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Previous release (v1)
2025-11-02 05:59:50, GGRNA.v2 : RefSeq release 232 (Sep, 2025)
LOCUS NR_182209 4953 bp RNA linear PRI 22-SEP-2024
DEFINITION Homo sapiens polyhomeotic homolog 1 (PHC1), transcript variant 19,
non-coding RNA.
ACCESSION NR_182209
VERSION NR_182209.1
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 4953)
AUTHORS Huttlin,E.L., Bruckner,R.J., Navarrete-Perea,J., Cannon,J.R.,
Baltier,K., Gebreab,F., Gygi,M.P., Thornock,A., Zarraga,G., Tam,S.,
Szpyt,J., Gassaway,B.M., Panov,A., Parzen,H., Fu,S., Golbazi,A.,
Maenpaa,E., Stricker,K., Guha Thakurta,S., Zhang,T., Rad,R.,
Pan,J., Nusinow,D.P., Paulo,J.A., Schweppe,D.K., Vaites,L.P.,
Harper,J.W. and Gygi,S.P.
TITLE Dual proteome-scale networks reveal cell-specific remodeling of the
human interactome
JOURNAL Cell 184 (11), 3022-3040 (2021)
PUBMED 33961781
REFERENCE 2 (bases 1 to 4953)
AUTHORS Chen,L., Tong,Q., Chen,X., Jiang,P., Yu,H., Zhao,Q., Sun,L.,
Liu,C., Gu,B., Zheng,Y., Fei,L., Jiang,X., Li,W., Volpe,G.,
Abdul,M.M., Guo,G., Zhang,J., Qian,P., Sun,Q., Neculai,D.,
Esteban,M.A., Li,C., Wen,F. and Ji,J.
TITLE PHC1 maintains pluripotency by organizing genome-wide chromatin
interactions of the Nanog locus
JOURNAL Nat Commun 12 (1), 2829 (2021)
PUBMED 33990559
REMARK GeneRIF: PHC1 maintains pluripotency by organizing genome-wide
chromatin interactions of the Nanog locus.
Publication Status: Online-Only
REFERENCE 3 (bases 1 to 4953)
AUTHORS Luck,K., Kim,D.K., Lambourne,L., Spirohn,K., Begg,B.E., Bian,W.,
Brignall,R., Cafarelli,T., Campos-Laborie,F.J., Charloteaux,B.,
Choi,D., Cote,A.G., Daley,M., Deimling,S., Desbuleux,A., Dricot,A.,
Gebbia,M., Hardy,M.F., Kishore,N., Knapp,J.J., Kovacs,I.A.,
Lemmens,I., Mee,M.W., Mellor,J.C., Pollis,C., Pons,C.,
Richardson,A.D., Schlabach,S., Teeking,B., Yadav,A., Babor,M.,
Balcha,D., Basha,O., Bowman-Colin,C., Chin,S.F., Choi,S.G.,
Colabella,C., Coppin,G., D'Amata,C., De Ridder,D., De Rouck,S.,
Duran-Frigola,M., Ennajdaoui,H., Goebels,F., Goehring,L., Gopal,A.,
Haddad,G., Hatchi,E., Helmy,M., Jacob,Y., Kassa,Y., Landini,S.,
Li,R., van Lieshout,N., MacWilliams,A., Markey,D., Paulson,J.N.,
Rangarajan,S., Rasla,J., Rayhan,A., Rolland,T., San-Miguel,A.,
Shen,Y., Sheykhkarimli,D., Sheynkman,G.M., Simonovsky,E., Tasan,M.,
Tejeda,A., Tropepe,V., Twizere,J.C., Wang,Y., Weatheritt,R.J.,
Weile,J., Xia,Y., Yang,X., Yeger-Lotem,E., Zhong,Q., Aloy,P.,
Bader,G.D., De Las Rivas,J., Gaudet,S., Hao,T., Rak,J.,
Tavernier,J., Hill,D.E., Vidal,M., Roth,F.P. and Calderwood,M.A.
