174.3, AB059277.1 and BC012307.1.
On Nov 4, 2009 this sequence version replaced gi:67551264.
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 :: AB059277.1 [ECO:0000332]
RNAseq introns :: mixed/partial sample support
ERS025081, ERS025082 [ECO:0000350]
##Evidence-Data-END##
COMPLETENESS: complete on the 3' end.
PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP
1-109 AC113174.3 122397-122505 c
110-243 AB059277.1 110-243
244-244 AC113174.3 109332-109332 c
245-625 AB059277.1 245-625
626-626 AC113174.3 104367-104367 c
627-735 AB059277.1 627-735
736-834 AC113174.3 98686-98784 c
835-959 AB059277.1 835-959
960-973 AC113174.3 96654-96667 c
974-2059 AB059277.1 974-2059
2060-2060 AC113174.3 82869-82869 c
2061-3743 AB059277.1 2061-3743
3744-3744 AC113174.3 53155-53155 c
3745-3932 AB059277.1 3745-3932
3933-3933 AC113174.3 52303-52303 c
3934-5513 AB059277.1 3934-5513
5514-5514 AC113174.3 41697-41697 c
5515-6761 AB059277.1 5515-6761
6762-8643 BC012307.1 531-2412
FEATURES Location/Qualifiers
source 1..8643
/organism="Homo sapiens"
/mol_type="mRNA"
/db_xref="taxon:9606"
/chromosome="1"
/map="1q44"
gene 1..8643
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/note="AT hook containing transcription factor 1"
/db_xref="GeneID:25909"
/db_xref="HGNC:24618"
/db_xref="MIM:610853"
exon 1..117
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
CDS 98..6925
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/note="ELYS transcription factor like protein TMBS62; ELYS
transcription factor-like protein TMBS62; embryonic large
molecule derived from yolk sac; putative
AT-hook-containing transcription factor 1"
/codon_start=1
/product="protein ELYS"
/protein_id="NP_056261.4"
/db_xref="GI:262359929"
/db_xref="CCDS:CCDS1629.2"
/db_xref="GeneID:25909"
/db_xref="HGNC:24618"
/db_xref="MIM:610853"
/translation="
MAAERRCGSMRDLRAQVTSGLLPFPEVTLQALGEDEITLESVLRGKFAAGKNGLACLACGPQLEVVNSITGERLSAYRFSGVNEQPPVVLAVKEFSWQKRTGLLIGLEETEGSVLCLYDLGISKVVKAVVLPGRVTAIEPIINHGGASASTQHLHPSLRWLFGVAAVVTDVGQILLVDLCLDDLSCNQNEVEASDLEVLTGIPAEVPHIRESVMRQGRHLCFQLVSPTGTAVSTLSYISRTNQLAVGFSDGYLALWNMKSMKREYYIQLESGQVPVYAVTFQEPENDPRNCCYLWAVQSTQDSEGDVLSLHLLQLAFGNRKCLASGQILYEGLEYCEERYTLDLTGGMFPLRGQTSNTKLLGCQSIEKFRSHGDREEGVNEALSPDTSVSVFTWQVNIYGQGKPSVYLGLFDINRWYHAQMPDSLRSGEYLHNCSYFALWSLESVVSRTSPHGILDILVHERSLNRGVPPSYPPPEQFFNPSTYNFDATCLLNSGVVHLTCTGFQKETLTFLKKSGPSLNELIPDGYNRCLVAGLLSPRFVDVQPSSLSQEEQLEAILSAAIQTSSLGLLTGYIRRWITEEQPNSATNLRFVLEWTWNKVVLTKEEFDRLCVPLFDGSCHFMDPQTIQSIQQCYLLLSNLNIVLSCFASEAREITERGLIDLSNKFVVSHLICQYAQVVLWFSHSGLLPEGIDDSVQLSRLCYNYPVIQNYYTSRRQKFERLSRGKWNPDCLMIDGLVSQLGERIEKLWKRDEGGTGKYPPASLHAVLDMYLLDGVTEAAKHSITIYLLLDIMYSFPNKTDTPIESFPTVFAISWGQVKLIQGFWLIDHNDYESGLDLLFHPATAKPLSWQHSKIIQAFMSQGEHRQALRYIQTMKPTVSSGNDVILHLTVLLFNRCMVEAWNFLRQHCNRLNIEELLKHMYEVCQEMGLMEDLLKLPFTDTEQECLVKFLQSSASVQNHEFLLVHHLQRANYVPALKLNQTLKINVMNDRDPRLRERSLARNSILDQYGKILPRVHRKLAIERAKPYHLSTSSVFRLVSRPKPLSAVPKQVVTGTVLTRSVFINNVLSKIGEVWASKEPINSTTPFNSSKIEEPSPIVYSLPAPELPEAFFGTPISKASQKISRLLDLVVQPVPRPSQCSEFIQQSSMKSPLYLVSRSLPSSSQLKGSPQAISRASELHLLETPLVVKKAKSLAMSVTTSGFSEFTPQSILRSTLRSTPLASPSPSPGRSPQRLKETRISFVEEDVHPKWIPGAADDSKLEVFTTPKKCAVPVETEWLKSKDRTTSFFLNSPEKEHQEMDEGSQSLEKLDVSKGNSSVSITSDETTLEYQDAPSPEDLEETVFTASKPKSSSTALTTNVTEQTEKDGDKDVFASEVTPSDLQKQMGNLEDAETKDLLVAAEAFSELNHLSPVQGTEASLCAPSVYEGKIFTQKSKVPVLDEGLTSVETYTPAIRANDNKSMADVLGDGGNSSLTISEGPIVSERRLNQEVALNLKEDHEVEVGVLKESVDLPEEKLPISDSPPDTQEIHVIEQEKLEAQDSGEEARNLSFNELYPSGTLKLQYNFDTIDQQFCDLADNKDTAECDIAEVDGELFVAQSNFTLILEGEEGEVEPGDFASSDVLPKAANTATEEKLVCSGENDNHGQIANLPSAVTSDQKSQKVDTLPYVPEPIKVAIAENLLDVIKDTRSKEITSDTMEQSIHETIPLVSQNIMCPTKLVKSAFKTAQETSTMTMNVSQVDDVVSSKTRTRGQRIQNVNVKSAQQEASADVATPKMPGQSVRKKTRKAKEISEASENIYSDVRGLSQNQQIPQNSVTPRRGRRKKEVNQDILENTSSVEQELQITTGRESKRLKSSQLLEPAVEETTKKEVKVSSVTKRTPRRIKRSVENQESVEIINDLKVSTVTSPSRMIRKLRSTNLDASENTGNKQDDKSSDKQLRIKHVRRVRGREVSPSDVREDSNLESSQLTVQAEFDMSAIPRKRGRPRKINPSEDVGSKAVKEERSPKKKEAPSIRRRSTRNTPAKSENVDVGKPALGKSILVPNEELSMVMSSKKKLTKKTESQSQKRSLHSVSEERTDEMTHKETNEQEERLLATASFTKSSRSSRTRSSKAILLPDLSEPNNEPLFSPASEVPRKAKAKKIEVPAQLKELVSDLSSQFVISPPALRSRQKNTSNKNKLEDELKDDAQSVETLGKPKAKRIRTSKTKQASKNTEKESAWSPPPIEIRLISPLASPADGVKSKPRKTTEVTGTGLGRNRKKLSSYPKQILRRKML
"
misc_feature 2285..2992
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/note="Nuclear pore complex assembly; Region: ELYS;
pfam13934"
/db_xref="CDD:206105"
exon 118..245
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 246..499
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 500..680
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 681..888
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 889..1005
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 1006..1090
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 1091..1241
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 1242..1374
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 1375..1556
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 1557..1618
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 1619..1747
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 1748..1838
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 1839..1928
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 1929..2069
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 2070..2174
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 2175..2268
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 2269..2392
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 2393..2449
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 2450..2596
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 2597..2784
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 2785..2929
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 2930..3061
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 3062..3212
