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2024-04-18 11:47:24, GGRNA : RefSeq release 60 (20130726)
LOCUS NM_001146185 8375 bp mRNA linear PRI 07-JUL-2013
DEFINITION Homo sapiens paternally expressed 3 (PEG3), transcript variant 3,
mRNA.
ACCESSION NM_001146185
VERSION NM_001146185.1 GI:226053147
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 8375)
AUTHORS Haggarty,P., Hoad,G., Campbell,D.M., Horgan,G.W., Piyathilake,C.
and McNeill,G.
TITLE Folate in pregnancy and imprinted gene and repeat element
methylation in the offspring
JOURNAL Am. J. Clin. Nutr. 97 (1), 94-99 (2013)
PUBMED 23151531
REMARK GeneRIF: None of the folate cycle genotypes in the mother or infant
were related to the methylation of IGF2, PEG3, or LINE-1.
REFERENCE 2 (bases 1 to 8375)
AUTHORS Jiang,X., Yu,Y., Yang,H.W., Agar,N.Y., Frado,L. and Johnson,M.D.
TITLE The imprinted gene PEG3 inhibits Wnt signaling and regulates glioma
growth
JOURNAL J. Biol. Chem. 285 (11), 8472-8480 (2010)
PUBMED 20064927
REMARK GeneRIF: mammalian imprinting utilizes Peg3/Pw1 to co-opt the Wnt
pathway, thereby regulating development and glioma growth
REFERENCE 3 (bases 1 to 8375)
AUTHORS Wheeler,H.E., Metter,E.J., Tanaka,T., Absher,D., Higgins,J.,
Zahn,J.M., Wilhelmy,J., Davis,R.W., Singleton,A., Myers,R.M.,
Ferrucci,L. and Kim,S.K.
TITLE Sequential use of transcriptional profiling, expression
quantitative trait mapping, and gene association implicates MMP20
in human kidney aging
JOURNAL PLoS Genet. 5 (10), E1000685 (2009)
PUBMED 19834535
REMARK GeneRIF: Observational study of gene-disease association. (HuGE
Navigator)
REFERENCE 4 (bases 1 to 8375)
AUTHORS Huang,J.M. and Kim,J.
TITLE DNA methylation analysis of the mammalian PEG3 imprinted domain
JOURNAL Gene 442 (1-2), 18-25 (2009)
PUBMED 19397955
REMARK GeneRIF: PEG3 imprinted domain of humans, cows, and mice contains
differing numbers of differentially methylated regions (DMR), but
the PEG3-CpG island is the only DMR that is conserved among these
three species.
REFERENCE 5 (bases 1 to 8375)
AUTHORS Otsuka,S., Maegawa,S., Takamura,A., Kamitani,H., Watanabe,T.,
Oshimura,M. and Nanba,E.
TITLE Aberrant promoter methylation and expression of the imprinted PEG3
gene in glioma
JOURNAL Proc. Jpn. Acad., Ser. B, Phys. Biol. Sci. 85 (4), 157-165 (2009)
PUBMED 19367087
REMARK GeneRIF: abnormal regulation of PEG3 is associated with several
glioma subtypes and that it plays an important role in
tumorigenesis.
REFERENCE 6 (bases 1 to 8375)
AUTHORS Hiby,S.E., Lough,M., Keverne,E.B., Surani,M.A., Loke,Y.W. and
King,A.
TITLE Paternal monoallelic expression of PEG3 in the human placenta
JOURNAL Hum. Mol. Genet. 10 (10), 1093-1100 (2001)
PUBMED 11331620
REMARK GeneRIF: PEG3 gene is imprinted, with preferential expression from
the paternal allele in human placenta.
REFERENCE 7 (bases 1 to 8375)
AUTHORS Relaix,F., Wei,Xj., Li,W., Pan,J., Lin,Y., Bowtell,D.D.,
Sassoon,D.A. and Wu,X.