TITLE A reference map of the human binary protein interactome
JOURNAL Nature 580 (7803), 402-408 (2020)
PUBMED 32296183
REFERENCE 4 (bases 1 to 4953)
AUTHORS Huttlin,E.L., Bruckner,R.J., Paulo,J.A., Cannon,J.R., Ting,L.,
Baltier,K., Colby,G., Gebreab,F., Gygi,M.P., Parzen,H., Szpyt,J.,
Tam,S., Zarraga,G., Pontano-Vaites,L., Swarup,S., White,A.E.,
Schweppe,D.K., Rad,R., Erickson,B.K., Obar,R.A., Guruharsha,K.G.,
Li,K., Artavanis-Tsakonas,S., Gygi,S.P. and Harper,J.W.
TITLE Architecture of the human interactome defines protein communities
and disease networks
JOURNAL Nature 545 (7655), 505-509 (2017)
PUBMED 28514442
REFERENCE 5 (bases 1 to 4953)
AUTHORS Hauri,S., Comoglio,F., Seimiya,M., Gerstung,M., Glatter,T.,
Hansen,K., Aebersold,R., Paro,R., Gstaiger,M. and Beisel,C.
TITLE A High-Density Map for Navigating the Human Polycomb Complexome
JOURNAL Cell Rep 17 (2), 583-595 (2016)
PUBMED 27705803
REFERENCE 6 (bases 1 to 4953)
AUTHORS Levine,S.S., Weiss,A., Erdjument-Bromage,H., Shao,Z., Tempst,P. and
Kingston,R.E.
TITLE The core of the polycomb repressive complex is compositionally and
functionally conserved in flies and humans
JOURNAL Mol Cell Biol 22 (17), 6070-6078 (2002)
PUBMED 12167701
REFERENCE 7 (bases 1 to 4953)
AUTHORS Ohta,H., Tokimasa,S., Zou,Z., Funaki,S., Kurahashi,H.,
Takahashi,Y., Kimura,M., Matsuoka,R., Horie,M., Hara,J., Shimada,K.
and Takihara,Y.
TITLE Structure and chromosomal localization of the RAE28/HPH1 gene, a
human homologue of the polyhomeotic gene
JOURNAL DNA Seq 11 (1-2), 61-73 (2000)
PUBMED 10902910
REFERENCE 8 (bases 1 to 4953)
AUTHORS Satijn,D.P., Gunster,M.J., van der Vlag,J., Hamer,K.M., Schul,W.,
Alkema,M.J., Saurin,A.J., Freemont,P.S., van Driel,R. and Otte,A.P.
TITLE RING1 is associated with the polycomb group protein complex and
acts as a transcriptional repressor
JOURNAL Mol Cell Biol 17 (7), 4105-4113 (1997)
PUBMED 9199346
REFERENCE 9 (bases 1 to 4953)
AUTHORS Gunster,M.J., Satijn,D.P., Hamer,K.M., den Blaauwen,J.L., de
Bruijn,D., Alkema,M.J., van Lohuizen,M., van Driel,R. and Otte,A.P.
TITLE Identification and characterization of interactions between the
vertebrate polycomb-group protein BMI1 and human homologs of
polyhomeotic
JOURNAL Mol Cell Biol 17 (4), 2326-2335 (1997)
PUBMED 9121482
REFERENCE 10 (bases 1 to 4953)
AUTHORS Verloes,A., Drunat,S., Gressens,P. and Passemard,S.
TITLE Primary Autosomal Recessive Microcephalies and Seckel Syndrome
Spectrum Disorders - RETIRED CHAPTER, FOR HISTORICAL REFERENCE ONLY
JOURNAL (in) Adam MP, Feldman J, Mirzaa GM, Pagon RA, Wallace SE, Bean LJH,
Gripp KW and Amemiya A (Eds.);
GENEREVIEWS(R);
(1993)
PUBMED 20301772
COMMENT REVIEWED REFSEQ: This record has been curated by NCBI staff. The
reference sequence was derived from AC006581.16.
