GTF3C1

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VALUE_ERROR (nil)
Identifiers
Aliases
External IDsGeneCards: [1]
Orthologs
SpeciesHumanMouse
Entrez
Ensembl
UniProt
RefSeq (mRNA)

n/a

n/a

RefSeq (protein)

n/a

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Location (UCSC)n/an/a
PubMed searchn/an/a
Wikidata
View/Edit Human

General transcription factor 3C polypeptide 1 is a protein that in humans is encoded by the GTF3C1 gene.[1][2][3]

Interactions

GTF3C1 has been shown to interact with GTF3C4.[4]

References

  1. Lagna G, Kovelman R, Sukegawa J, Roeder RG (May 1994). "Cloning and characterization of an evolutionarily divergent DNA-binding subunit of mammalian TFIIIC". Mol. Cell. Biol. 14 (5): 3053–64. doi:10.1128/mcb.14.5.3053. PMC 358673. PMID 8164661.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  2. L'Etoile ND, Fahnestock ML, Shen Y, Aebersold R, Berk AJ (Apr 1994). "Human transcription factor IIIC box B binding subunit". Proc. Natl. Acad. Sci. U.S.A. 91 (5): 1652–6. doi:10.1073/pnas.91.5.1652. PMC 43221. PMID 8127861.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  3. "Entrez Gene: GTF3C1 general transcription factor IIIC, polypeptide 1, alpha 220kDa".<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  4. Hsieh YJ, Kundu TK, Wang Z, Kovelman R, Roeder RG (Nov 1999). "The TFIIIC90 subunit of TFIIIC interacts with multiple components of the RNA polymerase III machinery and contains a histone-specific acetyltransferase activity". Mol. Cell. Biol. 19 (11): 7697–704. doi:10.1128/mcb.19.11.7697. PMC 84812. PMID 10523658.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>

Further reading

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  • Jang KL, Collins MK, Latchman DS (1992). "The human immunodeficiency virus tat protein increases the transcription of human Alu repeated sequences by increasing the activity of the cellular transcription factor TFIIIC". J. Acquir. Immune Defic. Syndr. 5 (11): 1142–7. PMID 1403646.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  • Kovelman R, Roeder RG (1992). "Purification and characterization of two forms of human transcription factor IIIC". J. Biol. Chem. 267 (34): 24446–56. PMID 1447193.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  • Wang Z, Roeder RG (1998). "DNA topoisomerase I and PC4 can interact with human TFIIIC to promote both accurate termination and transcription reinitiation by RNA polymerase III". Mol. Cell. 1 (5): 749–57. doi:10.1016/S1097-2765(00)80074-X. PMID 9660958.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  • Loftus BJ, Kim UJ, Sneddon VP, Kalush F, Brandon R, Fuhrmann J, Mason T, Crosby ML, Barnstead M, Cronin L, Deslattes Mays A, Cao Y, Xu RX, Kang HL, Mitchell S, Eichler EE, Harris PC, Venter JC, Adams MD (1999). "Genome duplications and other features in 12 Mb of DNA sequence from human chromosome 16p and 16q". Genomics. 60 (3): 295–308. doi:10.1006/geno.1999.5927. PMID 10493829.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  • Hsieh YJ, Kundu TK, Wang Z, Kovelman R, Roeder RG (1999). "The TFIIIC90 subunit of TFIIIC interacts with multiple components of the RNA polymerase III machinery and contains a histone-specific acetyltransferase activity". Mol. Cell. Biol. 19 (11): 7697–704. doi:10.1128/mcb.19.11.7697. PMC 84812. PMID 10523658.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  • Meissner W, Thomae R, Seifart KH (2002). "The activity of transcription factor IIIC1 is impaired during differentiation of F9 cells". J. Biol. Chem. 277 (9): 7148–56. doi:10.1074/jbc.M108721200. PMID 11741993.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  • Zhan Y, Hegde R, Srinivasula SM, Fernandes-Alnemri T, Alnemri ES (2002). "Death effector domain-containing proteins DEDD and FLAME-3 form nuclear complexes with the TFIIIC102 subunit of human transcription factor IIIC". Cell Death Differ. 9 (4): 439–47. doi:10.1038/sj.cdd.4401038. PMID 11965497.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  • Weser S, Riemann J, Seifart KH, Meissner W (2003). "Assembly and isolation of intermediate steps of transcription complexes formed on the human 5S rRNA gene". Nucleic Acids Res. 31 (9): 2408–16. doi:10.1093/nar/gkg345. PMC 154231. PMID 12711686.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  • Beausoleil SA, Jedrychowski M, Schwartz D, Elias JE, Villén J, Li J, Cohn MA, Cantley LC, Gygi SP (2004). "Large-scale characterization of HeLa cell nuclear phosphoproteins". Proc. Natl. Acad. Sci. U.S.A. 101 (33): 12130–5. doi:10.1073/pnas.0404720101. PMC 514446. PMID 15302935.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  • Beausoleil SA, Villén J, Gerber SA, Rush J, Gygi SP (2006). "A probability-based approach for high-throughput protein phosphorylation analysis and site localization". Nat. Biotechnol. 24 (10): 1285–92. doi:10.1038/nbt1240. PMID 16964243.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  • Olsen JV, Blagoev B, Gnad F, Macek B, Kumar C, Mortensen P, Mann M (2006). "Global, in vivo, and site-specific phosphorylation dynamics in signaling networks". Cell. 127 (3): 635–48. doi:10.1016/j.cell.2006.09.026. PMID 17081983.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  • Dumay-Odelot H, Marck C, Durrieu-Gaillard S, Lefebvre O, Jourdain S, Prochazkova M, Pflieger A, Teichmann M (2007). "Identification, molecular cloning, and characterization of the sixth subunit of human transcription factor TFIIIC". J. Biol. Chem. 282 (23): 17179–89. doi:10.1074/jbc.M611542200. PMID 17409385.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>

External links

This article incorporates text from the United States National Library of Medicine, which is in the public domain.