TITLE Pw1/Peg3 is a potential cell death mediator and cooperates with
Siah1a in p53-mediated apoptosis
JOURNAL Proc. Natl. Acad. Sci. U.S.A. 97 (5), 2105-2110 (2000)
PUBMED 10681424
REFERENCE 8 (bases 1 to 8375)
AUTHORS Kim,J., Bergmann,A. and Stubbs,L.
TITLE Exon sharing of a novel human zinc-finger gene, ZIM2, and
paternally expressed gene 3 (PEG3)
JOURNAL Genomics 64 (1), 114-118 (2000)
PUBMED 10708526
REFERENCE 9 (bases 1 to 8375)
AUTHORS Relaix,F., Wei,X.J., Wu,X. and Sassoon,D.A.
TITLE Peg3/Pw1 is an imprinted gene involved in the TNF-NFkappaB signal
transduction pathway
JOURNAL Nat. Genet. 18 (3), 287-291 (1998)
PUBMED 9500555
REFERENCE 10 (bases 1 to 8375)
AUTHORS Kim,J., Ashworth,L., Branscomb,E. and Stubbs,L.
TITLE The human homolog of a mouse-imprinted gene, Peg3, maps to a zinc
finger gene-rich region of human chromosome 19q13.4
JOURNAL Genome Res. 7 (5), 532-540 (1997)
PUBMED 9149948
COMMENT REVIEWED REFSEQ: This record has been curated by NCBI staff. The
reference sequence was derived from AK295679.1, AF208969.1,
AF208967.1, BC037330.2, CR933682.1 and AI089069.1.
Summary: In human, ZIM2 and PEG3 are treated as two distinct genes
though they share multiple 5' exons and a common promoter and both
genes are paternally expressed (PMID:15203203). Alternative
splicing events connect their shared 5' exons either with the
remaining 4 exons unique to ZIM2, or with the remaining 2 exons
unique to PEG3. In contrast, in other mammals ZIM2 does not undergo
imprinting and, in mouse, cow, and likely other mammals as well,
the ZIM2 and PEG3 genes do not share exons. Human PEG3 protein
belongs to the Kruppel C2H2-type zinc finger protein family. PEG3
may play a role in cell proliferation and p53-mediated apoptosis.
PEG3 has also shown tumor suppressor activity and tumorigenesis in
glioma and ovarian cells. Alternative splicing of this PEG3 gene
results in multiple transcript variants encoding distinct isoforms.
[provided by RefSeq, Sep 2009].
Transcript Variant: This variant (3) is missing a 5' non-coding
exon, and uses an alternate acceptor splice site at the first
coding exon compared to variant 1. This results in the use of an
in-frame downstream start codon, and an isoform (2) with a shorter
N-terminus compared to isoform 1.
Publication Note: This RefSeq record includes a subset of the
publications that are available for this gene. Please see the Gene
record to access additional publications.
##Evidence-Data-START##
Transcript exon combination :: AF208969.1 [ECO:0000332]
RNAseq introns :: mixed/partial sample support
ERS025084 [ECO:0000350]
##Evidence-Data-END##
##RefSeq-Attributes-START##
imprinted gene :: PMID: 11331620
##RefSeq-Attributes-END##
COMPLETENESS: complete on the 3' end.
PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP
1-30 AK295679.1 1-30
31-4768 AF208969.1 1-4738
4769-6011 AF208967.1 5129-6371
6012-7378 BC037330.2 1379-2745
7379-8242 CR933682.1 4949-5812
8243-8375 AI089069.1 1-133 c
FEATURES Location/Qualifiers
source 1..8375
/organism="Homo sapiens"
/mol_type="mRNA"
/db_xref="taxon:9606"
/chromosome="19"
/map="19q13.4"
gene 1..8375
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/note="paternally expressed 3"
/db_xref="GeneID:5178"
/db_xref="HGNC:8826"
/db_xref="MIM:601483"
exon 1..145
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/inference="alignment:Splign:1.39.8"
variation 23
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/replace="g"
/replace="t"
/db_xref="dbSNP:28384422"
exon 146..232
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/inference="alignment:Splign:1.39.8"
misc_feature 203..205
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/note="upstream in-frame stop codon"
exon 233..398
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/inference="alignment:Splign:1.39.8"
CDS 383..4771
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/note="isoform 2 is encoded by transcript variant 3; zinc
finger and SCAN domain-containing protein 24; Kruppel-type
zinc finger protein; paternally-expressed gene 3 protein"
/codon_start=1
/product="paternally-expressed gene 3 protein isoform 2"
/protein_id="NP_001139657.1"
/db_xref="GI:226053148"
/db_xref="CCDS:CCDS58685.1"
/db_xref="GeneID:5178"
/db_xref="HGNC:8826"
/db_xref="MIM:601483"
/translation="
MYQPEDDNNSDVTSDDDMTRNRRESSPPHSVHSFSDRDWDRRGRSRDMEPRDRWSHTRNPRSRMPPRDLSLPVVAKTSFEMDREDDRDSRAYESRSQDAESYQNVVDLAEDRKPHNTIQDNMENYRKLLSLVQLAEDDGHSHMTQGHSSRSKRSAYPSTSRGLKTMPEAKKSTHRRGICEDESSHGVIMEKFIKDVSRSSKSGRARESSDRSQRFPRMSDDNWKDISLNKRESVIQQRVYEGNAFRGGFRFNSTLVSRKRVLERKRRYHFDTDGKGSIHDQKGCPRKKPFECGSEMRKAMSVSSLSSLSSPSFTESQPIDFGAMPYVCDECGRSFSVISEFVEHQIMHTRENLYEYGESFIHSVAVSEVQKSQVGGKRFECKDCGETFNKSAALAEHRKIHARGYLVECKNQECEEAFMPSPTFSELQKIYGKDKFYECRVCKETFLHSSALIEHQKIHFGDDKDNEREHERERERERGETFRPSPALNEFQKMYGKEKMYECKVCGETFLHSSSLKEHQKIHTRGNPFENKGKVCEETFIPGQSLKRRQKTYNKEKLCDFTDGRDAFMQSSELSEHQKIHSRKNLFEGRGYEKSVIHSGPFTESQKSHTITRPLESDEDEKAFTISSNPYENQKIPTKENVYEAKSYERSVIHSLASVEAQKSHSVAGPSKPKVMAESTIQSFDAINHQRVRAGGNTSEGREYSRSVIHSLVASKPPRSHNGNELVESNEKGESSIYISDLNDKRQKIPARENPCEGGSKNRNYEDSVIQSVFRAKPQKSVPGEGSGEFKKDGEFSVPSSNVREYQKARAKKKYIEHRSNETSVIHSLPFGEQTFRPRGMLYECQECGECFAHSSDLTEHQKIHDREKPSGSRNYEWSVIRSLAPTDPQTSYAQEQYAKEQARNKCKDFRQFFATSEDLNTNQKIYDQEKSHGEESQGENTDGEETHSEETHGQETIEDPVIQGSDMEDPQKDDPDDKIYECEDCGLGFVDLTDLTDHQKVHSRKCLVDSREYTHSVIHTHSISEYQRDYTGEQLYECPKCGESFIHSSFLFEHQRIHEQDQLYSMKGCDDGFIALLPMKPRRNRAAERNPALAGSAIRCLLCGQGFIHSSALNEHMRLHREDDLLEQSQMAEEAIIPGLALTEFQRSQTEERLFECAVCGESFVNPAELADHVTVHKNEPYEYGSSYTHTSFLTEPLKGAIPFYECKDCGKSFIHSTVLTKHKELHLEEEEEDEAAAAAAAAAQEVEANVHVPQVVLRIQGLNVEAAEPEVEAAEPEVEAAEPEVEAAEPNGEAEGPDGEAAEPIGEAGQPNGEAEQPNGDADEPDGAGIEDPEERAEEPEGKAEEPEGDADEPDGVGIEDPEEGEDQEIQVEEPYYDCHECTETFTSSTAFSEHLKTHASMIIFEPANAFGECSGYIERASTSTGGANQADEKYFKCDVCGQLFNDRLSLARHQNTHTG