Summary: This gene is a homolog of the Drosophila polyhomeotic
gene, which is a member of the Polycomb group of genes. The gene
product is a component of a multimeric protein complex that
contains EDR2 and the vertebrate Polycomb protein BMH1. The gene
product, the EDR2 protein, and the Drosophila polyhomeotic protein
share 2 highly conserved domains, named homology domains I and II.
These domains are involved in protein-protein interactions and may
mediate heterodimerization of the protein encoded by this gene and
the EDR2 protein. [provided by RefSeq, Jul 2008].
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 :: SRR18074967.44404.1,
SRR14038196.2538327.1 [ECO:0000332]
RNAseq introns :: single sample supports all introns
SAMEA1968968, SAMEA2155974
[ECO:0000348]
##Evidence-Data-END##
COMPLETENESS: full length.
PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP
1-108 AC006581.16 62800-62907
109-270 AC006581.16 66587-66748
271-381 AC006581.16 68713-68823
382-462 AC006581.16 69942-70022
463-612 AC006581.16 70558-70707
613-768 AC006581.16 71590-71745
769-1261 AC006581.16 79392-79884
1262-2049 AC006581.16 81520-82307
2050-2197 AC006581.16 82822-82969
2198-2409 AC006581.16 83224-83435
2410-2524 AC006581.16 84081-84195
2525-2633 AC006581.16 85813-85921
2634-2784 AC006581.16 86133-86283
2785-3016 AC006581.16 86786-87017
3017-4729 AC006581.16 88262-89974
4730-4953 AC006581.16 90201-90424
FEATURES Location/Qualifiers
source 1..4953
/organism="Homo sapiens"
/mol_type="transcribed RNA"
/db_xref="taxon:9606"
/chromosome="12"
/map="12p13.31"
gene 1..4953
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/note="polyhomeotic homolog 1"
/db_xref="GeneID:1911"
/db_xref="HGNC:HGNC:3182"
/db_xref="MIM:602978"
misc_RNA 1..4953
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/product="polyhomeotic homolog 1, transcript variant 19"
/db_xref="GeneID:1911"
/db_xref="HGNC:HGNC:3182"
/db_xref="MIM:602978"
exon 1..108
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="alignment:Splign:2.1.0"
exon 109..270
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="alignment:Splign:2.1.0"
misc_feature 157..3171
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="COORDINATES:
alignment:Blast2seq::RefSeq|NM_001413738.1"
/note="primary ORF has stop codon >50 nucleotides from the
terminal splice site; nonsense-mediated decay (NMD)
candidate"
exon 271..381
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="alignment:Splign:2.1.0"
exon 382..462
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="alignment:Splign:2.1.0"
exon 463..612
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="alignment:Splign:2.1.0"
exon 613..768
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="alignment:Splign:2.1.0"
exon 769..1261
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="alignment:Splign:2.1.0"
exon 1262..2049
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="alignment:Splign:2.1.0"
exon 2050..2197
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="alignment:Splign:2.1.0"
exon 2198..2409
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="alignment:Splign:2.1.0"