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 3213..3363
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 3364..3471
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 3472..3664
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 3665..3859
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 3860..4256
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 4257..4380
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 4381..4478
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 4479..4687
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 4688..6515
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 6516..6649
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 6650..6732
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
exon 6733..8633
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/inference="alignment:Splign:1.39.8"
variation 7002
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/replace="a"
/replace="g"
/db_xref="dbSNP:1047080"
variation 7010
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/replace="a"
/replace="c"
/db_xref="dbSNP:1047085"
STS 8194..8300
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/standard_name="RH26330"
/db_xref="UniSTS:84426"
variation 8558
/gene="AHCTF1"
/gene_synonym="ELYS; MST108; MSTP108; TMBS62"
/replace="a"
/replace="g"
/db_xref="dbSNP:1053916"
ORIGIN
tggggctcgagggggcgagcggtggcggtggcgggtacggcaggctcgcgggcgccgggcttcgttacataatctcggaccggaggagcggcggcacatggcggcggagcggcgctgtggaagtatgcgagacttaagagctcaagtgactagtggtctcctgccatttccagaagtgactcttcaagcccttggagaagacgaaataacattagaatctgtgcttcgtggaaagtttgctgcagggaaaaatggacttgcttgcttggcttgtggtccacaacttgaggtagtaaactctataacaggagagcgattgtctgcttacagattcagtggagtcaatgaacagcctcctgtagttttagctgtgaaagaattctcttggcagaagagaactggattattaataggattggaagaaacagaagggagtgttctctgtctttatgaccttggaatatcaaaagtagttaaagcagttgttcttcctggaagggtaacagctattgaacctataattaatcatggaggagccagtgcaagcactcagcatttacatccaagtctgcgatggctttttggagtggcagctgtggtcactgatgttggacagatccttcttgttgacctatgtttggatgacttgtcatgcaatcaaaatgaagttgaagcatcagatcttgaagttctaactggtatcccagctgaagtaccacacattagagaaagtgtaatgagacaagggcgccatctgtgtttccagttagtaagtccaacaggaacagctgtttcaactcttagttacataagcaggacaaatcagcttgctgtaggtttttctgatggctatctagcactttggaacatgaaaagcatgaaaagagaatattacatacaattggaaagtggacaagttcctgtatatgctgtcacttttcaagaacctgagaatgatcctcggaattgctgttacttgtgggctgttcagtctacacaagatagtgaaggggatgttttgagtttgcatctgctgcagctggcctttggtaatagaaagtgtttggcatcaggacaaatcttatatgaggggttagaatactgtgaagaaagatacaccctggacctgacaggtggcatgttccctttgaggggacagacgagtaataccaaattgttgggatgccagagtatagagaaatttcgatctcatggtgacagggaggaaggcgtgaatgaagctctatcgcctgacactagtgtttcagtctttacctggcaggtgaatatatatggacagggaaagccttctgtatatttggggctttttgatataaatcgttggtatcatgcacaaatgccagattcgttaaggtcaggagaatatctacataattgctcttattttgcactgtggtcattggagtctgttgtaagtaggacttctccacatggcatcttggatatattagtacatgagagaagtttaaatagaggagtccctccttcatatccacctcccgagcagttttttaatccaagcacttataattttgatgccacttgtttgttaaactcgggagttgttcatttaacttgtactggctttcagaaggagactttgacttttttaaagaaatcaggtccatcactcaatgaactcattcctgatggttataatcgatgtcttgtagctggccttctttccccaagatttgttgatgttcagccttccagtttaagccaagaagaacagttagaagctatattgtcagcagcaattcagactagttccctgggacttttgactggttatatccgaagatggataacagaagaacaaccaaattctgccactaatttgcgctttgttcttgaatggacgtggaataaagtggttctcacaaaagaggaatttgacagactatgtgtgccattatttgatggttcgtgtcatttcatggatccacaaactatacagtctatccagcaatgctatttgcttcttagcaatcttaatatagtcttgagctgttttgcatcagaagcccgagagatcactgagagaggactgatagacttaagcaataagtttgtggtttcccacctcatctgtcagtatgcacaagtggttctttggttctctcattctgggcttttaccagaaggcatagatgattctgtgcagttgtcaaggttatgctacaactaccctgtaattcagaactactacaccagtcgtcgacagaagtttgagcgtttatcaagagggaagtggaatcccgattgcttgatgattgatggactggtttctcagttaggagagcgaattgagaagttgtggaaacgagatgaaggaggcacaggaaaatatcctcctgctagtctgcatgcagtacttgatatgtacctattagacggcgttactgaagcagccaaacactctattaccatttatttgctacttgatattatgtattcctttcccaacaaaacagacactcccattgaatctttcccaactgtatttgccatttcttggggccaagttaaacttattcaggggttttggttgatagatcataatgactatgagagtggtttggatcttttgtttcatccagctactgcaaaacctttgtcatggcaacattcaaagattattcaggcattcatgagtcagggcgagcacagacaagccctcagatatattcagacaatgaagccaacagtgtccagtggtaacgatgttatccttcacctcactgttttgctttttaataggtgtatggttgaagcctggaattttttgcggcaacattgcaataggttgaatatagaggagttactgaagcacatgtatgaagtctgtcaggaaatgggcttgatggaagatttactgaagttaccatttacagacactgagcaggaatgtttagtgaaatttttgcagtccagtgccagcgttcagaatcatgaattccttttagtgcaccatttgcagcgtgccaattatgtgcctgccttgaagctgaaccaaactctgaagattaatgttatgaatgatcgtgatcctcgtttgcgggagagatcactggctcgaaattctatattagaccagtatggaaaaatccttcctagagtccatcgaaaattagccattgaacgagctaagccttatcatctgtcaacatcatcagtttttcgattagtttctagacccaaaccattatcagcagttccaaagcaagttgtaacaggaactgtgttgacaagatctgttttcatcaacaatgtgttatctaaaattggagaagtttgggcaagcaaagaacctataaatagcaccacacctttcaatagttctaaaatagaagaaccatctcctatagtgtattcgctcccagctccagagctgcctgaggcattttttggaacaccaatttcaaaagcatcacaaaaaatttctagactgctagatttggttgttcagcctgtcccccggccttctcagtgttcggagtttattcagcaaagctccatgaaatctcctttgtacctagtatcccgttcactgccctcaagttcgcaattaaaaggatcgcctcaggccatctccagggcttcagaattacatttgcttgaaactcctcttgtagttaagaaagctaaaagtttggccatgtcagttactacttctggattttctgagttcactcctcagtccatcctgaggtctactcttcgatcaacacctttagcatctccctctccatcacctggaaggtctcctcaacgacttaaagaaactagaatttcatttgtggaagaagatgtccacccaaaatggattcctggggctgcagatgatagcaaattagaagtatttactacacctaaaaaatgtgcagttccagtggaaactgaatggctgaagagcaaagataggaccacatcttttttcctgaacagccctgaaaaggagcatcaagaaatggatgaggggtcacaaagtttagagaaactggatgtgagcaaaggaaacagcagtgtttcaatcacatccgatgagactaccttagagtatcaggatgcaccgtcaccggaagaccttgaagagactgttttcacggcctctaagcccaaaagctcttccactgcactaactactaatgtaactgaacaaactgaaaaggatggagataaagatgtatttgcatcagaagtaactccttcagacctacagaaacaaatgggcaatttagaagatgcagaaacaaaggatctcttagttgcagcagaggcattttcagaattgaatcacttaagcccggttcaaggaactgaagcttctctttgtgcaccatcagtctatgaagggaaaatcttcacccagaagtccaaggtaccagtgttggacgaaggattaacatctgttgaaacctacacccctgcaattagagcaaatgacaataaatctatggctgatgtccttggtgatggtggaaactcctcgctcactatctctgaaggtcctattgtctctgagcgcaggcttaaccaggaagtagcgctgaacttaaaagaagatcatgaagtagaagttggtgtactaaaagaaagtgttgacttaccagaagaaaagcttccaatttctgacagccctcctgatactcaagaaattcatgtgattgaacaagaaaagcttgaagctcaagattcaggagaagaggctaggaatctttcatttaatgagttatatccctctggaacacttaagcttcagtacaattttgatactattgaccaacagttttgtgacttagctgataacaaagacactgctgaatgtgacattgctgaagtagatggggaactttttgtggctcaaagcaactttaccttgatattggaaggtgaagaaggagaagttgagccaggtgattttgcatcatctgatgtgttacctaaagcagctaacacagcaactgaagaaaaacttgtatgcagtggggaaaatgataatcatggacaaattgcaaatttgccatctgccgtaactagtgaccaaaagtcccaaaaagtagacactttaccatatgtgcctgaacctattaaagtagcaattgcagaaaatttactagatgtaattaaagacacaagaagtaaagaaattacttcagatacaatggaacagtccattcatgaaacaatacctttagtgagccaaaacataatgtgtcccactaaattggtcaaatctgcatttaagactgctcaggaaacaagcacaatgactatgaatgtcagccaggttgatgacgtggtttcctccaaaactcgtacgagaggtcaacgtatccaaaacgtgaatgtcaaatcagcacaacaggaagcatcagcagatgttgctactcctaagatgccagggcagtcagtcaggaagaaaactaggaaggcaaaagaaatttctgaagcttctgaaaacatctattctgatgtcagaggactatctcagaaccagcaaatacctcaaaattctgttacgcctaggagaggaaggagaaagaaagaagttaatcaggacatactagaaaacaccagttctgtggaacaagaattacagatcactacaggtagggaatcaaaaagattaaaatcatctcagctgttggaaccagcagttgaagaaactactaaaaaagaagttaaggtttcatctgttacaaaaaggactcctagaagaattaaaagatctgtagaaaatcaggaaagtgttgaaattataaatgatctaaaagttagtacggtaacaagtcctagcagaatgatcagaaaattgagaagtactaatttagatgcttctgaaaatacaggaaataagcaagatgataaatccagtgacaagcagctgcgtattaaacatgttagaagggtcagagggagagaagttagtccatcagatgtgagagaagactccaaccttgagtcatctcagttgactgttcaagcagaatttgatatgtctgccatacctagaaaacgtggtagaccaagaaaaatcaatccatctgaagatgtaggatctaaggctgttaaggaagagagaagccccaagaagaaagaagctcccagcattagaaggagatctacaagaaataccccagctaaaagtgaaaatgttgatgttggaaaaccagctttaggaaaatccattttagtgccaaacgaggaactttcgatggtgatgagctctaagaaaaaacttacaaaaaagactgaaagtcaaagccaaaaacgttcattgcactcagtatcagaagaacgcacagatgaaatgacacataaagaaacaaatgagcaggaagaaagattgctcgccacagcttccttcactaaatcatcccgcagcagcaggactcggtctagcaaggccatcttgttgccggacctttctgaaccaaacaatgagcctttattttctccagcgtcagaagttccaaggaaagcaaaagctaaaaaaatagaggttcctgcacagctgaaagaattagtttcggatttatcttctcagtttgtcatctcacctcctgctttaaggagcagacaaaaaaacacatccaataagaacaagcttgaagatgaactgaaagatgatgcacaatcagtagaaactctgggaaagccaaaagcgaaacgaatcaggacgtcaaaaacaaaacaagcaagcaaaaacacagaaaaagaaagtgcttggtcacctcctcccatagaaattcggctgatttcccccttggctagcccagctgacggagtcaagagcaaaccaagaaaaactacagaagtgacaggaacaggtcttggaaggaacagaaagaaactgtcttcctatccaaagcaaattttacgcagaaaaatgctgtaatttcttgggaagattttaatgtacacctatttgtaaagtcatcagaatagtgtggattattaaatatctagtttggaagaaaataatttatataaattattgtaaatttttatgtaaacagaaggtcttcaataagtaaagtaactccatatggagtgattgtttcagtccaggcaatttttctattttatattaagacttcatacatttatatatgtaaatatggcttattaatggaatgttaaataaaatgtatacttcacagtcgtttgtgtcttggatttttgaaagggaggggatatctgtttaaatagttttatatgctcattggtctcattttctctataattaaaatactagaccagtcttaaaatggggatgattgaagtattgatatttctttttacagttactattttataatttatgcactttgattctgtgattcagatttctaatcagaaaatgtatttttttgtttttggctgttactatgttaaaattgaattatgggcatgtcattttgccatctttgtagtttcacaaattttgtgtaatctacctcaaatgaataatccaagtattggttaactataatgttggcatctcttattcggcaagcttaaaggctctttaaagtcttaattagtcaaagactaatccaggttagattgaccggttcactgctcacttgcaaccttatcaaagggtttgacaaagggaaatgtaaaataaatctgtttatggatattgagtgcatcttgtatgtgcctaatattgataggatgagatgtctgaacaaatttttataatattgctgtgaaggagcttgctattgaaccacagaaatcccttaatattcaggttttaaaactggcaaattctcacaggacctcaggcacagattattgaggttgggagagagtgagtagatgtagaaaaggagaaaaacaacacacgccctgttctctacagtacaactgtgtgcaattaagcaatggtacttgatgtaggctctaacactcatcaataaataagtgttgtaaaataatttataacaggtaatcgatagtgtgtaatgaatggactattaataattgattatctagaaacgaactgctttcgtgggcttttaatattttaatgtgaagcatatgcagtgtgctttctgcatttatttttctaccaaataatacagataatgagaaattggtgaaaatgcctacgcaaagtgttgacagtgtgaaagcagtgcgagtgcggccttttagtcaggttagtgatggatgttacgctgccttgttgaaaatttcactgactttgattttattacttttttaatgatagttatcaaacttgtatttaagctgcttgtcatttatggaatattgaacttatttaaatgaacttgttaaatgaataaagagctaaacataattcagtaaacaattcctttgcgcaagtagcacaataaacatggatgcaacgtatgtcaagttaatacttttttaaaccaacgcaatttggtgaatatagatgtgtggtacctgtttttaataagtgtactttttttcccccctccgtgaatgtagatcataagcaaacaaattgcctgttctaaatgaactttacatatattttaaatgaatgtatgtacttacgtataaatgtctttatatagcttgaataaaaacactgctcattaaaaaaaaaaaaaa
//
ANNOTATIONS from NCBI Entrez Gene (20130726):
GeneID:25909 -> Molecular function: GO:0003677 [DNA binding] evidence: IEA
GeneID:25909 -> Molecular function: GO:0003700 [sequence-specific DNA binding transcription factor activity] evidence: IEA
GeneID:25909 -> Biological process: GO:0000278 [mitotic cell cycle] evidence: TAS
GeneID:25909 -> Biological process: GO:0000910 [cytokinesis] evidence: IMP
GeneID:25909 -> Biological process: GO:0015031 [protein transport] evidence: IEA
GeneID:25909 -> Biological process: GO:0051028 [mRNA transport] evidence: IEA
GeneID:25909 -> Biological process: GO:0051292 [nuclear pore complex assembly] evidence: IMP
GeneID:25909 -> Cellular component: GO:0000777 [condensed chromosome kinetochore] evidence: IDA
GeneID:25909 -> Cellular component: GO:0000785 [chromatin] evidence: IDA
GeneID:25909 -> Cellular component: GO:0005634 [nucleus] evidence: IDA
GeneID:25909 -> Cellular component: GO:0005643 [nuclear pore] evidence: IDA
GeneID:25909 -> Cellular component: GO:0005654 [nucleoplasm] evidence: IEA
GeneID:25909 -> Cellular component: GO:0005829 [cytosol] evidence: TAS
GeneID:25909 -> Cellular component: GO:0016363 [nuclear matrix] evidence: IEA
GeneID:25909 -> Cellular component: GO:0031080 [nuclear pore outer ring] evidence: IDA
GeneID:25909 -> Cellular component: GO:0031965 [nuclear membrane] evidence: IDA
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