"
exon 399..485
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/inference="alignment:Splign:1.39.8"
exon 486..569
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/inference="alignment:Splign:1.39.8"
exon 570..673
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/inference="alignment:Splign:1.39.8"
exon 674..776
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/inference="alignment:Splign:1.39.8"
exon 777..866
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/inference="alignment:Splign:1.39.8"
exon 867..8369
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/inference="alignment:Splign:1.39.8"
STS 1417..1661
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/standard_name="PEG3"
/db_xref="UniSTS:504454"
STS 4594..4693
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/standard_name="D19S699E"
/db_xref="UniSTS:150599"
variation 5474
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/replace="a"
/replace="g"
/db_xref="dbSNP:1055359"
STS 6029..6298
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/standard_name="RH18153"
/db_xref="UniSTS:209605"
STS 6170..6298
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/standard_name="SHGC-32171"
/db_xref="UniSTS:78243"
STS 7169..8296
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/standard_name="WI-22317"
/db_xref="UniSTS:29071"
STS 8096..8303
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/standard_name="RH17474"
/db_xref="UniSTS:60385"
STS 8195..8319
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
/standard_name="SGC34114"
/db_xref="UniSTS:19187"
polyA_signal 8341..8346
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
polyA_signal 8347..8352
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
polyA_signal 8359..8364
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
polyA_site 8369
/gene="PEG3"
/gene_synonym="PW1; ZKSCAN22; ZNF904; ZSCAN24"
ORIGIN
gcagaagtctgggcagctgcgggaggagaggtttgggaggcgcgggagatgtccaccctgggctggtggcgccgccgggcgccgggcgccatgagggtgcgctaggcggctgttcgtgcccgaggctgcgcagcactgaggtgagctttgccttcttgatcttccgtccttcttggagacgactggcgagaggaagagggactaggtccaaacgctaggtggctgggtccagccggagacccgcaccaaggaggagatcatcgagctcttggtccttgagcagtacctgaccatcatccctgaaaagctcaagccttgggtgcgagcaaaaaagccggagaactgtgagaagctcgtcactctgctggagaattacaaggagatgtaccaaccagaagacgacaacaacagtgacgtgaccagcgacgacgacatgacccggaacagaagagagtcctcaccacctcactcagtccattctttcagtgaccgggactgggaccggaggggcagaagcagagacatggagccacgagaccgctggtcccacaccaggaacccaagaagcaggatgcctccgcgggatctttcccttcctgtggtggcgaaaacaagctttgaaatggacagagaggacgacagggactccagggcttatgagtcccgatctcaggatgctgaatcataccaaaatgtggtggacctcgctgaggacaggaaacctcacaacacaatccaggacaacatggaaaactacaggaagctgctctccctcgtgcagcttgctgaagacgatggccactcccacatgacgcagggccactcatcaagatccaagagaagtgcctacccaagcaccagtcgaggtctaaaaactatgcctgaagccaaaaaatcaacccaccggcgggggatttgtgaagatgaatcttcccacggagtgataatggaaaaattcatcaaggatgtgtcacgcagttccaaatcgggaagagcaagggagtcaagcgaccggtcacagagattccccagaatgtcagatgataactggaaggacatttcattgaacaagagggagtcagtgatccagcagcgggtttatgaagggaatgcatttaggggaggctttaggtttaattcaacccttgtttccagaaagagagttcttgaaagaaagaggcgctatcattttgacacagatgggaagggctcgattcacgatcaaaaaggctgtcccaggaagaagccctttgaatgtggtagtgagatgagaaaagccatgagcgtgagcagcctgagcagcctcagctccccctcctttaccgagtcacagccaattgattttggggcaatgccatatgtatgtgatgagtgtgggaggtcgttcagtgtcatctcagaatttgttgagcaccagatcatgcatactagagagaacctctatgagtatggtgagtcctttatccacagtgtggctgtcagtgaagttcagaaaagtcaggttggagggaaacgttttgaatgtaaggactgtggagagaccttcaataagagtgccgccttggctgaacatcggaagattcatgctagaggttatcttgtggaatgtaagaatcaggaatgtgaggaagccttcatgcctagccccacctttagtgagcttcagaaaatatatggcaaagacaaattctacgagtgcagggtgtgtaaggaaaccttccttcatagttctgccctgattgagcaccagaaaatccactttggggatgacaaagataatgagcgtgaacatgaacgtgaacgtgaacgtgagcgcggggaaacctttaggcccagcccagcccttaatgagtttcagaaaatgtatggtaaagagaaaatgtacgaatgtaaggtgtgtggggagactttccttcatagctcatccctgaaagaacatcagaaaatccatactagagggaacccatttgaaaacaagggtaaagtgtgtgaggaaacctttattcctggtcagtcccttaaaaggcgtcagaaaacttacaataaggagaagctctgtgactttacagatggccgggatgccttcatgcaaagctcagagctcagtgagcatcagaaaattcattctcgaaagaacctctttgaaggcagagggtatgagaaatctgtcattcatagtgggccattcactgaatctcagaagagtcatactataacaagacctcttgaaagtgatgaggacgaaaaggcgttcaccattagctctaacccctatgaaaaccagaagattcccactaaggaaaatgtctatgaggcaaaatcatatgagaggtctgttattcatagcttagcctctgtggaagctcagaaaagtcacagtgtagcagggcccagtaaaccaaaagtaatggcagagtctaccattcagagcttcgatgctatcaaccatcagagagttcgtgctggagggaacacctctgaaggaagggaatacagtaggtctgttatccatagcttagtggcttccaaacctccaagaagtcacaatggaaatgaattggtggaatctaatgagaagggagaatcctccatttatatctcagaccttaatgataagcgacagaagattcctgccagagagaacccttgtgaagggggcagtaagaatcgcaactatgaagactctgtcatacagagtgtattccgtgccaaacctcagaaaagtgttcctggagagggatctggtgagtttaagaaggatggcgaattctctgttcccagctcaaatgtccgtgaataccagaaggctcgtgctaaaaagaaatacattgagcataggagcaatgagacctctgtaattcactctctgccttttggtgaacaaacatttcgccctcgagggatgctctatgaatgtcaggagtgtggggagtgctttgctcatagctctgacctcactgagcaccagaagattcatgatagggagaagccctctggaagcagaaactatgaatggtctgtcattcgcagcttggcccctactgaccctcaaacaagttacgcccaagagcagtatgctaaagagcaagcgcggaacaaatgtaaggacttcagacaattttttgctaccagcgaagacctcaacacaaaccagaaaatctatgaccaagagaagtctcatggcgaggagtctcaaggcgagaatactgatggggaggagacccacagcgaggagacccatggtcaggagacaattgaagaccctgtcattcaaggctcagacatggaagaccctcagaaggatgaccctgatgacaaaatctatgaatgtgaggactgtggcctgggctttgtggatctcacagacctcacagaccatcagaaagtccacagcaggaagtgcctggttgacagtcgggagtacacacattctgtaattcacacccattccatcagcgagtatcagagagattacactggagagcagctgtatgaatgtccaaagtgtggggaatcttttattcatagctcattccttttcgagcatcagagaatccatgaacaagaccagttgtattccatgaaggggtgtgatgatggttttattgccctcttgcccatgaagccacggaggaatcgtgctgcagagaggaatcctgctcttgctgggtcggccattcgatgccttttgtgtggacaaggcttcattcatagctctgcccttaatgagcatatgagacttcatagggaagatgatttactggagcagagccagatggctgaggaagctatcattccaggcttagccctcactgagtttcagagaagtcagaccgaagagagactctttgaatgtgcagtctgtggagaatctttcgtcaacccagcagaacttgcagatcacgtaactgttcataagaatgagccctatgagtacgggtcctcctatactcacacctcatttcttactgagcccctcaaaggagctataccattctatgaatgcaaggattgtggtaagtcctttattcatagcacagtcctcactaaacataaggagcttcatctggaagaagaagaagaagatgaagcagcagcagctgcagcagcagcagcccaggaagttgaagccaatgtccatgttccacaagtagttctgaggattcagggcttaaacgtagaggctgctgagccagaagtggaggctgccgagccagaagtggaggctgctgagccagaagtggaggctgctgagccaaacggagaggctgaagggccagatggagaggctgcagagcccattggagaggctggacagccaaatggagaggccgagcagccaaatggggatgctgatgagccagatggtgcaggtattgaagacccagaagaaagagctgaagagccagagggaaaagctgaagagccagagggagatgccgacgagcctgacggtgtgggaattgaagacccagaagaaggtgaagatcaagagattcaggtagaagaaccatactatgactgccatgaatgcacagaaaccttcacttccagcacagcattcagtgaacacctgaaaactcatgccagcatgatcatatttgagcctgcaaatgcctttggggagtgctcaggctacatcgaacgtgccagcaccagcacaggtggtgccaatcaagctgatgagaagtacttcaaatgtgacgtctgtgggcagctcttcaatgaccgcctgtccctcgccagacaccagaatacccacactggctgagggcatggggtaaaggttagaaaaccttcacctaggacttgacccttaccaaaccacagagaatccaaaccaatccatgataatgtcagtaggagacttaaccttagtgtgttacacacctgacttaacatctctaaactcagattgaaaagagaccgaatgtgcagattccacagtcttaagctttccccttcagatgtcagtgtctgcatgtgggaaagccatagcacacatcttacctttccaagtaatcagattgagaaaaccctatgagtattccagactacagagtttgcccaaatcaactgtaaatgacacttgtgtaacgtatatatagtgtttcatgaggtgtatataaaatagcaaattatgacagaacagtgatcacatatatttggatttatatgatatacagttacagtttactctgcagaggtaccttacctggtattctttgaattttttttttttttggaggaggaagagagcaacaaatttgattatatttttaagtgtcttagatcctgagaaagatttattgtgcattatttgaaccctgtcaatatctttttgagtaattgttttgtttcttacccttaaatagtcttgtgaagctgtaggcatgatagataacatggcttttactccttactgtttgaaaagataagtactttagcttctttctgcagccatttcatctgcgccaacactttggaacctaatactgtgtaaggctttacaatatacggattggctttttgtgacccagattgattggttgccacatgttatgtttgttgaagtggttctcatgcaaaaatattacacatttgtgttctgggttttttttttttttaaccaactcaatatgtgtttgatgatagtgaattgataaaacccgaagcttttccctgtaaatcttacatctttgcctttaaagaatgggttacaaccatcactagatcacagtagtgcctaatgaaggttgagaaccgtaggagaggctctcatgctgtaaataatgttgcaggctaataacctttcatcacttcctttgtgcgcttcctgccttaagtgacaagtagcaacatggcttgggtcccctgtgcagcatcagcttatgctgccacaagtcagtttgcaccctaggtgcccaggagctagtatccttagatctttctatcgctaacttaattctcttcgttatttatctgaccctctaactccatgtctaacttgcattaaaaaaaaaaaaattctttacagtcaacccaagcttaacatggactcaggttccccagcagccttaatttgttttgttaacatctgttccttctttttcagctctcctagagtatttctgagtgttgtgttcatctaatcttagtattcttttaattacaaattgacctcacagcttgaggtttcttgtgtcctattctgtggactacctgtgctcctttgcttcccctcccctcgcataataactatattaagaaattttttttggccttgagttggctggaaaaaaaatataaaatttaaaaaatttaaaaaaaaagatttgcaaaatgtaagtgtagatcatttgaacaagcaaaattaaagtacccactgggggaaatgtgtctgaatcttactcttctggatctgcaggattagggcttggaagtatgtcaaagatgcagggagtgtcaaagtttaggaagattgtagagctgagagcaagaagcagaaatgagtgagtcaaagaagggagtcctaatatatcaccagatctaggaggggagaggagacagacagaagaaaacaccagaggcaagaactgtagaaggccaggtttctgagaatgaattgagcggggtgtcctgagcagtttggaaaaggagtttttgatggtatggtgtaggtgagggctggctgcataggaaggactgaggttggaacggacatcgggaaagctgaggggcagtgaggtttactacatgggaaaaggactcttgaaacgagaatcagtgttgatgtcggggtgaactttgtgggtacattacttggtgttaacattgttggcagtggtagccccttttcagaaagcaacttgctgtaagtcagggtgtccgttccaaccttcagctagtgaaaaggtagtaacaaatggtaaacaagagaatgattgtttaaacctatctgtggacacttaatgcaactgtttaaaaatgataatcacgagttatgtagcaacgtggaaatatatttacagaacattaagtggagaaagcaggacacgaaagtatatttatactacagttataactcaacagttcatttatatgctgttcatttaacagttcatttaaacagttcattataactgtttaaaaatatatatgcttatagtcaaaagctgttgtggtgttgttgttgtaggcttatagttgagcattattttcttaaatttcttgaatgttctttatggtagtgttactaaaaagtttatgatcacattttcattgtgaacataatttgaactcattatcacacacttggaaaatacagaaaagtggaggaaaaaaaatcatatccccaccatccaaagacatatactctcctcttatcttgttcattcttgtttctgtgcacaggtttatgattataactgtgtcaaaatgtatattcaaaatagctgttacattacctttgtggaattatggttaaatactttcactttaattttttcaaatgttccctataataatgtcctgataacagtgtattatgtgtgtctccattggtgtgcataatacatacccagaggaaaaattagaaaataaagtaaattattttaaaaaattacctatattcccaacacctaacaactactgctaacatcttgatctgtttcctctatcttgtttcagtgcacacgcttgtgataacagtgttaaatatgtgtgcataaagtcttaaatgaaaagatgtggaaaataactaaaatagtgttgtcattgtgggaatttggttaaatattttgtctcaaattccttaaataatctttggtgttttggtaataaattttatgtatgtattttccattacaaatataatacatactcatacaaaactttggaaattcagtaaagaaaattcacacatattcccaacacccaacaacaattaactgttaacatcttgatctgtgcactagtctgtgattattagggtgttagtgataagtatgcataaatgtcaaagatgggaagaaagatgaaaaacaagaaatagttgtgtggttgttgtgggattatggttattttgtttcggtttccttgaaaggtcatcattctagtgttttggtagtccacctttactacatatatttccattatatatgaaatgtgttcattatagaaactttgaagttacagaaatgtagaagagaaactcacccatgttttcaccatccaaagagtgtggttaacatcttgatatattttcttcatcttgtttctgtgcacaggtttttggtttgttaatatggttgtggtcattctatctgtaatagtgtcaacaataaaaataaagttaaaaataaatatttaaaaaa
//
ANNOTATIONS from NCBI Entrez Gene (20130726):
GeneID:5178 -> Molecular function: GO:0000981 [sequence-specific DNA binding RNA polymerase II transcription factor activity] evidence: IBA
GeneID:5178 -> Molecular function: GO:0003676 [nucleic acid binding] evidence: IEA
GeneID:5178 -> Molecular function: GO:0046872 [metal ion binding] evidence: IEA
GeneID:5178 -> Biological process: GO:0001701 [in utero embryonic development] evidence: IEA
GeneID:5178 -> Biological process: GO:0006357 [regulation of transcription from RNA polymerase II promoter] evidence: IBA
GeneID:5178 -> Biological process: GO:0006366 [transcription from RNA polymerase II promoter] evidence: IBA
GeneID:5178 -> Biological process: GO:0006915 [apoptotic process] evidence: IEA
GeneID:5178 -> Biological process: GO:0035264 [multicellular organism growth] evidence: IEA
GeneID:5178 -> Biological process: GO:0071514 [genetic imprinting] evidence: IEA
GeneID:5178 -> Cellular component: GO:0005634 [nucleus] evidence: IDA
GeneID:5178 -> Cellular component: GO:0005730 [nucleolus] evidence: IDA
GeneID:5178 -> Cellular component: GO:0005737 [cytoplasm] evidence: IDA
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