exon 2410..2524
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="alignment:Splign:2.1.0"
exon 2525..2633
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="alignment:Splign:2.1.0"
exon 2634..2784
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="alignment:Splign:2.1.0"
exon 2785..3016
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="alignment:Splign:2.1.0"
exon 3017..4729
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="alignment:Splign:2.1.0"
exon 4730..4953
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/inference="alignment:Splign:2.1.0"
regulatory 4932..4937
/regulatory_class="polyA_signal_sequence"
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/note="hexamer: AAGAAA"
polyA_site 4953
/gene="PHC1"
/gene_synonym="EDR1; HPH1; MCPH11; RAE28"
/note="major polyA site"
ORIGIN
aaatgctatccaaaggaagttacattaggttgctgctttgaaaatgaagtcaactcctaatgggttagctgtttctgcagcattctttcccgccttcttggagttgaggtcttgagtcagacagagcaccagccttggggaccctggaccactatcatggagactgagagcgagcagaactccaattccaccaatgggagttctagctcagggggcagctctcggccccagatagctcaaatgtcactttatgaacgacaagcagtgcaggctctgcaagcactgcagcggcagcccaatgcagctcagtatttccaccagttcatgctccagcagcagctcagtaatgcccagctgcatagcctggctgccgtccagcaggccacaattgctgccagtcggcaggccagctccccaaacaccagcactacacagcagcagactaccaccacccaggcctcgatcaatctggccaccacatcggccgcccagctcatcagccgatcccagagtgtgagctctcccagtgctaccaccttgacccaatctgtgctactggggaacaccacctccccacccctcaaccagtctcaggcccagatgtatctacggccacagctgggaaacctattgcaggtaaaccgaaccctgggtcggaatgtgcctctagcctcccaactcatcctgatgcctaatggggcggtggctgcagtccagcaggaggtgccatctgctcagtctcctggagttcatgcagatgcagatcaggttcagaacttggcagtaaggaatcaacaggcctcagctcaaggacctcagatgcaaggctccactcagaaggccattcctccaggagcctcccctgtctctagcctctcccaggcctctagccaggccctagcggtggcacaggcttcctctggggccacaaaccagtccctcaaccttagtcaagctggtggaggcagtgggaatagcatcccagggtccatgggtccaggtggaggtgggcaggcacatggtggtttgggtcagttgccttcctcaggaatgggtggtgggagctgtcccagaaagggtacaggagtggtgcagcccttgcctgcagcccaaacagtgactgtgagccagggcagccagacagaggcagaaagtgcagcagccaagaaggcagaagcagatgggagtggccagcagaatgtgggcatgaacctgacacggacagccacacctgcgcccagccagacacttattagctcagccacctacacacagatccagccccattcactgattcagcaacagcaacagatccacctccagcagaaacaggtggtgatccagcagcagattgccatccaccaccagcagcagttccagcaccggcagtcccagctccttcacacagctacacacctccagttggcgcagcagcagcagcagcaacaacagcaacagcagcaacagcagcagccgcaagccaccaccctcactgcccctcagccaccacaggtcccacctactcagcaggtcccaccttcccagtcccagcagcaagcccaaaccctggtcgttcagcccatgcttcagtcttcacccttgtctcttccacctgatgcagcccctaagccaccaattcccatccaatccaaaccacctgtagcacctatcaagccgcctcagttaggggccgctaagatgtcagctgcccagcaaccaccaccccatatccctgtgcaagttgtaggcactcgacagccaggtacagcccaggcacaggctttggggttggcacagctggcagctgctgtacctacttcccgggggatgccaggtacagtgcagtctggtcaggcccatttggcctcctcgccaccttcatcccaggctcctggtgcactgcaggagtgccctcccacattggcccctgggatgacccttgctcctgtgcaggggacagcacatgtggtaaagggtggggctaccacctcctcacctgttgtagcccaggtccctgctgccttctatatgcagtctgtgcacttgccgggtaaaccccagacattggctgtcaaacgcaaggctgactctgaggaggagagagatgatgtctccacattgggttcaatgcttcctgccaaggcatctccagtagcagaaagcccaaaagtcatggacgagaagagcagtcttggagaaaaagctgaatcagtggctaatgtgaatgctaatactccaagcagtgaactagtagccttgacccccgccccttcagtaccgcctcctacactagccatggtgtctagacaaatgggtgactcaaaacccccacaggccatcgtgaagccccagattctcacccacatcattgaaggctttgttatccaggaaggagcagaacctttcccggtgggttgttctcagttactgaaggagtctgagaagccactacagactggccttccgacagggctgactgagaatcagtcaggtggccctttgggagtggacagcccatctgctgagttagataagaaggcgaatctcctgaagtgcgagtactgtgggaagtacgcccccgcagagcagtttcgtggctctaagaggttctgctccatgacttgcgctaagaggtacaatgtgagctgtagccatcagttccggctgaagaggaaaaaaatgaaagagtttcaagaagccaactatgctcgcgttcgcaggcgtggaccccgccgcagctcctctgacattgcccgtgccaagattcagggcaagtgccaccggggtcaagaagactctagccggggttcagataattccagttatgatgaagcactctctccaacatctcctgggcctttatcagtaagagctgggcatggagaacgtgacctggggaatcccaatacagctccacctacaccggaattacatggcatcaaccctgtgttcctgtccagtaatcccagccgttggagtgtagaggaggtgtacgagtttattgcttctctccaaggctgccaagagattgcagaggaatttcgctcacaggagattgatggacaggcccttttattacttaaagaagaacatcttatgagtgccatgaacatcaagctgggccctgccctcaagatctgcgccaagataaatgtcctcaaggagacctaaggtggccctcttgcacaaaccagcctaaggcagacactctccactgtccaggttataacctggtaccagcagactttgcagggaagaaagagttgttccaatcatgtaaccttctgtaggggattactgagacagggaagagaagtgcaagaattggttgctggtgctacatggcggcagctttgacattttctctgggttctactttattttttaaaatctttacagttctcaccatttcacgtaccttaatccaatctttataaaagaggcagtctagagaactaggactgctcagccttatcctggagtggagcatttagcccaggtcttaattctccaagaggaggaatacatagtatggtaaggcaaggaactgggtggaatgtcaggttgcctgcccaatgggagaggtagggtttttctagcttgtgtgacagaagtagcaaaatctggtcctcccccctcccagtgtagctgtggctcagagttttttctttttgttgtcacttactcccttgtgattgaattttttctcctgcatccatggcaggatccccagccagtatagagacttggttggcatcttctgctgcagggactaaaagtatttgactggggcacatgtggctgttgtcattctttctgcatcccactgttcccctccaatttatgttattttctaccctgtttttcagttccatctctgctctgtcctatagctttataaaaccagagtgtgtggggctgaggtcaggagtataagtacctgccttaggcactattccttatataacaaaaatattaaatatttttttcctcagtaaaaggatgaaaattggtttcagttgtcttactctattccagtctttgcccactttcacacaaatgacaaggccaatatgttttgtttgttttttaatcattaagagtttttgtacaaaaggtgatggttttttttcttcattttaaaacaccagggtgtgggggagggatgcaaacaaataacaaaaaagatgcttttgtaacattattttccctgtttagaaagaaaaaaatcactccaatagtattgaaaagtccaaagatgaaatagtttcattttcttttcctaaggcttataaaaggccccctgcctgttgattccatccctcttttgtgtccagtggagccatgttactcttcagtggcccaggggttcactattaaagaaagatcagtccaggtttctgggcacatggcctaaacaggaagatggaagcatcagaggattaaaaacctttccccacagaaatgtgggcaagaagacacttccctgagccagcagaagggacaggtgcagcagcattccacacccagcgcagaggacagcagagccctcgatgtcccacttctgcttccgttccctttctagaagattgaaaaaaaggtcaaaaccacatgcctgtggagaaagtgcgacatgtttagaaatactggtagggaaccaggagtaagaaaagctttaccagcttttactacaaatggatgaaagacatcaggatcccaccaccgcaagaggtgggagaagcaagtctagaacatctccaggctcagactaaacgagagtacttggactgcaaccaagtaatcactgcaaagtagttccaagcagcaagaaataccagattctcatggaggctactatagggtacagaataacaacatgaaagcaatcaaccctgtataaataatgtttcttggcattttttttttaattaaagaaatccagtgtctcaaaaa
//
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@meso_cacase at
DBCLS
This page is licensed under a
Creative Commons Attribution 4.0 International License (CC BY 4.0).
If you use GGRNA in your work, please cite:
Naito Y, Bono H. (2012)
GGRNA: an ultrafast, transcript-oriented search engine for genes and transcripts.
Nucleic Acids Res., 40, W592-W596.
[Full Text]